study program 2019/2020 subjects of the 3-4 ......up fp pharmacy major – obligatory subjects of...
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UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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University of Pécs Faculty of Pharmacy
PHARMACY Major
STUDY PROGRAM 2019/2020
Subjects of the 3-4. semesters
(obligatory subjects and criterion requirements)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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3rd semester
OPA-KD1-T Colloidics 1 _________________________________________________________________________________ 3
OPA-PC2-T Physical Chemistry 2 __________________________________________________________________________ 5
OPA-S1E-T Organic Chemistry 1 - Theory ___________________________________________________________________ 6
OPA-V1G-T Organic Chemistry 1 - Practice __________________________________________________________________ 10
OPO-AI2-T Human Anatomy, Histology and Embriology 2 _____________________________________________________ 12
OPO-G1E-T Pharmacobotany 1 - Theory ____________________________________________________________________ 14
OPO-G1G-T Pharmacobotany 1 - Practice ___________________________________________________________________ 16
OPO-H1E-T Human Physiology 1 - Theory __________________________________________________________________ 18
OPO-H1G-T Human Physiology 1 - Practice _________________________________________________________________ 23
ATT3-T Physical Education 3 _________________________________________________________________________ 27
4th semester
OPA-M1E-T Instrumental Analysis - Theory _________________________________________________________________ 28
OPA-MAG-T Instrumental Analysis - Practice _________________________________________________________________ 30
OPA-S2E-T Organic Chemistry 2 - Theory __________________________________________________________________ 32
OPA-V2G-T Organic Chemistry 2 - Practice __________________________________________________________________ 36
OPG-GI1-T Basic Principles of Pharmacy ___________________________________________________________________ 38
OPO-G1B-T Pharmaceutical Biochemistry 1 _________________________________________________________________ 40
OPO-G2E-T Pharmacobotany 2 - Theory ____________________________________________________________________ 42
OPO-G2G-T Pharmacobotany 2 - Practice ___________________________________________________________________ 44
OPO-H2E-T Human Physiology 2 - Theory __________________________________________________________________ 46
OPO-H2G-T Human Physiology 2 - Practice _________________________________________________________________ 52
ATT4-T Physical Education 4 _________________________________________________________________________ 57
OPR-HUF-O-T Final Examination in Hungarian Pharmaceutical Terminology - oral ____________________________________ 58
OPR-HUF-W-T Final Examination in Hungarian Pharmaceutical Terminology - written __________________________________ 59
OPR-SG1-T Professional Practice 1 ________________________________________________________________________ 60
ATT1-2-3-4-T Physical Education 1-2-3-4 courses _____________________________________ Hiba! A könyvjelző nem létezik.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-KD1-T COLLOIDICS 1
Course director: DR. BARNA SZILÁRD KOVÁCS, associate professor
Faculty of Natural Sciences - Department of General and Physical Chemistry [email protected]
2 credit ▪ semester exam ▪ Basic module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 28 lectures + 0 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 3 – 999 Prerequisites: see your Recommended Curriculum
Topic
Learning about the types, structure, stability, chemical and physical-chemical properties and about laws of interaction of colloidal
systems.
Conditions for acceptance of the semester
Mid-term exams
Two written tests (after the 5th and 10th lessons) should be completed (min. 50%) during the semester.
Making up for missed classes
Reading material
- Obligatory literature
- Literature developed by the Department
- Notes
- Recommended literature
D. J. Shaw: Introduction to Colloid and Surface Chemistry, 4th ed. (or later), Butterworth-Heinemann, Oxford 1992.,
D. F. Evans, H. Wennerström: The Colloidal Domain: Where Physics, Chemistry, Biology and Technology Meet, 2nd ed., Wiley-
VCH, New York 1999.
D. H. Everett: Basic Principles of Colloid Science, RSC, London 1988.
Lectures
1 The colloidal state
Dr. Kovács Barna Szilárd
2 Classification of colloidal systems
Dr. Kovács Barna Szilárd
3 The structure of interfaces
Dr. Kovács Barna Szilárd
4 Interfacial phenomena.
Dr. Kovács Barna Szilárd
5 Surface tension.
Dr. Kovács Barna Szilárd
6 Gas/liquid interface.
Dr. Kovács Barna Szilárd
7 Interface of solution, phase boundary
Dr. Kovács Barna Szilárd
8 Liquide/liquide interfaces
Dr. Kovács Barna Szilárd
9 Solid/liquide interface
Dr. Kovács Barna Szilárd
10 Capillary condensation. Wetting, wetting materials.
Dr. Kovács Barna Szilárd
11 Adsorption phenomenon
Dr. Kovács Barna Szilárd
12 Heat of adsorption, adsorption equations
Dr. Kovács Barna Szilárd
13 Adsorption isotherms (Freundlich, Langmuir, Langmuir-Hückel, BET),
Dr. Kovács Barna Szilárd
14 Adsorption hysteresis
Dr. Kovács Barna Szilárd
15 Electric double-layer, electrokinetic potential
Dr. Kovács Barna Szilárd
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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16 Electrokinetic phenomena
Dr. Kovács Barna Szilárd
17 Properties of dispersed systems: distribution, morfology, degree of dispersity
Dr. Kovács Barna Szilárd
18 Stability of colloidal systems, parameters that affect the stability
Dr. Kovács Barna Szilárd
19 Aerosols, foams
Dr. Kovács Barna Szilárd
20 Emulsions, suspensions
Dr. Kovács Barna Szilárd
21 Reology, properties and methodology.
Dr. Kovács Barna Szilárd
22 Macromolecular colloids
Dr. Kovács Barna Szilárd
23 Properties, examination methods of macromolecular colloids
Dr. Kovács Barna Szilárd
24 Association colloids
Dr. Kovács Barna Szilárd
25 Micelle formation
Dr. Kovács Barna Szilárd
26 Parameters that affect the micelle formation
Dr. Kovács Barna Szilárd
27 Liposomes
Dr. Kovács Barna Szilárd
28 Langmuir Blodget films, LB technique.
Dr. Kovács Barna Szilárd
Practices
Seminars
Exam topics/questions
The colloidal state, classification of colloidal systems
The structure of interfaces, interfacial phenomena. Surface tension.
Gas/liquid interface. Interface of solution, phase boundary, liquide/liquide interfaces
Solid/liquide interface, capillary condensation. Wetting, wetting materials.
Adsorption phenomenon, heat of adsorption, adsorption equations, adsorption isotherms (Freundlich, Langmuir, Langmuir-Hückel,
BET), adsorption hysteresis.
Electric double-layer, electrokinetic potential, electrokinetic phenomena.
Properties of dispersed systems: distribution, morfology, degree of dispersity. Stability of colloidal systems, parameters that affect the
stability
Aerosols, foams, emulsions, suspensions.
Reology, properties and methodology.
Macromolecular colloids, properties, examination methods.
Association colloids, micelle formation, parameters that affect the micelle formation, liposomes, Langmuir Blodget films, LB technique.
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-PC2-T PHYSICAL CHEMISTRY 2
Course director: DR. GÁBOR LENTE, professor
Faculty of Natural Sciences - Department of General and Physical Chemistry [email protected]
4 credit ▪ midsemester grade ▪ Basic module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 0 lectures + 56 practices + 0 seminars = total of 56 hours
Course headcount limitations (min.-max.): – Prerequisites: see your Recommended Curriculum
Topic
Conditions for acceptance of the semester
Mid-term exams
Making up for missed classes
Reading material
- Obligatory literature
- Literature developed by the Department
- Notes
- Recommended literature
Lectures
Practices
Seminars
Exam topics/questions
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-S1E-T ORGANIC CHEMISTRY 1 - THEORY
Course director: DR. TAMÁS KÁLAI, professor
Department of Organic and Pharmacological Chemistry [email protected]
4 credit ▪ semester exam ▪ Basic module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 56 lectures + 0 practices + 0 seminars = total of 56 hours
Course headcount limitations (min.-max.): 2 – 80 Prerequisites: see your Recommended Curriculum
Topic
This subject is a part of chemistry basics. Its aim is to present the nomenclature, structure, physical and chemical properties, synthesis,
reaction mechanisms and application of organic compounds.
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
Students write tests from the subject of the lecture on 3rd, 5th, 7th, 9th and 11th week and at least three of them must be completed better
than 50 %. Those who can not complete these tests can not admit to the exam.
Further criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from failed).
Making up for missed classes
Students have to contact the lecturer of the subject.
Reading material
- Obligatory literature
John McMurry, Eric Simanek: Fundamentals of Organic Chemistry, 6th ed., Thomson Brooks, Belmont, 2007.
- Literature developed by the Department
The slides of the lectures are available on neptune.
- Notes
- Recommended literature
T. W. Graham Solomons: Organic Chemistry, 7th edition, Wiley and Sons, New York, 2000.
William H. Brown: Organic Chemistry, Saunders College Publishing, Fort Worth, 1995.
Lectures
1 The nature of chemical bonds; Hybridization; Polar covalent bonds, electronegativity; Acids and bases: Bronsted-Lowry and
Lewis definition
Dr. Kálai Tamás
2 The nature of chemical bonds; Hybridization; Polar covalent bonds, electronegativity; Acids and bases: Bronsted-Lowry and
Lewis definition
Dr. Kálai Tamás
3 The nature of chemical bonds; Hybridization; Polar covalent bonds, electronegativity; Acids and bases: Bronsted-Lowry and
Lewis definition
Dr. Kálai Tamás
4 Application of theoretical basics in examples
Dr. Kálai Tamás
5 The system of organic compounds, functional groups, reaction mechanisms
Dr. Kálai Tamás
6 The system of organic compounds, functional groups, reaction mechanisms
Dr. Kálai Tamás
7 Spectrometric structure identification of organic compounds
Dr. Kálai Tamás
8 Application of theoretical basics in examples
Dr. Kálai Tamás
9 Isomerism and stereochemistry: constitutional isomerism, conformation, cis-trans isomerism, chirality, optical activity, specific
rotation, enantiomers and diastereomers, relative and absolute configuration
Dr. Kálai Tamás
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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10 Isomerism and stereochemistry: constitutional isomerism, conformation, cis-trans isomerism, chirality, optical activity, specific
rotation, enantiomers and diastereomers, relative and absolute configuration
Dr. Kálai Tamás
11 Isomerism and stereochemistry: constitutional isomerism, conformation, cis-trans isomerism, chirality, optical activity, specific
rotation, enantiomers and diastereomers, relative and absolute configuration
Dr. Kálai Tamás
12 Application of basics of stereochemistry in examples
Dr. Kálai Tamás
13 Alkanes and cycloalkanes; Orbital hybridization and the structure of alkanes; Nomenclature, physical and chemical properties,
conformation
Dr. Kálai Tamás
14 Alkanes and cycloalkanes; Orbital hybridization and the structure of alkanes; Nomenclature, physical and chemical properties,
conformation
Dr. Kálai Tamás
15 Alkanes and cycloalkanes; Orbital hybridization and the structure of alkanes; Nomenclature, physical and chemical properties,
conformation
Dr. Kálai Tamás
16 The mechanism of radical substitution and the stability of radicals
Dr. Kálai Tamás
17 Unsaturated hydrocarbons: sp2 and sp hybridization, nomenclature, physical properties, reactions and synthesis of alkenes and
alkynes
Dr. Kálai Tamás
18 Unsaturated hydrocarbons: sp2 and sp hybridization, nomenclature, physical properties, reactions and synthesis of alkenes and
alkynes
Dr. Kálai Tamás
19 Unsaturated hydrocarbons: sp2 and sp hybridization, nomenclature, physical properties, reactions and synthesis of alkenes and
alkynes
Dr. Kálai Tamás
20 Examples for electrophilic addition reactions of alkenes and alkynes
Dr. Kálai Tamás
21 Importance of unsaturated hydrocarbons in industry and biology: polymerization, isoprene, terpenes, steroids, carotenoids
Dr. Kálai Tamás
22 Importance of unsaturated hydrocarbons in industry and biology: polymerization, isoprene, terpenes, steroids, carotenoids
Dr. Kálai Tamás
23 Importance of unsaturated hydrocarbons in industry and biology: polymerization, isoprene, terpenes, steroids, carotenoids
Dr. Kálai Tamás
24 Biosynthesis of terpenes
Dr. Kálai Tamás
25 Aromatic compounds: the structure of benzene, Hückel’s rule. Electrophilic aromatic substitution reactions. Substituent effects
in electrophilic aromatic substitution. Oxidation and reduction of aromatic compounds; Polycyclic compounds
Dr. Kálai Tamás
26 Aromatic compounds: the structure of benzene, Hückel’s rule. Electrophilic aromatic substitution reactions. Substituent effects
in electrophilic aromatic substitution. Oxidation and reduction of aromatic compounds; Polycyclic compounds
Dr. Kálai Tamás
27 Aromatic compounds: the structure of benzene, Hückel’s rule. Electrophilic aromatic substitution reactions. Substituent effects
in electrophilic aromatic substitution. Oxidation and reduction of aromatic compounds; Polycyclic compounds
Dr. Kálai Tamás
28 Application of directing effect in organic syntheses
Dr. Kálai Tamás
29 Alkyl halides: the character of C-X bonds, synthesis and reactions of alkyl halides; Nucleophilic substitution reactions, SN1,
SN2, eliminations; Organic halides in the environment
Dr. Pápayné Dr. Sár Cecilia
30 Alkyl halides: the character of C-X bonds, synthesis and reactions of alkyl halides; Nucleophilic substitution reactions, SN1,
SN2, eliminations; Organic halides in the environment
Dr. Pápayné Dr. Sár Cecilia
31 Alkyl halides: the character of C-X bonds, synthesis and reactions of alkyl halides; Nucleophilic substitution reactions, SN1,
SN2, eliminations; Organic halides in the environment
Dr. Pápayné Dr. Sár Cecilia
32 Classification of nucleophiles, examples for nucleophilic substitution reactions
Dr. Pápayné Dr. Sár Cecilia
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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33 Organometallic compounds: their importance in organic syntheses (Mg, Na, Li, Zn, Si, Cu, Cd compounds)
Dr. Pápayné Dr. Sár Cecilia
34 Organometallic compounds: their importance in organic syntheses (Mg, Na, Li, Zn, Si, Cu, Cd compounds)
Dr. Pápayné Dr. Sár Cecilia
35 Organometallic compounds: their importance in organic syntheses (Mg, Na, Li, Zn, Si, Cu, Cd compounds)
Dr. Pápayné Dr. Sár Cecilia
36 Examples for the usefulness of organometallic reagents in nucleophilic addition and substitution reactions
Dr. Pápayné Dr. Sár Cecilia
37 Alcohols: Structure, synthesis, physical and chemical properties, reactions; Their biological importance
Dr. Pápayné Dr. Sár Cecilia
38 Alcohols: Structure, synthesis, physical and chemical properties, reactions; Their biological importance
Dr. Pápayné Dr. Sár Cecilia
39 Alcohols: Structure, synthesis, physical and chemical properties, reactions; Their biological importance
Dr. Pápayné Dr. Sár Cecilia
40 Application of alcohols in nucleophilic substitution and elimination reactions
Dr. Pápayné Dr. Sár Cecilia
41 Phenols and ethers: Structure, synthesis, physical and chemical properties, reactions; Their biological importance: polyphenols
Dr. Pápayné Dr. Sár Cecilia
42 Phenols and ethers: Structure, synthesis, physical and chemical properties, reactions; Their biological importance: polyphenols
Dr. Pápayné Dr. Sár Cecilia
43 Phenols and ethers: Structure, synthesis, physical and chemical properties, reactions; Their biological importance: polyphenols
Dr. Pápayné Dr. Sár Cecilia
44 Application of phenols in synthetic organic chemistry
Dr. Pápayné Dr. Sár Cecilia
45 Sulfur containing compounds: Physical, chemical properties and synthesis of thiols and sulfides; Their importance in biological
processes (in amino acids, peptides, methylation in biology, AcCo-A, drugs)
Dr. Pápayné Dr. Sár Cecilia
46 Sulfur containing compounds: Physical, chemical properties and synthesis of thiols and sulfides; Their importance in biological
processes (in amino acids, peptides, methylation in biology, AcCo-A, drugs)
Dr. Pápayné Dr. Sár Cecilia
47 Sulfur containing compounds: Physical, chemical properties and synthesis of thiols and sulfides; Their importance in biological
processes (in amino acids, peptides, methylation in biology, AcCo-A, drugs)
Dr. Pápayné Dr. Sár Cecilia
48 Some practical examples for the reactions of sulfur containing compounds
Dr. Pápayné Dr. Sár Cecilia
49 Overview of reaction mechanisms: radical, electrophilic and nucleophilic substitutions, electrophilic additions, eliminations
Dr. Pápayné Dr. Sár Cecilia
50 Overview of reaction mechanisms: radical, electrophilic and nucleophilic substitutions, electrophilic additions, eliminations
Dr. Pápayné Dr. Sár Cecilia
51 Overview of reaction mechanisms: radical, electrophilic and nucleophilic substitutions, electrophilic additions, eliminations
Dr. Pápayné Dr. Sár Cecilia
52 How to determine the mechanism of a given organic reaction?
Dr. Pápayné Dr. Sár Cecilia
53 Examples for solving exam questions
Dr. Pápayné Dr. Sár Cecilia
54 Examples for solving exam questions
Dr. Pápayné Dr. Sár Cecilia
55 Summary
Dr. Pápayné Dr. Sár Cecilia
56 Summary
Dr. Pápayné Dr. Sár Cecilia
Practices
Seminars
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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Exam topics/questions
1.) Alkanes: Orbital hybridization and the structure of alkanes; Nomenclature, physical and chemical properties, combustion, free radical
chlorination, conformation, cycloalkanes, type of ring strains, demonstrate with examples.
2. Unsaturated hydrocarbons: sp2 and sp hybridization, nomenclature, physical properties, reactions and synthesis of alkenes and alkynes.
Electrophilic addition, Markovnikovs rule, 1,2- and 1,4-addition, conjugated and cumulated dienes.
3. Importance of unsaturated hydrocarbons in industry and biology; polymerization, isoprene, terpenes, steroids, carotenoids, polymers,
rubber
4. Aromatic compounds: the structure of benzene, Hückels rule. Electrophilic aromatic substitution reactions. (Nitation, sulfonation,
bromination, Friedel-Crafts reactions), direction rules, classification of substituents, polyaromatics: examples, their chemical
reactions aromatic electophilic substitution, oxidation.
5. Alkyl halides: the character of C-X bonds, physical properties, reactivity of alkyl halides, synthesis of alkyl and aromatic halides, and
reactions of alkyl halides (substitution, elimination); Organic halides in the environment.
6. Organometallic compounds: their structure, their importance in organic syntheses (Mg, Na, Li, Si, Cu, Cd compounds).
7. Alcohols, phenols, ethers: Structure, physical and chemical properties, reactions; Their biological importance.
8. Stereochemistry: isomerism, absolute and relative configuration, chirality, racemates, diastereomers, polarimetry, resolution.
9. Sulfur containing compounds: Physical, chemical properties, importance in biological processes (in amino acids, peptides, methylation
in biology, AcCo-A, drugs, sulfonamides, penicillin, cefalosporin).
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-V1G-T ORGANIC CHEMISTRY 1 - PRACTICE
Course director: DR. TAMÁS KÁLAI, professor
Department of Organic and Pharmacological Chemistry [email protected]
3 credit ▪ midsemester grade ▪ Basic module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 0 lectures + 42 practices + 0 seminars = total of 42 hours
Course headcount limitations (min.-max.): 2 – 80 Prerequisites: see your Recommended Curriculum
Topic
The aims of this course are to introduce students into several basic laboratory techniques and to demonstrate some characteristic reactions
of organic compounds with various functional groups.
Conditions for acceptance of the semester
During the semester students have to accomplish the preparative works and written tests. They have to document the experiments in their
exercise book.
Mid-term exams
The organic chemistry laboratory course will be graded (1-5), based on the two written tests on 5th and 11th week, first of all. The
evaluation can be modified by grades of semi-micro preparations, success of unknown identification as well as the outlook of the records
of exercise book.
Making up for missed classes
Students have to contact their lab TA within 48 hours of missing lab to make the necessary arrangements.
Reading material
- Obligatory literature
- Literature developed by the Department
Kálai, T., Bognár, B. Organic Chemisry Laboratory Manual, Dept. of Org. and Med. Chem., Medical Faculty, University of Pécs, 2010.
- Notes
- Recommended literature
Charles F. Wilcox, Jr., Mary F. Wilcox: Experimental Organic Chemistry: a Small-scale Approach, 2nd ed., Prentice-Hall, London, 1995.
Dana W. Mayo, Ronald M. Pike, Peter K. Trumper: Microscale Organic Laboratory with Multistep and Multiscale Syntheses, 3rd
ed., Wiley, New York, 1994.
Lectures
Practices
1 General instructions for work in the laboratory, safety precautions. Introduction to use of common laboratory apparatus.
Characteristic reactions of alkanes, alkenes and alkynes.
2 General instructions for work in the laboratory, safety precautions. Introduction to use of common laboratory apparatus.
Characteristic reactions of alkanes, alkenes and alkynes.
3 General instructions for work in the laboratory, safety precautions. Introduction to use of common laboratory apparatus.
Characteristic reactions of alkanes, alkenes and alkynes.
4 Basic laboratory operations I.: Synthesis of acetanilide (heating, cooling, stirring, filtration with vacuum, crystallisation).
5 Basic laboratory operations I.: Synthesis of acetanilide (heating, cooling, stirring, filtration with vacuum, crystallisation).
6 Basic laboratory operations I.: Synthesis of acetanilide (heating, cooling, stirring, filtration with vacuum, crystallisation).
7 Basic laboratory operations II: Determination of the melting point, separation of dies with column chromatography; Characteristic
tube reactions of alkanes, aromatic hydrocarbons and alkenes.
8 Basic laboratory operations II: Determination of the melting point, separation of dies with column chromatography;
Characteristic tube reactions of alkanes, aromatic hydrocarbons and alkenes.
9 Basic laboratory operations II: Determination of the melting point, separation of dies with column chromatography; Characteristic
tube reactions of alkanes, aromatic hydrocarbons and alkenes.
10 Basic laboratory operations III: Synthesis of tert-butyl-chloride (extraction, drying, filtration, distillation, determination of the
boiling point); Identification of 1st unknown compound.
11 Basic laboratory operations III: Synthesis of tert-butyl-chloride (extraction, drying, filtration, distillation, determination of the
boiling point); Identification of 1st unknown compound.
12 Basic laboratory operations III: Synthesis of tert-butyl-chloride (extraction, drying, filtration, distillation, determination of the
boiling point); Identification of 1st unknown compound.
13 Synthesis of p-bromo-acetanilide and p-nitro-acetanilide. Characteristic tube reactions of alkyl halides.
14 Synthesis of p-bromo-acetanilide and p-nitro-acetanilide. Characteristic tube reactions of alkyl halides.
15 Synthesis of p-bromo-acetanilide and p-nitro-acetanilide. Characteristic tube reactions of alkyl halides.
16 1st written test; Characteristic tube reactions of alcohols, phenols and ethers.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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17 1st written test; Characteristic tube reactions of alcohols, phenols and ethers.
18 1st written test; Characteristic tube reactions of alcohols, phenols and ethers.
19 Synthesis of fluorenol with reduction and fluorenone with oxidation; Identification of 2nd unknown compound;
20 Synthesis of fluorenol with reduction and fluorenone with oxidation; Identification of 2nd unknown compound;
21 Synthesis of fluorenol with reduction and fluorenone with oxidation; Identification of 2nd unknown compound;
22 Basic laboratory operations IV: thin layer chromatography, introduction to infrared spectroscopy. Isolation of piperine.
23 Basic laboratory operations IV: thin layer chromatography, introduction to infrared spectroscopy. Isolation of piperine.
24 Basic laboratory operations IV: thin layer chromatography, introduction to infrared spectroscopy. Isolation of piperine.
25 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
26 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
27 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
28 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
29 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
30 Preparation of 4-amino-benzenesulfonamide and nitrobenzene.
31 2nd written test. Characteristic reactions of amines.
32 2nd written test. Characteristic reactions of amines.
33 2nd written test. Characteristic reactions of amines.
34 Preparation of anthranilic acid; Identification of 3rd unknown compound.
35 Preparation of anthranilic acid; Identification of 3rd unknown compound.
36 Preparation of anthranilic acid; Identification of 3rd unknown compound.
37 Preparation of 2-iodobenzoic acid;
38 Preparation of 2-iodobenzoic acid;
39 Preparation of 2-iodobenzoic acid;
40 Evaluation.
41 Evaluation.
42 Evaluation.
Seminars
Exam topics/questions
The written tests will contain the matter of practice.
Participants
Dr. Bognár Balázs (U34DM4), Dr. Kálai Tamás (BDF5M9), Dr. Pápayné Dr. Sár Cecilia (BTYFJX)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-AI2-T HUMAN ANATOMY, HISTOLOGY AND EMBRIOLOGY 2
Course director: DR. GABRIELLA HORVÁTH-OPPER, associate professor
Department of Anatomy [email protected]
2 credit ▪ semester exam ▪ Med.-biol. theoretical module and practical skills module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 14 lectures + 0 practices + 14 seminars = total of 28 hours
Course headcount limitations (min.-max.): 1 – 100 Prerequisites: see your Recommended Curriculum
Topic
The subject describes the macroscopic and microscopic structure of the human body. Students will learn in lectures (1x45 min/week)
and seminars (1x90 min. every even week) how the organs are built up. In the second part of the 2-Semester study macroscopic and
microscopic anatomy of the reproductive system, endocrine organs and the nervous system are represented with the aid of formalin-fixed
cadavers, organ preparations and plastic models. General embryology includes the most important steps of the human development.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Making up for missed classes
The seminars can be made up with the attendance in the seminar of another pharmacy group of the same week (only twice in a semester
possible)
Reading material
- Obligatory literature
http://an-server.pote.hu
- Literature developed by the Department
http://an-server.pote.hu
- Notes
http://an-server.pote.hu
- Recommended literature
http://an-server.pote.hu
Lectures
1 Male genital organs
Dr. Kiss Péter
2 Female genital organs 1. Ovarium, tuba uterina, uterus. The ovulation and the menstruation cyclus.
Dr. Tamás Andrea
3 Female genital organs 2. Pregnancy, placenta. Vagina, external genital organs.
Dr. Tamás Andrea
4 The main parts of the human development. Main steps during the zygote and the embryonic period.
Dr. Kiss Péter
5 Parts of the nervous system. Peripheral nervous system.
Dr. Tóth Pál
6 Macroscopic structure of the central nervous system. (Main parts, ventricles, meninges, blood supply)
Dr. Tóth Pál
7 Nervous tissue
Dr. Tóth Pál
8 Sensory pathways
Dr. Gaszner Balázs
9 Motor pathways
Dr. Gaszner Balázs
10 The endocrine glands
Opper Balázs
11 The autonomic nervous system
Dr. Nagy András Dávid
12 Structure of the visual system
Dr. Horváth-Opper Gabriella
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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13 Structure of the auditory and the vestibular system
Dr. Horváth-Opper Gabriella
14 Fetal period. Signs of the maturity od the newborn baby. Malformations and their causes.
Dr. Farkas Boglárka Anett
Practices
Seminars
1 Anatomy: organs of the lesser pelvis
2 Anatomy: organs of the lesser pelvis
3 Histology: ovary, uterus, vagina, testis, prostate gland
4 Histology: ovary, uterus, vagina, testis, prostate gland
5 Anatomy: spinal cord, meninges, cranial nerves
6 Anatomy: spinal cord, meninges, cranial nerves
7 Anatomy: macroscopic structure of the brain
8 Anatomy: macroscopic structure of the brain
9 Histology: peripheral nerve, spinal cord, cerebellum, neocortex
10 Histology: peripheral nerve, spinal cord, cerebellum, neocortex
11 Histology: pituitary gland, thyroid gland, suprarenal gland
12 Histology: pituitary gland, thyroid gland, suprarenal gland
13 Anatomy: eye, inner and middle ear with models
14 Anatomy: eye, inner and middle ear with models
Exam topics/questions
Written test (A chance) at the beginning of the exam period. B, C and D chances are oral exams.
http://an-server.pote.hu
Participants
Dr. Jüngling Adél (HB0TWF), Dr. Kovács László Ákos (HMPH37), Gaszner Tamás (YX6IQ5)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-G1E-T PHARMACOBOTANY 1 - THEORY
Course director: DR. ÁGNES FARKAS, associate professor
Department of Pharmacognosy [email protected]
1 credit ▪ semester exam ▪ Med.-biol. theoretical module and practical skills module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 14 lectures + 0 practices + 0 seminars = total of 14 hours
Course headcount limitations (min.-max.): 3 – 100 Prerequisites: see your Recommended Curriculum
Topic
Pharmacobotany covers all pharmaceutical aspects of botany, including cytology, histology, morphology and taxonomy of plants. Plant
systematics discusses the geographical origin of plant species, the possibilities of their cultivation and protection. A special emphasis is
laid on chemotaxonomic aspects, since the medicinal effect of a plant is often related to its taxonomic classification and chemical
characteristics. Practical instruction focuses on the knowledge of medicinal plants, including the confident use of plant identification
keys. Based on their knowledge of histology and morphology, students are required to apply proper anatomical terms, and finally identify
plant species (taxa). The thorough knowledge of both general and specific pharmacobotany is a prerequisite of studying pharmacognosy.
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
Students have to pass (min. 60%) two written exams based on lecture materials. The exams will be held on the 7th and 13th week of the
semester.
For each test, maximum two other chances (B and C chance) will be offered for students who do not pass the exam on the first occassion
(A chance).
Making up for missed classes
Lecture materials can be downloaded from the website of the Department of Pharmacognosy (Educational Materials).
Reading material
- Obligatory literature
Á. Farkas: Pharmacobotany 1, University of Pécs, Institute of Pharmacognosy, Pécs, 2010
- Literature developed by the Department
Farkas Á., Papp N., Bencsik T., Horváth Gy.: Digital Herbarium and Drug Atlas, electronic learning material, 2014 TÁMOP-
4.1.2.A/1-11/1-2011-0016
- Notes
- Recommended literature
D.F. Cutler, T. Botha, D.W. Stevenson: Plant Anatomy. An Applied Approach, Wiley-Blackwell, 2008
R.F. Evert, S.E. Eichhorn: Esaus Plant Anatomy: Meristems, Cells and Tissues of the Plant Body: Their Structure, Function and
Development, 3rd edition, Wiley
A. Fahn: Plant Anatomy, 4th edition
Lectures
1 Structure of the plant cell. Plastids and inclusions.
Dr. Farkas Ágnes
2 Structure of the cell wall.
Dr. Farkas Ágnes
3 Plant tissues I. Meristematic tissues.
Dr. Farkas Ágnes
4 Plant tissues II. Epidermal tissue; stomata, trichomes, secondary epidermis.
Dr. Farkas Ágnes
5 Plant tissues III. Vascular tissues; vascular bundle types.
Dr. Farkas Ágnes
6 Plant tissues IV. Ground tissues: parenchyma, collenchyma, sclerenchyma, secretory tissues.
Dr. Farkas Ágnes
7 1st written exam
Dr. Farkas Ágnes
8 Root morphology. Modified roots. Root anatomy
Dr. Filep Rita
9 Shoot morphology and anatomy. Shoot types.
Dr. Farkas Ágnes
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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10 Leaf morphology and anatomy. Leaf arrangement (phyllotaxis). Leaf venation.
Dr. Purger Dragica
11 Flower morphology. Inflorescence types.
Dr. Farkas Ágnes
12 Fertilisation, embryogenesis, ovule and seed. Fruit types.
Dr. Farkas Ágnes
13 2nd written exam
Dr. Farkas Ágnes
14 Taxonomic categories, chemotaxonomic relations, rules of nomenclature.
Dr. Farkas Ágnes
Practices
Seminars
Exam topics/questions
The criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from failed).
The grades of the 2 written lecture tests serve as the basis of the final course grade.
Exam topics:
1. Structure of the plant cell.
2. Plastids and inclusions.
3. Structure of the cell wall.
4. Meristematic tissues.
5. Epidermal tissue; stomata.
6. Trichomes, secondary epidermis.
7. Vascular tissues
8. Vascular bundle types.
9. Ground tissues: parenchyma, collenchyma.
10. Ground tissues: sclerenchyma, secretory tissues.
11. Root morphology and anatomy
12. Modified roots.
13. Shoot morphology and anatomy.
14. Shoot types.
15. Leaf morphology and anatomy.
16. Leaf arrangement (phyllotaxis). Leaf venation.
17. Flower morphology.
18. Inflorescence types.
19. Fertilisation, embryogenesis, ovule and seed.
20. Fruit types: dehiscent fruits.
21. Fruit types: indehiscent fruits.
22. Fruit types: compound and aggregate fruits.
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
16
OPO-G1G-T PHARMACOBOTANY 1 - PRACTICE
Course director: DR. ÁGNES FARKAS, associate professor
Department of Pharmacognosy [email protected]
1 credit ▪ midsemester grade ▪ Med.-biol. theoretical module and practical skills module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 0 lectures + 14 practices + 0 seminars = total of 14 hours
Course headcount limitations (min.-max.): 3 – 100 Prerequisites: see your Recommended Curriculum
Topic
Pharmacobotany covers all pharmaceutical aspects of botany, including cytology, histology, morphology and taxonomy of plants. Plant
systematics discusses the geographical origin of plant species, the possibilities of their cultivation and protection. A special emphasis is
laid on chemotaxonomic aspects, since the medicinal effect of a plant is often related to its taxonomic classification and chemical
characteristics. Practical instruction focuses on the knowledge of medicinal plants, including the confident use of plant identification
keys. Based on their knowledge of histology and morphology students are required to apply proper anatomical terms, and finally identify
plant species (taxa). The thorough knowledge of both general and specific pharmacobotany is a prerequisite of studying pharmacognosy.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Students have to pass (min. 60%) two written exams based on the practice materials. The exams will be held on the 7th and 13th week
of the semester. For each test, maximum two other chances (B and C chance) will be offered for students who do not pass the exam on
the first occassion (A chance).
In the practice, students have to take notes and prepare drawings based on microscopic examinations. Students have to show their lab
notebook to the practice leader, who acknowledges fulfillment of the practice by his/her signature.
The grades of the 2 written practical tests and the lab notebook serve as the basis of the practical grade.
Making up for missed classes
Participation is compulsory in lab practices; up to 2 absences are allowed. Missed practices can be made up either by joining the other
groups or taking extra time at the following lab practice. In all cases, students must make arrangements with their lab instructors in
advance.
Reading material
- Obligatory literature
N. Papp: Pharmacobotany Practices, University of Pécs, Institute of Pharmacognosy, Pécs, 2011
- Literature developed by the Department
Farkas Á., Papp N., Bencsik T., Horváth Gy.: Digital Herbarium and Drug Atlas, electronic learning material, 2014 TÁMOP-
4.1.2.A/1-11/1-2011-0016
- Notes
Á. Farkas: Pharmacobotany 1, University of Pécs, Institute of Pharmacognosy, Pécs, 2010
- Recommended literature
D.F. Cutler, T. Botha, D.W. Stevenson: Plant Anatomy. An Applied Approach, Wiley-Blackwell, 2008
Lectures
Practices
1 Use of the light microscope. Microscopic techniques and preparations (leaf clearing, cross sections, epidermal tissues). Plastids
and inclusions of the plant cell. Microscopic examination of cleared leaves and starch grains.
2 Chemical substances (cellulose, lignin) and thickening types of the cell wall. Investigation of vacuolar content (inulin, alkaloids,
tannins, anthocyanins). Microscopic examination of calcium oxalate and calcium carbonate crystals.
3 The root and shoot tip; meristematic tissues. Microscopic examination of cambium types.
4 Examination of the leaf epidermis and its appendages with light microscope (cross sections, epidermal casts, cleared preparations)
and stereo microscope .
5 Microscopic study of the vascular tissue system and mechanical tissues in stem cross sections.
6 Microscopic examination of ground tissues. Plant secretory systems (schizogenous, lysigenous cavities, laticifers, glandular
trichomes, glandular scales, nectaries). Study of aerenchyma and nutrient storing gorund tissue.
7 Identification of various plant tissues in microscope slides.
8 Morphological analysis of the root and its modifications. Microscopic examination of the tissue structure of true and modified
roots.
9 Shoot system types, shoot modifications. Microscopic examination of the tissue structure of above ground and below ground
shoot types.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
17
10 Leaf types, leaf arrangement, parts of the leaf. Shape, margin and venation of leaves, leaf modifications. Study of leaf traits on
herbarium specimens. Microscopic analysis of leaf cross sections.
11 Morphological analysis of the flower: perianth, androecium, gynoecium. Floral formula, floral diagram. Microscopic study of
flower parts.
12 Morphological investigation of inflorescences. Identification of inflorescence type on herbarium specimens. Microscopic
examination of capitulum.
13 Fruit morphology: Dry dehiscent and indehiscent fruits.
14 Fruit morphology: Fleshy fruits, compound fruits and false fruits.
Seminars
Exam topics/questions
1. Structure of the plant cell.
2. Plastids and inclusions.
3. Structure of the cell wall.
4. Meristematic tissues.
5. Epidermal tissue; stomata.
6. Trichomes, secondary epidermis.
7. Vascular tissues
8. Vascular bundle types.
9. Ground tissues: parenchyma, collenchyma.
10. Ground tissues: sclerenchyma, secretory tissues.
11. Root morphology and anatomy
12. Modified roots.
13. Shoot morphology and anatomy.
14. Shoot types.
15. Leaf morphology and anatomy.
16. Leaf arrangement (phyllotaxis). Leaf venation.
17. Flower morphology.
18. Inflorescence types.
19. Fertilisation, embryogenesis, ovule and seed.
20. Fruit types: dehiscent fruits.
21. Fruit types: indehiscent fruits.
22. Fruit types: compound and aggregate fruits.
Participants
Dr. Farkas Ágnes (DKQUBQ), Dr. Papp Nóra (S3PA4G), Dr. Purger Dragica (FCCWBF)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-H1E-T HUMAN PHYSIOLOGY 1 - THEORY
Course director: DR. ISTVÁN MIKLÓS ÁBRAHÁM, professor
Institute of Physiology [email protected]
3 credit ▪ semester exam ▪ Med.-biol. theoretical module and practical skills module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 42 lectures + 0 practices + 0 seminars = total of 42 hours
Course headcount limitations (min.-max.): 5 – 999 Prerequisites: see your Recommended Curriculum
Topic
The most important mission of the Physiology Course in medical education is to familiarize students with the attributes of healthy
functions of the living organism.
While acquiring knowledge about the most important functional characteristics of the human body the students can rely on their prior
studies in biology, biophysics, chemistry-biochemistry and anatomy.
During the semester we introduce the most important elements of functioning of the organs and organ systems, as well as their cooperation
also required to adapting to the environment, and the factors affecting these processes.
Special emphasis is placed on the neural and humoral regulatory processes of these life-functions, which are vital to maintain and preserve
the homeostasis of the organism.
With the transfer of all this knowledge we would like to mould a holistic attitude and thinking of students, which will enable them to
better understand the functions of the now healthy, however, later dysfunctional human organism.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Written test on the 11th week Friday at 16:00.
Making up for missed classes
The missed lab practice is advised to be covered by joining another group while the same topic is on schedule.
Reading material
- Obligatory literature
J.E. Hall: Guyton and Hall Textbook of Medical Physiology, 12th edition, 2013
- Literature developed by the Department
Figures of the lectures given are available on the homepage of Institute of Physiology and on the Neptun Meet Street.
Important messages on new information will be announced at the lectures and will be sent to you by course mails.
Please always find the current updated information and study materials on the homepage of the Institute of Physiology
(physiology.aok.pte.hu).
- Notes
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practices 1, internet study material, printable notebook, 2014
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practice Worksheets 1, internet study material, printable notebook, 2014
- Recommended literature
L.S. Costanzo: Physiology, 5th edition, 2014
W.F. Ganong: Review of Medical Physiology, 2012, Appleton and Lange, Lange Medical Publications
Fonyó: Principles of Medical Physiology, Medicina Publishing, 2002
J.B. West (ed.): Best and Taylor’s Physiological Basis of Medical Practice, Williams and Wilkins, 1998
Lectures
1 Introduction. Principles of the homeostatic regulations.
Dr. László Kristóf
2 Cellular transport processes. Humoral control mechanisms.
Dr. Környei József László
3 Basics of electrophysiology. Equilibrium potential, electrotonic potentials and action potential.
Dr. Buzás Péter
4 Basics of autonomic nervous system and muscle functions.
Dr. Buzás Péter
5 Fluid distribution in the body. The blood.
Dr. Zelena Dóra
6 Anorganic and organic blood constituents. The physiological role of leukocytes.
Kertes Erika
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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7 Structure and metabolism of hemoglobin.
Metabolism of iron.
Dr. Szabó István
8 Mechanism of blood coagulation.
Dr. Szabó István
9 Blood group systems.
Dr. Szabó István
10 The cardiac cycle.
Generators and conductors of impulses in the heart.
Dr. Környei József László
11 Electrocardiogram.
Dr. Gálosi Rita
12 Distribution of blood volume, pressure flow and resistance in the heart. Heart sounds.
Dr. Környei József László
13 Cardiac output and cardiac work.
Dr. Környei József László
14 Distribution of blood volume, pressure flow and resistance. Blood pressure. Arterial pulse
Dr. Ábrahám István Miklós
15 Circulation through the capillaries. Circulation in the veins. The formation, pressure and flow of lymph.
Dr. Kóbor Péter
16 Pulmonary circulation, cerebral circulation. Circulation of the skin and skeletal muscle. Splanchnic circulation. Coronary
circulation.
Dr. Kóbor Péter
17 Neural and humoral regulatory mechanisms of the cardiovascular system.
Homeostatic regulation of the cardiovascular system.
Dr. László Kristóf
18 Mechanics of respiration Intrathoracic pressure. Compliance. Respiratory volumes. Dead spaces.
Dr. Környei József László
19 Gaseous exchange in the lungs and tissues. Chemical control of respiration. O2 and CO2 transport mechanism and pH regulation.
Dr. Környei József László
20 Neural regulatory mechanisms of respiration. Mechanisms of acclimatization.
Petykó Zoltán
21 The gastrointestinal tract. Function and control of salivary secretion. The stomach. Gastric secretion.
Dr. Buzásné Dr. Telkes Ildikó
22 Duodenal processes. Biliary secretion. Secretion and absorption in the small intestine.
Dr. Buzásné Dr. Telkes Ildikó
23 Liver functions.
Péczely László Zoltán
24 Secretion and absorption in the large intestine. Formation of the feces. Digestion and absorption of different nutrients. Vitamins.
Dr. Ollmann Tamás
25 Humoral and neural control of the gastrointestinal system.
Dr. Buzásné Dr. Telkes Ildikó
26 Dynamics of glomerular filtration. Plasma clearance. Renal blood flow. Extraction ratio. Filtration fraction.
Dr. László Kristóf
27 Renal circulation. The renin-angiotensin system.
Dr. László Kristóf
28 Tubular processes.
Dr. László Kristóf
29 Concentrating and diluting mechanisms. Osmoregulation.
Dr. László Kristóf
30 Fluid volume regulation of the body. The mechanisms of urination.
Dr. László Kristóf
31 Acid-base regulation.
Dr. Jandó Gábor
32 Energy balance. Metabolism. Nutrition. Body mass regulation.
Dr. Környei József László
33 Body temperature of man. Hyperthermia, fever.
Kertes Erika
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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34 Peripheral control of body temperature. Central control mechanisms of body temperature.
Kertes Erika
35 The hypothalamo-hypophyseal system. Anterior pituitary hormones.
Dr. Ábrahám István Miklós
36 Cellular mechanisms of hormone action.
Dr. Ábrahám István Miklós
37 Hormonal regulation of female sexual functions.
Dr. Lengyel Ferenc
38 Pregnancy. Parturition and lactation.
Dr. Ráczné Dr. Mikó-Baráth Eszter
39 Hormonal regulation of male sexual function.
Erection, ejaculation, coitus. Humoral and central neural control of sexual behavior.
Dr. Kóbor Péter
40 Puberty. Climacteric.
Dr. Kóbor Péter
41 Functions of posterior lobe of pituitary gland.
Péczely László Zoltán
42 Thyroid physiology.
Kovács Anita
Practices
Seminars
Exam topics/questions
The criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from “failed”).
Topics of questions for the theoretical examination
1. Describe the body fluid compartments and explain the methods used for measurement of body fluid volumes
2. Describe the major plasma proteins and the other non-electrolytic constituents of blood and explain their function in the body
3. Describe the intra- and extracellular ionic components and explain their physiological functions
4. The structure, function and origin of erythrocytes
5. Characterize the various leukocytes indicating their origins and functions
6. Origin and function of blood platelets
7. The basic structure and metabolism of haemoglobin and the metabolism of iron
8. Describe the two pathways involved in the initiation of blood coagulation
9. Specific mechanism of clot formation
10. Describe the mechanism of fibrinolysis. Explain the significance of anticlotting mechanism
11. Regulation of H+ ion concentration in the blood
12. A-B-0 blood groups. The Rh blood types
13. The role of leukocytes in the defence mechanism
14. Mechanical activity of the heart and the three-component model of heart muscle. Calcium ion movements within the cardiac muscle
cell
15. Generators and conductors of impulses in the heart. Refractory periods
16. The sequence of events in the cardiac cycle
17. The human electrocardiogram (ECG). Electrocardiography: bipolar and unipolar leads
18. The heart sounds. Phonocardiography (PCG)
19. Cardiac output: measurement, normal standards and physiological variations
20. Metabolism and energetics of cardiac muscle
21. Ventricular wall tension and the Laplace relationship
22. The heart-lung preparation (Starling`s laws)
23. Arterial blood pressure: determinants of normal arterial blood pressure
24. The arterial and the venous pulse. Basic principles of hemodynamics.
25. Circulation through the capillaries
26. The properties, production and the movement of lymph
27. Circulation in the vein. Effect of gravity on circulation
28. The pulmonary circulation. Control of lung vessels
29. The coronary circulation
30. Cerebral circulation. The concept of blood-brain barrier.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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31. Splanchnic circulation
32. Skeletal muscle circulation. Cutaneous circulation
33. Nervous control of the heart
34. Control mechanisms of the circulatory system: general considerations
35. Local control of the vascular smooth muscle
36. Autoregulation of blood flow in tissues and organs
37. The function and importance of baroreceptors in the regulation of circulation
38. Reflex control mechanisms of circulation
39. Mechanisms of vasoconstriction and vasodilatation
40. Mechanics of respiration (functions of respiratory muscles, compliance, intrathoracic pressures, respiratory volumes)
41. Alveolar air, alveolar ventilation, dead spaces. Function of the respiratory passageways
42. Gaseous exchange in the lungs and tissues
43. O2 and CO2 transport in the body
44. Peripheral and central regulatory mechanisms of respiration. Respiratory reflexes
45. Chemical control of respiration. Acidosis, alkalosis
46. Different types of hypoxia. Oxygen treatment. Mechanisms of acclimatisation. Nitrogen narcosis. Decompression sickness
47. Describe the origin, composition, function and control of salivary secretion
48. Describe the origin, nature and function of gastric secretion indicating the mechanisms of regulation
49. Mechanism and regulation of gastrointestinal movements
50. Identify the pancreatic secretions, their components, their action and the substrates on which they act. Control mechanism of
pancreatic secretion
51. Describe the basic ingredients and functions of the bile indicating the origin and fate of the components and the factors controlling
bile secretions and gall bladder functions
52. Identify the components and functions of the intestinal system
53. Describe how carbohydrate is digested and absorbed indicating the enzymes involved
54. Describe how fat is digested and absorbed indicating the enzymes and secretions involved
55. Describe how protein is digested and absorbed indicating the enzymes and secretions involved
56. Dynamics of glomerular filtration. Glomerular filtration rate. Plasma clearance
57. Renal blood flow. Clearance of PAH. Extraction ratio. Filtration fraction
58. Regulation of renal blood flow and pressure. Renin-angiotensin system
59. Reabsorption and secretion of different substances in the renal tubule. Methods for their investigation
60. Concentrating and diluting mechanisms of the kidney
61. Fluid volume regulation of the body
62. Regulation of concentrations of ions in the extracellular fluid. Regulation of osmolality of body fluids
63. Basal metabolic rate. Describe factors influencing the basal metabolism
64. Define metabolic rate explaining those factors influencing the total expenditure of energy by the body
65. Describe the necessary elements of normal diet
66. The normal body temperature and its physiological variations. Hyperthermia, fever, hypothermia
67. Chemical regulation of body temperature, changes of regulation at low and high environmental temperature
68. Physical regulation of body temperature, changes of regulation at low and high environmental temperature
69. Central regulatory mechanisms of heat production and heat loss
70. Mechanisms of hormone action (receptors, intracellular mediators, cAMP, Ca2+ and diacylglycerol, protein kinases)
71. Mechanism of hormonal regulation. Negative and positive feedback controls in the endocrine system
72. The anterior pituitary hormones. Regulation of pituitary hormone secretions. Pituitary dysfunction
73. Function of growth hormone during development and after adolescence
74. Abnormalities of thyroid secretion. Goitrogens
75. Function of the thyroid gland. Iodine metabolism in the body
76. Hormonal changes during menstrual cycle
77. Hormonal changes during pregnancy. Role of placenta in pregnancy. Foeto-placental unit
78. Hormones of lactation
79. Mechanism of erection and ejaculation. The sexual act (coitus)
80. The function of testis, epididymis, seminal vesicle and prostate
81. Regulation of the sexual behaviour. Maternal behaviour
82. Physiological changes at puberty and climacteric
83. Vasopressin and oxytocin. Function of ANH (atrionatriuretic hormone)
84. The effects of prostaglandins
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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Questions for the student lab report:
1. Hematocrit
2. Red blood cell counting
3. White blood cell counting
4. Differential leukocyte count
5. Determination of osmotic resistance.
6. Determination of hemoglobin concentration
7. MCV, MCH, MCHC values
8. Prothrombin time
9. Blood group determination (AB0 and Rh typing)
10. Examination of hemoglobin spectra
11. How to use work stations for electrophysiological registrations
12. Recording of heart beats of the frog „in situ”
13. Electric stimulation of heart (demonstr. of extrasystole)
14. Effect of thermal stimulations of frog”s heart.
15. Ligatures of Stannius
16. Investigation of Bowditch’s „All or nothing” law
17. Investigation of summation
18. Electrocardiography (ECG)
19. Examination of the arterial pulse
20. Measurement of blood pressure in human
21. Isolated frog’s heart preparing by Straub cannulla
22. Effect of acethylcholin on isolated frog’s heart
23. Effect of adrenalin on isolated frog’s heart
24. Effect of ions on the isolated heart
25. Direct measurement of blood pressure in cat
26. The circulation through capillaries of frog”s tongue.
27. Pulse wave registration.
28. Spirometry, dynamic parameters of respiration
29. Volumes and capacities of the lungs.
30. Measurement of maximal respiratory pressures (The experiments of Müller and Valsalva)
31. Demonstration of basic respiratory movements and pressure/volume changes (Donders model)
32. Gastric juice: Determination of BAO, MAO, PAO
33. Bile: detection of bile pigments
34. Feces: Detection of blood (Guajac-, benzidin-, Hematest)
35. Measurement of the actual metabolic rate in human
36. Measurement of the oxigen consumption in rat.
37. Specific gravity of urine.
38. Examination of the urine sediment
39. Urine examination with reagent strip methodology
40. Examination of pathological urine components with tests in tubes: protein, glucose, keton bodies, blood, ubg, bilirubin, pus detections
Study material for the semester exam is the sum total of information covered in the obligatory textbook, on the homepage of the Institute,
as well as knowledge given at the lectures and lab practices.
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
23
OPO-H1G-T HUMAN PHYSIOLOGY 1 - PRACTICE
Course director: DR. ISTVÁN MIKLÓS ÁBRAHÁM, professor
Institute of Physiology [email protected]
2 credit ▪ midsemester grade ▪ Med.-biol. theoretical module and practical skills module ▪ autumn semester ▪ recommended semester: 3
Number of hours/semester: 0 lectures + 28 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 5 – 999 Prerequisites: see your Recommended Curriculum
Topic
The most important mission of the Physiology Course in medical education is to familiarize students with the attributes of healthy
functions of the living organism.
While acquiring knowledge about the most important functional characteristics of the human body the students can rely on their prior
studies in biology, biophysics, chemistry-biochemistry and anatomy.
During the semester we introduce the most important elements of functioning of the organs and organ systems, as well as their cooperation
also required to adapting to the environment, and the factors affecting these processes.
Special emphasis is placed on the neural and humoral regulatory processes of these life-functions, which are vital to maintain and preserve
the homeostasis of the organism.
With the transfer of all this knowledge we would like to mould a holistic attitude and thinking of students, which will enable them to
better understand the functions of the now healthy, however, later dysfunctional human organism.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Written test on the 11th week Friday at 16:00.
Making up for missed classes
The missed lab practice is advised to be covered by joining another group while the same topic is on schedule.
Reading material
- Obligatory literature
J.E. Hall: Guyton and Hall Textbook of Medical Physiology, 12th edition, 2013
- Literature developed by the Department
Figures of the lectures given are available on the homepage of Institute of Physiology and on the Neptun Meet Street.
Important messages on new information will be announced at the lectures and will be sent to you by course mails.
Please always find the current updated information and study materials on the homepage of the Institute of Physiology
(physiology.aok.pte.hu).
- Notes
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practices 1, internet study material, printable notebook, 2014
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practice Worksheets 1, internet study material, printable notebook, 2014
- Recommended literature
L.S. Costanzo: Physiology, 5th edition, 2014
W.F. Ganong: Review of Medical Physiology, 2012, Appleton and Lange, Lange Medical Publications
Fonyó: Principles of Medical Physiology, Medicina Publishing, 2002
J.B. West (ed.): Best and Taylor’s Physiological Basis of Medical Practice, Williams and Wilkins, 1998
Lectures
Practices
1 Getting acquainted with the laboratory. General information, schedules. Personal- and equipment safety rules. Animal care
regulations.
2 Getting acquainted with the laboratory. General information, schedules. Personal- and equipment safety rules. Animal care
regulations.
3 Blood I.
4 Blood I.
5 Blood II.
6 Blood II.
7 Blood III.
8 Blood III.
9 Seminar: Blood (Discussion of the topics covered by the lectures and student labs)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
24
10 Test on the chapter
11 The heart and circulation I.
12 The heart and circulation I.
13 The heart and circulation II.
14 The heart and circulation II.
15 The heart and circulation III.
16 The heart and circulation III.
17 The heart and circulation IV.
18 The heart and circulation IV.
19 Seminar: The heart and circulation
20 Test on the chapter
21 Respiration
22 Respiration
23 Gastrointestinal tract
24 Gastrointestinal tract
25 Examination of the urine
26 Examination of the urine
27 Measurement of the actual metabolic rate in human
28 Measurement of the actual metabolic rate in human
Seminars
Exam topics/questions
Topics of questions for the theoretical examination
1. Describe the body fluid compartments and explain the methods used for measurement of body fluid volumes
2. Describe the major plasma proteins and the other non-electrolytic constituents of blood and explain their function in the body
3. Describe the intra- and extracellular ionic components and explain their physiological functions
4. The structure, function and origin of erythrocytes
5. Characterize the various leukocytes indicating their origins and functions
6. Origin and function of blood platelets
7. The basic structure and metabolism of haemoglobin and the metabolism of iron
8. Describe the two pathways involved in the initiation of blood coagulation
9. Specific mechanism of clot formation
10. Describe the mechanism of fibrinolysis. Explain the significance of anticlotting mechanism
11. Regulation of H+ ion concentration in the blood
12. A-B-0 blood groups. The Rh blood types
13. The role of leukocytes in the defence mechanism
14. Mechanical activity of the heart and the three-component model of heart muscle. Calcium ion movements within the cardiac muscle
cell
15. Generators and conductors of impulses in the heart. Refractory periods
16. The sequence of events in the cardiac cycle
17. The human electrocardiogram (ECG). Electrocardiography: bipolar and unipolar leads
18. The heart sounds. Phonocardiography (PCG)
19. Cardiac output: measurement, normal standards and physiological variations
20. Metabolism and energetics of cardiac muscle
21. Ventricular wall tension and the Laplace relationship
22. The heart-lung preparation (Starling`s laws)
23. Arterial blood pressure: determinants of normal arterial blood pressure
24. The arterial and the venous pulse. Basic principles of hemodynamics.
25. Circulation through the capillaries
26. The properties, production and the movement of lymph
27. Circulation in the vein. Effect of gravity on circulation
28. The pulmonary circulation. Control of lung vessels
29. The coronary circulation
30. Cerebral circulation. The concept of blood-brain barrier.
31. Splanchnic circulation
32. Skeletal muscle circulation. Cutaneous circulation
33. Nervous control of the heart
34. Control mechanisms of the circulatory system: general considerations
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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35. Local control of the vascular smooth muscle
36. Autoregulation of blood flow in tissues and organs
37. The function and importance of baroreceptors in the regulation of circulation
38. Reflex control mechanisms of circulation
39. Mechanisms of vasoconstriction and vasodilatation
40. Mechanics of respiration (functions of respiratory muscles, compliance, intrathoracic pressures, respiratory volumes)
41. Alveolar air, alveolar ventilation, dead spaces. Function of the respiratory passageways
42. Gaseous exchange in the lungs and tissues
43. O2 and CO2 transport in the body
44. Peripheral and central regulatory mechanisms of respiration. Respiratory reflexes
45. Chemical control of respiration. Acidosis, alkalosis
46. Different types of hypoxia. Oxygen treatment. Mechanisms of acclimatisation. Nitrogen narcosis. Decompression sickness
47. Describe the origin, composition, function and control of salivary secretion
48. Describe the origin, nature and function of gastric secretion indicating the mechanisms of regulation
49. Mechanism and regulation of gastrointestinal movements
50. Identify the pancreatic secretions, their components, their action and the substrates on which they act. Control mechanism of
pancreatic secretion
51. Describe the basic ingredients and functions of the bile indicating the origin and fate of the components and the factors controlling
bile secretions and gall bladder functions
52. Identify the components and functions of the intestinal system
53. Describe how carbohydrate is digested and absorbed indicating the enzymes involved
54. Describe how fat is digested and absorbed indicating the enzymes and secretions involved
55. Describe how protein is digested and absorbed indicating the enzymes and secretions involved
56. Dynamics of glomerular filtration. Glomerular filtration rate. Plasma clearance
57. Renal blood flow. Clearance of PAH. Extraction ratio. Filtration fraction
58. Regulation of renal blood flow and pressure. Renin-angiotensin system
59. Reabsorption and secretion of different substances in the renal tubule. Methods for their investigation
60. Concentrating and diluting mechanisms of the kidney
61. Fluid volume regulation of the body
62. Regulation of concentrations of ions in the extracellular fluid. Regulation of osmolality of body fluids
63. Basal metabolic rate. Describe factors influencing the basal metabolism
64. Define metabolic rate explaining those factors influencing the total expenditure of energy by the body
65. Describe the necessary elements of normal diet
66. The normal body temperature and its physiological variations. Hyperthermia, fever, hypothermia
67. Chemical regulation of body temperature, changes of regulation at low and high environmental temperature
68. Physical regulation of body temperature, changes of regulation at low and high environmental temperature
69. Central regulatory mechanisms of heat production and heat loss
70. Mechanisms of hormone action (receptors, intracellular mediators, cAMP, Ca2+ and diacylglycerol, protein kinases)
71. Mechanism of hormonal regulation. Negative and positive feedback controls in the endocrine system
72. The anterior pituitary hormones. Regulation of pituitary hormone secretions. Pituitary dysfunction
73. Function of growth hormone during development and after adolescence
74. Abnormalities of thyroid secretion. Goitrogens
75. Function of the thyroid gland. Iodine metabolism in the body
76. Hormonal changes during menstrual cycle
77. Hormonal changes during pregnancy. Role of placenta in pregnancy. Foeto-placental unit
78. Hormones of lactation
79. Mechanism of erection and ejaculation. The sexual act (coitus)
80. The function of testis, epididymis, seminal vesicle and prostate
81. Regulation of the sexual behaviour. Maternal behaviour
82. Physiological changes at puberty and climacteric
83. Vasopressin and oxytocin. Function of ANH (atrionatriuretic hormone)
84. The effects of prostaglandins
Questions for the student lab report:
1. Hematocrit
2. Red blood cell counting
3. White blood cell counting
4. Differential leukocyte count
5. Determination of osmotic resistance.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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6. Determination of hemoglobin concentration
7. MCV, MCH, MCHC values
8. Prothrombin time
9. Blood group determination (AB0 and Rh typing)
10. Examination of hemoglobin spectra
11. How to use work stations for electrophysiological registrations
12. Recording of heart beats of the frog „in situ”
13. Electric stimulation of heart (demonstr. of extrasystole)
14. Effect of thermal stimulations of frog”s heart.
15. Ligatures of Stannius
16. Investigation of Bowditch’s „All or nothing” law
17. Investigation of summation
18. Electrocardiography (ECG)
19. Examination of the arterial pulse
20. Measurement of blood pressure in human
21. Isolated frog’s heart preparing by Straub cannulla
22. Effect of acethylcholin on isolated frog’s heart
23. Effect of adrenalin on isolated frog’s heart
24. Effect of ions on the isolated heart
25. Direct measurement of blood pressure in cat
26. The circulation through capillaries of frog”s tongue.
27. Pulse wave registration.
28. Spirometry, dynamic parameters of respiration
29. Volumes and capacities of the lungs.
30. Measurement of maximal respiratory pressures (The experiments of Müller and Valsalva)
31. Demonstration of basic respiratory movements and pressure/volume changes (Donders model)
32. Gastric juice: Determination of BAO, MAO, PAO
33. Bile: detection of bile pigments
34. Feces: Detection of blood (Guajac-, benzidin-, Hematest)
35. Measurement of the actual metabolic rate in human
36. Measurement of the oxigen consumption in rat.
37. Specific gravity of urine.
38. Examination of the urine sediment
39. Urine examination with reagent strip methodology
40. Examination of pathological urine components with tests in tubes: protein, glucose, keton bodies, blood, ubg, bilirubin, pus detections
Study material for the semester exam is the sum total of information covered in the obligatory textbook, on the homepage of the Institute,
as well as knowledge given at the lectures and lab practices.
Participants
Kovács Anita (ML3CO0), Tóth Attila (NIPDHB)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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ATT3-T PHYSICAL EDUCATION 3
Course director: ISTVÁN KARSAI, senior lecturer
UP MS Sports Facilities [email protected]
0 credit ▪ signature ▪ Criterion requirement module ▪ both semesters ▪ recommended semester: 3
Number of hours/semester: 0 lectures + 28 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 2 – 50 Prerequisites: see your Recommended Curriculum
The subject can only be registered in case of a PASSED and valid health aptitude test!
Topic
This subject provides theoretical and practical information for the students to maintain and improve their physical condition and helps to
deepen the knowledge in the field of healthy lifestyle.
Theoretical and practical knowledge during different types of exercises e.g. how to improve endurance, muscle force, motor skills and
how to prevent the body from injuries.
Conditions for acceptance of the semester
Active participation at least 20 practical lessons provided by the Institute of Human Movement Sciences or regular participation of the
trainings of the Medikus Sport Club or PEAC.
Mid-term exams
Making up for missed classes
We provide opportunities to attend extra lessons in the first week of the exam period in that case the requirements are not fulfilled till the
end of the teaching weeks with agreement of the PE Teacher.
Reading material
- Obligatory literature
- Literature developed by the Department
Not available.
- Notes
- Recommended literature
Lectures
Practices
1-28 For the list of actual courses please turn to the end of this document
Seminars
Exam topics/questions
Participants
Farkas György (CL1MIY), Lipcsik Zoltán (EGE1AE), Németh Attila Miklós (EXB7TD), Téczely Tamás (P0OP8M)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-M1E-T INSTRUMENTAL ANALYSIS - THEORY
Course director: DR. FERENC KILÁR, professor
Institute of Bioanalysis [email protected]
2 credit ▪ semester exam ▪ Basic module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 28 lectures + 0 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 1 – 999 Prerequisites: see your Recommended Curriculum
Topic
The theory of instrumental analysis. Basic and modern instrumental techniques for pharmaceutical analysis.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Two written tests (7th and 13th weeks) during the semester. No opportunity for retake of the written tests.
Making up for missed classes
No opportunity for retake of the lectures.
Reading material
- Obligatory literature
- Literature developed by the Department
Material can be downloaded from the website of the Institute of Bioanalysis under the
Educational materials link: http://aok.pte.hu/en/egyseg/oktatas/160 (the username and password
are provided in the lectures).
- Notes
- Recommended literature
D.A. Skoog, F.J. Holler, S.R. Crouch: Principles of Instrumental Analysis, 6th edition, Thomson, 2007
D.G. Watson: Pharmaceutical Analysis, Elsevier
Lectures
1 Basis of creating instrumental signals
Dr. Kilár Ferenc
2 Errors in instrumental analysis, signal collection
Dr. Kilár Ferenc
3 Basic chemometry
Dr. Kilár Ferenc
4 Electroanalysis (potentiometry, conductometry, voltammetry)
Dr. Kilár Ferenc
5 Spectrophotometry
Dr. Kilár Ferenc
6 Spectrophotometry
Dr. Kilár Ferenc
7 Infrared spectroscopy, fluorescence spectroscopy
Dr. Kilár Ferenc
8 Infrared spectroscopy, fluorescence spectroscopy
Dr. Kilár Ferenc
9 Liquid chromatography, HPLC
Dr. Felinger Attila
10 Liquid chromatography, HPLC
Dr. Felinger Attila
11 Gas-chromatography
Dr. Bufa Anita
12 Gas-chromatography
Dr. Poór Viktória
13 Electrokinetic methods, electrophoresis
Dr. Kilár Ferenc
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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14 Electrokinetic methods, electrophoresis
Fenyvesiné Dr. Páger Csilla
15 Atomic absorption spectrometry
Dr. Kilár Ferenc
16 Atomic absorption spectrometry
Fenyvesiné Dr. Páger Csilla
17 Nuclear magnetic resonance spectrometry
Dr. Berente Zoltán
18 Nuclear magnetic resonance spectrometry
Dr. Kilár Ferenc
19 Electron paramagnetic resonance spectrometry
Dr. Kilár Ferenc
20 Electron paramagnetic resonance spectrometry
Dr. Dergez Tímea
21 Mass spectrometry
Dr. Kilár Ferenc
22 Mass spectrometry
Dr. Kilár Ferenc
23 Analytical ultracentrifugation
Dr. Kilár Ferenc
24 Analytical ultracentrifugation
Dr. Kilár Ferenc
25 Mössbauer spectroscopy
Dr. Kilár Ferenc
26 ORD, CD, polarimetry
Dr. Kilár Ferenc
27 Thermal analysis
Dr. Kilár Ferenc
28 Thermal analysis
Dr. Kilár Ferenc
Practices
Seminars
Exam topics/questions
Exam topics can be found in the website of the Institute of Bioanalysis under the
Education link: http://aok.pte.hu/en/egyseg/oktatas/160
Examcourse cannot be taken if the practice has not been accepted with „satisfactory” grade. The criterion of admission to the exam is
the successful completion of the practice carried out in paralell (midsemester grade with the result different from ‘failed’).
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-MAG-T INSTRUMENTAL ANALYSIS - PRACTICE
Course director: DR. FERENC KILÁR, professor
Institute of Bioanalysis [email protected]
4 credit ▪ midsemester grade ▪ Basic module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 56 practices + 0 seminars = total of 56 hours
Course headcount limitations (min.-max.): 1 – 999 Prerequisites: see your Recommended Curriculum
Topic
Instrumental analysis practices, which are coupled to the theory of instrumental analysis.
Collection and evaluation of data, and preparation of report using several, major instrumental analytical techniques.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Each practice is preceded with a short written test, and the students should prepare a report of the measurements and the evaluation. A
final grade will be given for the practices, if 75 % of the practices are completed successfully (minimum „satisfactory” grade).
Making up for missed classes
Maximum two absences are allowed, and one absence can be retaken in selected practices.
Reading material
- Obligatory literature
- Literature developed by the Department
Material can be downloaded from the website of the Institute of Bioanalysis under the
Educational materials link: http://aok.pte.hu/en/egyseg/oktatas/160 (the username and password are provided in the lectures).
- Notes
Instrumental Analysis. Laboratory Practice. DOI: 10.15170/TTK.2014.00001 (dowloadable using the DOI number).
- Recommended literature
D.A. Skoog, F.J. Holler, S.R. Crouch: Principles of Instrumental Analysis, 6th edition, Thomson, 2007
D.G. Watson: Pharmaceutical Analysis, Elsevier
Lectures
Practices
1 Introduction to the laboratory practices.
2 Introduction to the laboratory practices.
3 Introduction to the laboratory practices.
4 Introduction to the laboratory practices.
5 Potentiometry
6 Potentiometry
7 Potentiometry
8 Potentiometry
9 Conductometry
10 Conductometry
11 Conductometry
12 Conductometry
13 Spectrophotometry
14 Spectrophotometry
15 Spectrophotometry
16 Spectrophotometry
17 Atomic absorption spectrometry
18 Atomic absorption spectrometry
19 Atomic absorption spectrometry
20 Atomic absorption spectrometry
21 Gas-chromatography
22 Gas-chromatography
23 Gas-chromatography
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24 Gas-chromatography
25 HPLC
26 HPLC
27 HPLC
28 HPLC
29 Capillary electrophoresis
30 Capillary electrophoresis
31 Capillary electrophoresis
32 Capillary electrophoresis
33 Infrared spectrometry
34 Infrared spectrometry
35 Infrared spectrometry
36 Infrared spectrometry
37 NMR
38 NMR
39 NMR
40 NMR
41 Mass spectrometry
42 Mass spectrometry
43 Mass spectrometry
44 Mass spectrometry
45 Mass spectrometry
46 Mass spectrometry
47 Mass spectrometry
48 Mass spectrometry
49 Coupled separation techniques
50 Coupled separation techniques
51 Coupled separation techniques
52 Coupled separation techniques
53 Retake of missing practices
54 Retake of missing practices
55 Retake of missing practices
56 Retake of missing practices
Seminars
Exam topics/questions
Exam topics can be downloaded from the website of the Institute of Bioanalysis under the
Education link: http://aok.pte.hu/en/egyseg/oktatas/160
Participants
Dr. Bufa Anita (OJC1T8), Dr. Dergez Tímea (HPZ74N), Dr. Dörnyei Ágnes (A912T7), Dr. Felinger Attila (WKW3K8), Dr. Kilár Ferenc
(XOTCK1), Dr. Makszin Lilla (GWR9T4), Dr. Poór Viktória (MJELTX), Fenyvesiné Dr. Páger Csilla (L000VQ), Sándor Viktor
(EISV2E)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-S2E-T ORGANIC CHEMISTRY 2 - THEORY
Course director: DR. TAMÁS KÁLAI, professor
Department of Organic and Pharmacological Chemistry [email protected]
4 credit ▪ final exam ▪ Basic module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 56 lectures + 0 practices + 0 seminars = total of 56 hours
Course headcount limitations (min.-max.): 2 – 80 Prerequisites: see your Recommended Curriculum
Topic
This subject is a part of chemistry basics. Its aim is to present the nomenclature, structure, physical and chemical properties, synthesis,
reaction mechanisms and application of organic compounds.
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
Students write tests from the subject of the lecture on 3rd, 5th, 7th, 9th and 11th week and at least three of them must be completed better
than 50 %. Those who can not complete these tests can not admit to the exam.
Further criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from failed).
Making up for missed classes
Students have to contact the lecturer of the subject.
Reading material
- Obligatory literature
John McMurry, Eric Simanek: Fundamentals of Organic Chemistry, 6th ed., Thomson Brooks, Belmont, 2007.
- Literature developed by the Department
The slides of the lectures are available on neptune.
- Notes
- Recommended literature
T. W. Graham Solomons: Organic Chemistry, 7th edition, Wiley and Sons, New York, 2000.
William H. Brown: Organic Chemistry, Saunders College Publishing, Fort Worth, 1995.
Lectures
1 Nitro compounds: electronic structure, physical, chemical properties, synthesis, reduction of nitro compounds, their nitro-aldol
reaction, biologically important nitro compounds.
Dr. Kálai Tamás
2 Nitro compounds: electronic structure, physical, chemical properties, synthesis, reduction of nitro compounds, their nitro-aldol
reaction, biologically important nitro compounds.
Dr. Kálai Tamás
3 Nitro compounds: electronic structure, physical, chemical properties, synthesis, reduction of nitro compounds, their nitro-aldol
reaction, biologically important nitro compounds.
Dr. Kálai Tamás
4 Usefulness of nitro compounds in organic syntheses.
Dr. Kálai Tamás
5 Amino compounds: Physical, chemical properties, basicity of amines.
Dr. Kálai Tamás
6 Amino compounds: Physical, chemical properties, basicity of amines.
Dr. Kálai Tamás
7 Synthesis and reactions of amines.
Dr. Kálai Tamás
8 Synthesis and reactions of amines.
Dr. Kálai Tamás
9 Biologically important amines derived from amino acid decarboxylation; Alkaloids: definition and some representatives
Dr. Kálai Tamás
10 Biologically important amines derived from amino acid decarboxylation; Alkaloids: definition and some representatives
Dr. Kálai Tamás
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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11 Aldehydes and ketones: electronic structure of carbonyl group, enol-oxo tautomerism, physical, chemical properties, synthesis
of aldehydes and ketones, their reactions.
Dr. Pápayné Dr. Sár Cecilia
12 Aldehydes and ketones: electronic structure of carbonyl group, enol-oxo tautomerism, physical, chemical properties, synthesis
of aldehydes and ketones, their reactions.
Dr. Pápayné Dr. Sár Cecilia
13 Aldehydes and ketones: electronic structure of carbonyl group, enol-oxo tautomerism, physical, chemical properties, synthesis
of aldehydes and ketones, their reactions.
Dr. Pápayné Dr. Sár Cecilia
14 Some representatives oxo compounds; Quinones, vitamin K.
Dr. Pápayné Dr. Sár Cecilia
15 Carbohydrates: classification of carbohydrates, hemiacetal formation, mutarotation, D- and L-sugars; alpha- and beta-anomers.
Dr. Pápayné Dr. Sár Cecilia
16 Carbohydrates: classification of carbohydrates, hemiacetal formation, mutarotation, D- and L-sugars; alpha- and beta-anomers.
Dr. Pápayné Dr. Sár Cecilia
17 Chemical-physical properties of carbohydrates: oxidation, acetylation, bromination, formation of O- and N-glycosides.
Epimerization. Formation of fructose 1,6-diphosphate in aldol reaction.
Dr. Pápayné Dr. Sár Cecilia
18 Chemical-physical properties of carbohydrates: oxidation, acetylation, bromination, formation of O- and N-glycosides.
Epimerization. Formation of fructose 1,6-diphosphate in aldol reaction.
Dr. Pápayné Dr. Sár Cecilia
19 Function and structure of oligosaccharides and polysaccharides; Reducing and non-reducing sugars, the invert sugar.
Dr. Pápayné Dr. Sár Cecilia
20 Function and structure of oligosaccharides and polysaccharides; Reducing and non-reducing sugars, the invert sugar.
Dr. Pápayné Dr. Sár Cecilia
21 Function and structure of oligosaccharides and polysaccharides; Reducing and non-reducing sugars, the invert sugar.
Dr. Pápayné Dr. Sár Cecilia
22 Chemical reactions of oligosaccharides.
Dr. Pápayné Dr. Sár Cecilia
23 Carboxylic acids and their derivatives: Electronic structure of carboxylic acids and their derivatives. Formation and reactivity of
carboxylic acid derivatives, acidity of carboxylic acids. Physical and chemical properties of carboxylic acids.
Dr. Kálai Tamás
24 Carboxylic acids and their derivatives: Electronic structure of carboxylic acids and their derivatives. Formation and reactivity of
carboxylic acid derivatives, acidity of carboxylic acids. Physical and chemical properties of carboxylic acids.
Dr. Kálai Tamás
25 Carboxylic acids and their derivatives: Electronic structure of carboxylic acids and their derivatives. Formation and reactivity of
carboxylic acid derivatives, acidity of carboxylic acids. Physical and chemical properties of carboxylic acids.
Dr. Kálai Tamás
26 Some biologically important carboxylic acids; Structure of lipids and phospholipids
Dr. Kálai Tamás
27 Alpha-substituted carboxylic acids: their structure, acidity, biological importance.
Dr. Kálai Tamás
28 Alpha-substituted carboxylic acids: their structure, acidity, biological importance.
Dr. Kálai Tamás
29 Carbonic acid derivatives: syntesis, their utilization in amino acid synthesis and in drug industry.
Dr. Kálai Tamás
30 Carbonic acid derivatives: syntesis, their utilization in amino acid synthesis and in drug industry.
Dr. Kálai Tamás
31 Amino acids, peptides: physical and chemical properties of amino acids (zwitterion formation, chirality) peptide link formation,
amino acid synthesis.
Dr. Kálai Tamás
32 Amino acids, peptides: physical and chemical properties of amino acids (zwitterion formation, chirality) peptide link formation,
amino acid synthesis.
Dr. Kálai Tamás
33 Amino acids, peptides: physical and chemical properties of amino acids (zwitterion formation, chirality) peptide link formation,
amino acid synthesis.
Dr. Kálai Tamás
34 Peptide synthesis, structure of proteins, general features of proteins and their classification.
Dr. Kálai Tamás
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
34
35 5-Membered heterocycles with one or two heteroatoms: classification of heterocycles, their nomenclature, electronic structure,
aromaticity, aromatic electrophilic substitution, basicity, virtual tautomerism.
Dr. Kálai Tamás
36 5-Membered heterocycles with one or two heteroatoms: classification of heterocycles, their nomenclature, electronic structure,
aromaticity, aromatic electrophilic substitution, basicity, virtual tautomerism.
Dr. Kálai Tamás
37 5-Membered heterocycles with one or two heteroatoms: classification of heterocycles, their nomenclature, electronic structure,
aromaticity, aromatic electrophilic substitution, basicity, virtual tautomerism.
Dr. Kálai Tamás
38 Most important and biologically important representatives of 5-membered heterocycles
Dr. Kálai Tamás
39 6-Membered heterocycles with one or two heteroatoms: their nomenclature, basicity, electronic structure, enol-oxo, amino-imino
tautomerism, aromatic electrophilic substitution, nucleophilic substitution.
Dr. Kálai Tamás
40 6-Membered heterocycles with one or two heteroatoms: their nomenclature, basicity, electronic structure, enol-oxo, amino-imino
tautomerism, aromatic electrophilic substitution, nucleophilic substitution.
Dr. Kálai Tamás
41 6-Membered heterocycles with one or two heteroatoms: their nomenclature, basicity, electronic structure, eno-oxo amino-imino
tautomerism, aromatic electrophilic substitution, nucleophilic substitution.
Dr. Kálai Tamás
42 Most important and biologically active representatives of 6-membered heterocyles.
Dr. Kálai Tamás
43 Bases of nucleic acids. Structure of nucleic acids, chemical background to mutations.
Dr. Kálai Tamás
44 Bases of nucleic acids. Structure of nucleic acids, chemical background to mutations.
Dr. Kálai Tamás
45 Bases of nucleic acids. Structure of nucleic acids, chemical background to mutations.
Dr. Kálai Tamás
46 Nucleic acid derivatives in drug synthesis.
Dr. Kálai Tamás
47 Vitamins: classification of vitamins and their biological role. Fat soluble vitamins.
Dr. Pápayné Dr. Sár Cecilia
48 Vitamins: classification of vitamins and their biological role. Fat soluble vitamins.
Dr. Pápayné Dr. Sár Cecilia
49 Vitamins: classification of vitamins and their biological role. Water soluble vitamins.
Dr. Pápayné Dr. Sár Cecilia
50 Vitamins: classification of vitamins and their biological role. Water soluble vitamins.
Dr. Pápayné Dr. Sár Cecilia
51 Examples for solving exam questions.
Dr. Pápayné Dr. Sár Cecilia
52 Examples for solving exam questions.
Dr. Pápayné Dr. Sár Cecilia
53 Examples for solving exam questions.
Dr. Pápayné Dr. Sár Cecilia
54 Examples for solving exam questions.
Dr. Pápayné Dr. Sár Cecilia
55 Summary
Dr. Pápayné Dr. Sár Cecilia
56 Summary
Dr. Pápayné Dr. Sár Cecilia
Practices
Seminars
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
35
Exam topics/questions
1. Alkanes: Orbital hybridization and the structure of alkanes; Nomenclature, physical and chemical properties, combustion, free radical
chlorination, conformation, cycloalkanes, type of ring strains, demonstrate with examples.
2. Unsaturated hydrocarbons: sp2 and sp hybridization, nomenclature, physical properties, reactions and synthesis of alkenes and alkynes.
Electrophilic addition, Markovnikov’s rule, 1,2- and 1,4-addition, conjugated and cumulated dienes.
3. Importance of unsaturated hydrocarbons in industry and biology: polymerization, isoprene, terpenes, steroids, carotenoids, polymers,
rubber
4. Aromatic compounds: the structure of benzene, Hückel’s rule. Electrophilic aromatic substitution reactions. (Nitation, sulfonation,
bromination, Friedel-Crafts reactions), direction rules, classification of substituents, polyaromatics: examples, their chemical
reactions aromatic electophilic substitution, oxidation.
5. Alkyl halides: the character of C-X bonds, physical properties, reactivity of alkyl halides, synthesis of alkyl and aromatic halides, and
reactions of alkyl halides (substitution, elimination); Organic halides in the environment.
6. Organometallic compounds: their structure, their importance in organic syntheses (Mg, Na, Li, Si, Cu, Cd compounds).
7. Alcohols, phenols, ethers: Structure, physical and chemical properties, reactions; Their biological importance.
8. Stereochemistry: isomerism, absolute and relative configuration, chirality, racemates, diastereomers, polarimetry, resolution.
9. Sulfur containing compounds: Physical, chemical properties, importance in biological processes (in amino acids, peptides, methylation
in biology, AcCo-A, drugs, sulfonamides, penicillin, cefalosporin).
10. Nitro compounds: electronic structure, physical, chemical properties, synthesis (including aromatic electrophilic nitration), reduction
of nitro compounds, their nitro-aldol reaction, biologically important nitro compounds (glycerine trinitrate, chloroamphenicol).
11. Amino compounds - Physical, chemical properties, basicity of amines (compare aniline, ammonia, methylamine, dimethylamine etc.)
their possible synthesis (alkylation of ammonia, Gabriel synthesis, reductive amination, Hofmann rearrangement), reactions:
Hinsberg reaction, oxidation of amines, reaction with HNO2.
12. Biologically important amines: structure and properties of histamine, tryptamine, choline, acetylcholine, taurine, putrescine,
adrenaline; Alkaloids: definition (structure of mescaline, nicotine, coniine, quinine, papaverine, morphine)
13. Aldehydes and ketones: electronic structure of carbonyl group, enol-oxo tautomerism, physical, chemical properties, synthesis of
aldehydes and ketones, their reaction: aldol condensation, Canizzaro-reaction, Silver mirror/Fehling test, oxidation, reaction with
amines, hydrazines, Grignard-reagent, oximes, Beckmann-rearrangement, ketenes, quinones, vitamin K.
14. Carbohydrates: classification of carbohydrates (ketose, aldose, pyranose, furanose, pentose, hexose), hemiacetal formation,
mutarotation, D- and L-sugars; alpha- and beta-anomers. Chemical-physical properties of carbohydrates. The following covalent
structures are required: glucose, fructose, mannose, galactose, ribose, 2-deoxy-ribose, glyceraldehyde, ascorbic acid. Oxidation of
carbohydrates, acetylation, bromination, formation of O- and N-glycosides. Epimerization (glucose, mannose, fructose). Formation
of fructose 1,6-diphosphate in aldol reaction.
15. Function and structure of oligosaccharides and polysaccharides: sucrose, maltose, cellobiose, lactose, kitine, pectine, cellulose, starch.
Reducing sugars and non-reducing sugars, the invert sugar. Chemical reactions of oligosaccharides.
16. Carboxylic acids and their derivatives (acyl chlorides, anhydrides, esters, amides): Electronic structure of carboxylic acids and their
derivatives. Formation of carboxylic acids and their derivatives. Reactivity of carboxylic acid derivatives, acidity of carboxylic acids.
Physical and chemical properties of carboxylic acids. Ester synthesis, Claisen-condensation. Most important carboxylic acids: formic
acid, acetic acid, benzoic acid, oleic acid, linolic and linoleic acid, palmitic and stearic acids, structure of lipids and phospholipids.
17. Alpha-substituted carboxylic acids and carbonic acid: halogenation, lactic acid, pyruvic acid, malonic acid, malonic acid synthesis,
oxalic acid, malic acid, maleic acid, fumaric acid, citric acid. Their structure, acidity, biological importance. Carbonic acid
derivatives: carbonic acid and its esters, phosgene, chloroformic acid esters and their utilization in amino acid synthesis, urea,
thiourea, diureides, barbituric acid and its derivatives, guanidine, creatine.
18. Amino acids, peptides: the exact covalent structure of 20 amino acids, physical and chemical properties (zwitterion formation,
chirality) peptide link formation, amino acid synthesis, glutathione, peptide synthesis, structure of proteins (primary, secondary,
tertiary, quaternary), general features of proteins, their classification with examples, denaturation and colour-reactions of proteins
(Xantoprotein-test, Millon-test etc.)
19. 5-Membered heterocycles: classification of heterocycles, their nomenclature, most important representatives: furane, thiophene,
pyrrole. Heterocycles with two heteroatoms: oxazole, thiazole, imidazole, their electronic structure, aromaticity, aromatic
electrophilic substitution, basicity, virtual tautomerism. Biologically important representatives: biotin, ultraseptil, histamine,
penicillins, aminophenazone, furfural; Indole and its derivatives: serotonine, auxins, indigo.
20. 6-Membered heterocycles: their nomenclature, most important representatives: pyridine, quinoline, isoquinoline, pyrilium,
benzpyrilium cation, their basicity, electronic structure, eno-oxo amino-imino tautomerism, aromatic electrophilic substitution,
nucleophilic substitution, biologically important derivatives: rutin, vitamin E, cyanidium chloride, tetrahydrocannabinol,
nicotinamide, quinine, papaverine, vitamin B6, isoniazide, nifedipine, barbituric acid: veronal, sevenal bases of nucleic acids, base
pairs cytosine, guanine, adenine, timine, uracil, their exact covalent structure, structure of DNA, RNA, vitamin B1, purine: caffeine,
theophylline, theobromine, xanthine, pteridine, structure and function of folic acid.
21. Vitamins: classification of vitamins, their exact covalent structure, their biological role. Vitamin A, vitamin D, Vitamin E, vitamin
K, Vitamin B1, Vitamin B3, Vitamin B5, the role and function of the NAD, Vitamin B6, Vitamin B7, inosite, p-aminobenzoic acid,
folic acid, Vitamin B12, Vitamin C, Vitamin P and flavonoids, Vitamin U.
The criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from failed)
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPA-V2G-T ORGANIC CHEMISTRY 2 - PRACTICE
Course director: DR. TAMÁS KÁLAI, professor
Department of Organic and Pharmacological Chemistry [email protected]
3 credit ▪ midsemester grade ▪ Basic module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 42 practices + 0 seminars = total of 42 hours
Course headcount limitations (min.-max.): 2 – 80 Prerequisites: see your Recommended Curriculum
Topic
The aims of this course are to introduce students into several basic laboratory techniques and to demonstrate some characteristic reactions
of organic compounds with various functional groups.
Conditions for acceptance of the semester
During the semester students have to accomplish the preparative works and written tests. They have to document the experiments in their
exercise book.
Mid-term exams
The organic chemistry laboratory course will be graded (1-5), based on the two written tests on 6th and 11th week, first of all. The
evaluation can be modified by grades of semi-micro preparations, success of unknown identification as well as the outlook of the records
of exercise book.
Making up for missed classes
Students have to contact their lab TA within 48 hours of missing lab to make the necessary arrangements.
Reading material
- Obligatory literature
- Literature developed by the Department
Kálai, T., Bognár, B. Organic Chemisry Laboratory Manual, Dept. of Org. and Med. Chem., Medical Faculty, University of Pécs, 2010.
- Notes
- Recommended literature
Charles F. Wilcox, Jr., Mary F. Wilcox: Experimental Organic Chemistry: a Small-scale Approach, 2nd ed., Prentice-Hall, London, 1995.
Dana W. Mayo, Ronald M. Pike, Peter K. Trumper: Microscale Organic Laboratory with Multistep and Multiscale Syntheses, 3rd
ed., Wiley, New York, 1994.
Lectures
Practices
1 General instructions for work in the laboratory, safety precautions; Purification of benzaldehyde, synthesis of benzoin.
2 General instructions for work in the laboratory, safety precautions; Purification of benzaldehyde, synthesis of benzoin.
3 General instructions for work in the laboratory, safety precautions; Purification of benzaldehyde, synthesis of benzoin.
4 Synthesis of 2,6-dibenzylidene-cyclohexanone; Characteristic tube reactions of oxo compounds.
5 Synthesis of 2,6-dibenzylidene-cyclohexanone; Characteristic tube reactions of oxo compounds.
6 Synthesis of 2,6-dibenzylidene-cyclohexanone; Characteristic tube reactions of oxo compounds.
7 Synthesis of benzil; Identification of 4th unknown compound.
8 Synthesis of benzil; Identification of 4th unknown compound.
9 Synthesis of benzil; Identification of 4th unknown compound.
10 Characteristic tube reactions of carbohydrates; Preparation of oxalic acid, isolation of citric acid.
11 Characteristic tube reactions of carbohydrates; Preparation of oxalic acid, isolation of citric acid.
12 Characteristic tube reactions of carbohydrates; Preparation of oxalic acid, isolation of citric acid.
13 Acetylation of glucose; Identification of 5th unknown compound;
14 Acetylation of glucose; Identification of 5th unknown compound;
15 Acetylation of glucose; Identification of 5th unknown compound;
16 1st written test; Synthesis of aspirin. Polarimetry.
17 1st written test; Synthesis of aspirin. Polarimetry.
18 1st written test; Synthesis of aspirin. Polarimetry.
19 Synthesis of lidocain (1st step); Characteristic tube reactions of carboxylic acids and carboxylic acid derivatives.
20 Synthesis of lidocain (1st step); Characteristic tube reactions of carboxylic acids and carboxylic acid derivatives.
21 Synthesis of lidocain (1st step); Characteristic tube reactions of carboxylic acids and carboxylic acid derivatives.
22 Synthesis of lidocain (2nd step);
23 Synthesis of lidocain (2nd step);
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24 Synthesis of lidocain (2nd step);
25 Synthesis of heterocycles I. (five membered): benzimidazole, dilantin; Characteristic tube reactions of pyridine.
26 Synthesis of heterocycles I. (five membered): benzimidazole, dilantin; Characteristic tube reactions of pyridine.
27 Synthesis of heterocycles I. (five membered): benzimidazole, dilantin; Characteristic tube reactions of pyridine.
28 Synthesis of heterocycles II. (six membered): 4-phenyl-5-carbethoxy-6-methyl-1,2,3,4-tetrahyropyrimidin-2-one, 4-methyl-7-
hydroxycoumarine.
29 Synthesis of heterocycles II. (six membered): 4-phenyl-5-carbethoxy-6-methyl-1,2,3,4-tetrahyropyrimidin-2-one, 4-methyl-7-
hydroxycoumarine.
30 Synthesis of heterocycles II. (six membered): 4-phenyl-5-carbethoxy-6-methyl-1,2,3,4-tetrahyropyrimidin-2-one, 4-methyl-7-
hydroxycoumarine.
31 2nd written test. Isolation of caffeine.
32 2nd written test. Isolation of caffeine.
33 2nd written test. Isolation of caffeine.
34 Isolation of quercetin and myristic acid.
35 Isolation of quercetin and myristic acid.
36 Isolation of quercetin and myristic acid.
37 Characteristic tube reactions of amino acids and peptides.
38 Characteristic tube reactions of amino acids and peptides.
39 Characteristic tube reactions of amino acids and peptides.
40 Evaluation.
41 Evaluation.
42 Evaluation.
Seminars
Exam topics/questions
The written tests will contain the matter of practice.
Participants
Dr. Bognár Balázs (U34DM4), Dr. Kálai Tamás (BDF5M9), Dr. Pápayné Dr. Sár Cecilia (BTYFJX)
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OPG-GI1-T BASIC PRINCIPLES OF PHARMACY
Course director: DR. LAJOS BOTZ, professor
Department of Pharmaceutics and University Pharmacy [email protected]
2 credit ▪ midsemester grade ▪ Pharm. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 28 lectures + 0 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 5 – 50 Prerequisites: see your Recommended Curriculum
Topic
The basic aims of the course are to provide fundamental knowledge of pharmaceutics and gain insight into the pharmaceutical profession.
The subject will support further studies and the summer professional practice by improving vocabulary, professional knowledge, etc..
Further goals are to draw the attention of students towards specific topics (professionalism, roles of pharmacists in healthcare) of
pharmacy, to help students gain interest in practical aspects of pharmaceutical work and to introduce further professional studies.
The course gives an overview of the basic principles of pharmacy and pharmaceuticals. Definitions of the different groups of
pharmaceuticals, synopsis of the process of drug development, evolution and role of pharmacopoeias, sites and aims of small-, medium-
and large scale drug manufacturing, the role of community and clinical pharmacies. During the semester several on-site visits will be
organized to familiarize students with the different fields of pharmacists.
Attendance of, and active participation in the lectures, furthermore understanding of given topics are the basic requirements of completing
the course. Students shall hold a short presentation regarding a previously discussed topic and shall attend the on site visits organized by
the Institute (community pharmacy, clinical and hospital pharmacy, pharmaceutical industry). Topics discussed during the lectures, but
not included in the notes/books will also be included in the exams. Students can access the slides of the lectures and further reading
material on a designated web based interface (Neptun Meet Street). Prior knowledge from earlier theoretical studies is an advantage.
Conditions for acceptance of the semester
- Regular attendance of classes/lectures (maximum 25 % of absence is accepted),
- Assignments given in class should be carried out during term-time and,
- Written mid-term and end-of-the term test.
Mid-term exams
Mid-term tests: During the semester a mid-term test will be written. In case of unsuccessful or missed test, additional questions will be
added to the end-of-the-term test. The number of additional questions may vary regarding the number of unsuccessful or missed mid-
term tests. There is no re-examination opportunity for the unsuccessful or missed mid-term tests.
End-of-the-term test: On the last week of the semester, a test will be written on the whole semester”s curriculum. Further additional
questions are included in the end-of-the-term test, if the student has not carried out an assignment during the semester. The number of
these questions may vary according to the unsuccessful or missed assignments. In case of unsuccessful or missed end-of-the term test,
one re-examination opportunity is granted to make up until the end of the second week of the exam period. In case of Basic Principles of
Pharmacy there is midsemester grade.
Making up for missed classes
Retake opportunity is possible following personal discussion for the end-of-the term test.
Reading material
- Obligatory literature
- Literature developed by the Department
All presentations can be downloaded from Neptun Meet Street.
- Notes
- Recommended literature
Christopher A Langley, Dawn Belcher: Applied Pharmaceutical Practice, 2nd edition, Pharmaceutical Press 2012
Medicines, Ethics and Practice: The Professional Guide for Pharmacists, 36th edition, Royal Pharmaceutical Society of Great Britain,
2012
Judith A Rees, BPharm, Ian Smith and Jennie Watson: Pharmaceutical Practice, 5th Edition. Churchill Livingstone Elsevier, 2014.
Lectures
1 Introduction to Basic Principles of Pharmacy. Pharmacy as a profession 1.
Dr. Fittler András Tamás
2 Pharmacy as a profession 2.
Dr. Bella Richárd
3 Product categories
Dr. Fittler András Tamás
4 Routes of administration
Dr. Fittler András Tamás
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5 Classification and names of drugs
Dr. Fittler András Tamás
6 Pharmacopoieas and formularies
Dr. Bella Richárd
7 Prescription and labelling
Dr. Fittler András Tamás
8 Latin terms and pharmaceutical calculations
Dr. Végh Anna
9 Structure and tasks of community pharmacy: On site visit 1.
Dr. Fittler András Tamás
10 Structure and tasks of community pharmacy: On site visit 2.
Dr. Bella Richárd
11 Midterm test
Dr. Fittler András Tamás
12 Manufacturing of medicines. GMP.
Dr. Fittler András Tamás
13 Development of evidence based approach. History of clinical trials 1.
Dr. Végh Anna
14 Development of evidence based approach. History of clinical trials 2.
Dr. Végh Anna
15 Research and development of medicines. Clinical trials 1.
Dr. Vida Róbert György
16 Research and development of medicines. Clinical trials 2.
Dr. Vida Róbert György
17 University Pharmacy: Getting to know dosage forms 1.
Dr. Bella Richárd
18 University Pharmacy: Getting to know dosage forms 2.
Dr. Mayer Anna
19 Clinical Pharmacy On site visit 1.
Dr. Bella Richárd
20 Clinical Pharmacy On site visit 2.
Dr. Fittler András Tamás
21 History of Pharmacy and Medicine: Ancient and medieval times I.
Dr. Fittler András Tamás
22 History of Pharmacy and Medicine: Ancient and medieval times II.
Dr. Vincze Patricia Anna
23 History of Pharmacy and Medicine 2.: Early modern World - XIX. Century I.
Dr. Végh Anna
24 History of Pharmacy and Medicine 3.: XX. And XXI. Century II.
Dr. Fittler András Tamás
25 Pharmaceutical Industry: On site visit 1.
Dr. Fittler András Tamás
26 Pharmaceutical Industry: On site visit 2.
Dr. Bella Richárd
27 End-of-the term test 1.
Dr. Fittler András Tamás
28 End-of-the term test 2.
Dr. Bella Richárd
Practices
Seminars
Exam topics/questions
Based on the topics of the lectures.
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-G1B-T PHARMACEUTICAL BIOCHEMISTRY 1
Course director: DR. KATALIN SIPOS, associate professor
Department of Forensic Medicine [email protected]
3 credit ▪ semester exam ▪ Med.-biol. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 28 lectures + 0 practices + 14 seminars = total of 42 hours
Course headcount limitations (min.-max.): 5 – 999 Prerequisites: see your Recommended Curriculum
Topic
The two-semester biochemistry course provides the essential fundamental biochemistry knowledge for the pharmaceutical students. This
course deals with the metabolic pathways of the living cell: the reactions, steps and regulation of these pathways. In the first semester
students will be introduced to the life of the basic synthetic and anabolic biochemical pathways and they will study how energy is
produced in the cell. We will pay special attention to enzymes: their features, regulations, roles in the drug metabolism and action.
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
There are one mid-term exam in the semester. The result of this is included in the result of the exam.
Making up for missed classes
According to personal agreement
Reading material
- Obligatory literature
- Literature developed by the Department
The materials of the lectures and seminars will appear on Neptune.
- Notes
The e-notes of Biochemistry will appear on Neptune.
- Recommended literature
Ch. P. Woodbury: Biochemistry for the Pharmaceutical Sciences
Raymond S. Ochs: Biochemistry
Thomas M. Devlin: Textbook of Biochemistry with Clinical Correlations
Lectures
1 Introduction
Dr. Sipos Katalin
2 Thermodynamics, biochemical reactions
Dr. Sipos Katalin
3 Biomembranes. Transport processes I
Dr. Sipos Katalin
4 Transport processes II
Dr. Sipos Katalin
5 Enzymes: characteristics, types, catalytic activities
Dr. Sipos Katalin
6 Channels, action potential
Dr. Sipos Katalin
7 Basic regulatory mechanisms in metabolism
Dr. Sipos Katalin
8 Glycolysis
Dr. Sipos Katalin
9 Gluconeogenesis
Dr. Farkas Viktória
10 Glycogen metabolism
Dr. Farkas Viktória
11 Cori cycle
Dr. Farkas Viktória
12 Pentose phosphate pathway
Dr. Farkas Viktória
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13 Metabolism of complex carbohydrates
Dr. Sipos Katalin
14 Pyruvate dehydrogenase complex
Dr. Farkas Viktória
15 Citric acid cycle
Dr. Sipos Katalin
16 Mitochondrial transport processes
Dr. Farkas Viktória
17 Terminal oxidation, ATP synthesis I
Dr. Farkas Viktória
18 Terminal oxidation, ATP synthesis II
Dr. Farkas Viktória
19 Degradation of lipids
Dr. Sipos Katalin
20 Ketone bodies
Dr. Farkas Viktória
21 Biosynthesis of fatty acids
Dr. Farkas Viktória
22 Biosynthesis of complex lipids
Dr. Sipos Katalin
23 Cholesterol metabolism I
Dr. Farkas Viktória
24 Cholesterol metabolism II
Dr. Farkas Viktória
25 Characterization of amino acids
Pap Ramóna
26 Nucleic acids: building blocks, structures
Pap Ramóna
27 Preparation for exam
Dr. Sipos Katalin
28 Preparation for exam
Dr. Sipos Katalin
Practices
Seminars
1 Macromolecules in biochemistry
2 Nutrition and vitamins in biochemistry
3 Carbohydrates: biochemical characterization. Carbohydrates in the extracellular space
4 Clinical importance of carbohydrates
5 Regulation of enzymes
6 Enzymekinetics. Inhibition of enzymes
7 Structure, folding and degradation of proteins
8 Lipids: phospholipids, sphingolipids, cholesterol, fatty acids
9 Clinical importance of lipids
10 Clinical consequences of terminal oxidation.
11 Carbohydrate metabolism
12 Lipid metabolism
13 Enzyme inhibiting drugs
14 Preparation for exam
Exam topics/questions
There are no given exam questions. The topics of the exam will be the materials of lectures and seminars.
Participants
Dr. Farkas Viktória (G9AV8T), Dr. Pandur Edina (ZP0077), Dr. Sipos Katalin (RUHPLE)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-G2E-T PHARMACOBOTANY 2 - THEORY
Course director: DR. ÁGNES FARKAS, associate professor
Department of Pharmacognosy [email protected]
1 credit ▪ semester exam ▪ Med.-biol. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 14 lectures + 0 practices + 0 seminars = total of 14 hours
Course headcount limitations (min.-max.): 3 – 100 Prerequisites: see your Recommended Curriculum
Topic
Pharmacobotany covers all pharmaceutical aspects of botany, including cytology, histology, morphology and taxonomy of plants. Plant
systematics discusses the geographical origin of plant species, the possibilities of cultivation and nature conservation. A special emphasis
is laid on chemotaxonomic aspects, since the medicinal effect of a plant is often related to its taxonomic classification and chemical
characteristics. Practical instruction focuses on the knowledge of medicinal plants, including the confident usage of plant identification
keys. Based on their knowledge of histology and morphology, students are required to apply proper anatomical terms, and finally identify
plant species (taxa). The thorough knowledge of both general and specific pharmacobotany is a prerequisite of studying pharmacognosy.
Conditions for acceptance of the semester
Maximum of 25 % absence allowed
Mid-term exams
Students have to pass (min. 60%) two written exams based on lecture materials. If necessary, students will be provided maximum two
extra chances (B and C chance) besides the original exam date (A chance).
Making up for missed classes
Lecture materials can be downloaded from the website of the Department of Pharmacognosy (Educational Materials).
Reading material
- Obligatory literature
Á. Farkas: Pharmacobotany 2. University of Pécs, Institute of Pharmacognosy, Pécs, 2019
- Literature developed by the Department
Farkas Á., Papp N., Bencsik T., Horváth Gy.: Digital Herbarium and Drug Atlas, electronic learning material, 2014 TÁMOP-
4.1.2.A/1-11/1-2011-0016
- Notes
- Recommended literature
Z. Yaniv, U. Bachrach (eds.): Handbook of Medicinal Plants, Haworth Press Inc., 2005
WHO Monographs on Selected Medicinal Plants, Vol. 1. (1999), Vol. 2. (2002)
Lectures
1 Algae (Phaeophyceae, Rhodophyceae), Fungi, Lichenes
Dr. Farkas Ágnes
2 Pteridophyta, Coniferophytina, Cycadophytina. Magnoliidae.
Dr. Farkas Ágnes
3 Caryophyllidae
Dr. Farkas Ágnes
4 Hamamelididae
Dr. Purger Dragica
5 Rosidae I.
Dr. Farkas Ágnes
6 Rosidae II.
Dr. Farkas Ágnes
7 Dilleniidae
Dr. Farkas Ágnes
8 Cornidae
Dr. Farkas Ágnes
9 Lamiidae I.
Dr. Farkas Ágnes
10 Lamiidae II.
Dr. Farkas Ágnes
11 Asteridae
Dr. Filep Rita
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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12 Alismatidae. Liliidae.
Dr. Farkas Ágnes
13 Zingiberidae
Dr. Farkas Ágnes
14 Commelinidae, Arecidae
Dr. Farkas Ágnes
Practices
Seminars
Exam topics/questions
The criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with a result
different from failed).
Final exam:
Entrance exam:
Preceding the oral exam, 6 medicinal plants (5 herbarium specimens, 1 plant from the medicinal plant garden) should be identified and
their brief morphological characterization should be given.
Oral exam:
Following the successful entrance exam, students are required to present their knowledge on 2 topics from the list below. The general
characterization of plant families should be followed by the morphological and chemotaxonomic description of the species belonging
to the given families.
Exam questions:
1. Algae, Fungi, Lichenes
2. Lycopodiaceae, Equisetaceae, Aspidiaceae, Polypodiaceae
3. Ginkgoaceae, Abietaceae, Cupressaceae, Taxaceae, Ephedraceae
4. Myristicaceae, Illiciaceae, Lauraceae, Piperaceae, Aristolochiaceae
5. Berberidaceae, Ranunculaceae (Helleboraceae)
6. Papaveraceae, Fumariaceae
7. Chenopodiaceae, Caryophyllaceae, Polygonaceae
8. Hamamelidaceae, Fagaceae, Betulaceae (Corylaceae), Juglandaceae
9. Droseraceae, Rosaceae
10. Mimosaceae, Caesalpiniaceae, Fabaceae
11. Myrtaceae, Punicaceae, Lythraceae, Onagraceae
12. Rutaceae, Anacardiaceae
13. Hippocastanaceae, Geraniaceae, Linaceae, Erythroxylaceae
14. Polygalaceae, Krameriaceae, Rhamnaceae, Vitaceae, Loranthaceae
15. Araliaceae, Apiaceae
16. Violaceae, Passifloraceae, Caricaceae, Cucurbitaceae
17. Brassicaceae, Salicaceae
18. Tiliaceae, Sterculiaceae, Malvaceae
19. Moraceae, Cannabaceae
20. Urticaceae, Euphorbiaceae
21. Elaeagnaceae, Theaceae, Hypericaceae, Primulaceae
22. Aquifoliaceae, Caprifoliaceae (Sambucaceae), Valerianaceae, Ericaceae
23. Loganiaceae, Rubiaceae
24. Apocynaceae, Gentianaceae, Menyanthaceae, Oleaceae
25. Solanaceae, Convolvulaceae
26. Boraginaceae, Scrophulariaceae
27. Plantaginaceae, Pedaliaceae, Verbenaceae
28. Lamiaceae
29. Lobeliaceae, Asteraceae (Cichoriaceae)
30. Dioscoreaceae, Convallariaceae, Asparagaceae, Ruscaceae, Agavaceae
31. Asphodelaceae, Hyacinthaceae, Alliaceae
32. Amaryllidaceae, Melanthiaceae, Colchicaceae, Iridaceae, Orchidaceae
33. Zingiberaceae, Bromeliaceae, Poaceae, Arecaceae
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-G2G-T PHARMACOBOTANY 2 - PRACTICE
Course director: DR. ÁGNES FARKAS, associate professor
Department of Pharmacognosy [email protected]
2 credit ▪ midsemester grade ▪ Med.-biol. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 28 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 3 – 100 Prerequisites: see your Recommended Curriculum
Topic
Pharmacobotany covers all pharmaceutical aspects of botany, including cytology, histology, morphology and taxonomy of plants. Plant
systematics discusses the geographical origin of plant species, the possibilities of cultivation and nature conservation. A special emphasis
is laid on chemotaxonomic aspects, since the medicinal effect of a plant is often related to its taxonomic classification and chemical
characteristics. Practical instruction focuses on the knowledge of medicinal plants, including the confident usage of plant identification
keys. Based on their knowledge of histology and morphology, students are required to apply proper anatomical terms, and finally identify
plant species (taxa). The thorough knowledge of both general and specific pharmacobotany is a prerequisite of studying pharmacognosy.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
From the 2nd week onwards, students have to write a short test each week (recognising and characterising medicinal plants).
In the practice, students have to take notes and prepare drawings based on macroscopic and microscopic examinations. Students have to
show their lab notebook to the practice leader, who acknowledges fulfillment of the practice by his/her signature.
The grade for the practice will be made up by the grades from each week’s test and the lab notebook.
Making up for missed classes
Missed practicals can be made up either by joining the other groups or taking extra time at the following lab practical. In all cases,
students must make arrangements with their lab instructors in advance.
Reading material
- Obligatory literature
Á. Farkas: Pharmacobotany 2. University of Pécs, Institute of Pharmacognosy, Pécs, 2019
N. Papp: Pharmacobotany Practices. University of Pécs, Institute of Pharmacognosy, Pécs, 2011
- Literature developed by the Department
Farkas Á., Papp N., Bencsik T., Horváth Gy.: Digital Herbarium and Drug Atlas, electronic learning material, 2014 TÁMOP-
4.1.2.A/1-11/1-2011-0016
- Notes
- Recommended literature
Z. Yaniv, U. Bachrach (eds.): Handbook of Medicinal Plants, Haworth Press Inc., 2005
Lectures
Practices
1 Fungi: Morphology of Ganoderma lucidum, Fomes fomentarius and Lentinus edodes. Lichenes: Morphological comparison of
Cladonia pyxidata and Cetraria islandica.
2 Pteridophyta: Sporangia and spores of Lycopodium clavatum and Equisetum arvense; rhizome of Dryopteris filix-mas.
3 Spermatophyta: Coniferophytina: Cross section of Ginkgo leaf. Inflorescences, needles and wood of Pinus nigra.
Angiospermatophytina: Dicotyledonopsida: Magnoliidae: Aristolochiaceae.
4 Ranunculaceae, Helleboraceae. Helleborus leaf and aggregate of follicles.
5 Berberidaceae. Papaveraceae - Papaver sp. pistil and fruit. Fumariaceae.
6 Caryophyllidae: Phytolaccaceae. Polygonaceae: leaf morphology of Rumex sp. Caryophyllaceae - leaf arrangement, Saponaria
officinalis root.
7 Hamamelididae: Fagaceae - leaf morphology and fruit types of Fagus and Quercus species. Betulaceae. Juglandaceae - Juglans
regia fruit.
8 Rosidae I.: Grossulariaceae, Crassulaceae. Plant identification practice with identification key.
9 Rosidae II: Rosaceae - Rosaceae flower and fruit types. Pseudofruit of Rosa canina and Malus domestica.
10 Fabaceae - morphology of the flower, leaf and fruit. Leaf and fruit of Laburnum, Medicago and Sophora.
11 Rosidae III: Araliaceae: Morphological features of Hedera helix and Panax ginseng. Apiaceae: compound umbel, double achene.
12 Punicaceae, Lythraceae, Onagraceae, Rutaceae. Hesperidium of Citrus limon.
13 Rosidae IV: Anacardiaceae, Hippocastanaceae, Geraniaceae. Celastraceae: cork structures on shoots of Euonymus sp.
Rhamnaceae.
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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14 Vitaceae, Loranthaceae, Violaceae, Cucurbitaceae. Dilleniidae: Brassicaceae - silique and silicle. Salicaceae.
15 Dilleniidae: Tiliaceae - leaf morphology of Tilia sp. Cannabaceae - bifid hairs and glandular scales of Humulus lupulus.
16 Malvaceae, Moraceae. Urticaceae: Urtica dioica stinging hairs. Euphorbiaceae - cyathium inflorescence. Elaeagnaceae: stellate
hairs of Elaeagnus angustifolia. Hypericaecae, Primulaceae.
17 Cornidae: Caprifoliaceae - Sambucus nigra shoot. Valerianaceae, Rubiaceae. Apocynaceae. Asclepiadaceae. Oleaceae - fruit
types.
18 Plant identification practice.
19 Lamiidae I.: Solanaceae: fruit types. Plantaginaceae : leaf morphology of Plantago sp.
20 Boraginaceae - non-glandular trichomes. Scrophulariaceae - Verbascum phlomoides hairs. Verbenaceae.
21 Lamiidae II.: Lamiaceae.
22 Shoot and leaf morphology of Lamiaceae species. Structure of a Lamiaceae flower.
23 Asteridae: Asteraceae
24 Asteraceae: capitulum types.
25 Monocotyledonopsida: Dioscoreaceae, Convallariaceae, Asparagaceae, Ruscaceae.
26 Alliaceae, Orchidaceae, Poaceae. Morphological distinction of Allium ursinum and Convallaria majalis.
27 Visit to the botanical garden.
28 Visit to the medicinal plant garden.
Seminars
Exam topics/questions
1. Algae, Fungi, Lichenes
2. Lycopodiaceae, Equisetaceae, Aspidiaceae, Polypodiaceae
3. Ginkgoaceae, Abietaceae, Cupressaceae, Taxaceae, Ephedraceae
4. Myristicaceae, Illiciaceae, Lauraceae, Piperaceae, Aristolochiaceae
5. Berberidaceae, Ranunculaceae (Helleboraceae)
6. Papaveraceae, Fumariaceae
7. Chenopodiaceae, Caryophyllaceae, Polygonaceae
8. Hamamelidaceae, Fagaceae, Betulaceae (Corylaceae), Juglandaceae
9. Grossulariaceae, Crassulaceae, Droseraceae, Rosaceae
10. Mimosaceae, Caesalpiniaceae, Fabaceae
11. Myrtaceae, Punicaceae, Lythraceae, Onagraceae
12. Rutaceae, Anacardiaceae
13. Hippocastanaceae, Geraniaceae, Linaceae, Erythroxylaceae
14. Polygalaceae, Krameriaceae, Rhamnaceae, Vitaceae, Loranthaceae
15. Araliaceae, Apiaceae
16. Violaceae, Passifloraceae, Caricaceae, Cucurbitaceae
17. Brassicaceae, Salicaceae
18. Tiliaceae, Sterculiaceae, Malvaceae
19. Moraceae, Cannabaceae
20. Urticaceae, Euphorbiaceae
21. Elaeagnaceae, Theaceae, Hypericaceae, Primulaceae
22. Aquifoliaceae, Caprifoliaceae (Sambucaceae), Valerianaceae, Ericaceae
23. Loganiaceae, Rubiaceae
24. Apocynaceae, Gentianaceae, Menyanthaceae, Oleaceae
25. Solanaceae, Convolvulaceae
26. Boraginaceae, Scrophulariaceae
27. Plantaginaceae, Pedaliaceae, Verbenaceae
28. Lamiaceae
29. Lobeliaceae, Asteraceae (Cichoriaceae)
30. Dioscoreaceae, Convallariaceae, Asparagaceae, Ruscaceae, Agavaceae
31. Asphodelaceae, Hyacinthaceae, Alliaceae
32. Amaryllidaceae, Melanthiaceae, Colchicaceae, Iridaceae, Orchidaceae
33. Zingiberaceae, Bromeliaceae, Poaceae, Arecaceae
Participants
Dr. Farkas Ágnes (DKQUBQ), Dr. Papp Nóra (S3PA4G), Dr. Purger Dragica (FCCWBF)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-H2E-T HUMAN PHYSIOLOGY 2 - THEORY
Course director: DR. ISTVÁN MIKLÓS ÁBRAHÁM, professor
Institute of Physiology [email protected]
3 credit ▪ final exam ▪ Med.-biol. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 42 lectures + 0 practices + 0 seminars = total of 42 hours
Course headcount limitations (min.-max.): 5 – 999 Prerequisites: see your Recommended Curriculum
Topic
The most important mission of the Physiology Course in medical education is to familiarize students with the attributes of healthy
functions of the living organism.
While acquiring knowledge about the most important functional characteristics of the human body the students can rely on their prior
studies in biology, biophysics, chemistry-biochemistry and anatomy.
During the semester we introduce the most important elements of functioning of the organs and organ systems, as well as their cooperation
also required to adapting to the environment, and the factors affecting these processes.
Special emphasis is placed on the neural and humoral regulatory processes of these life-functions, which are vital to maintain and preserve
the homeostasis of the organism.
With the transfer of all this knowledge we would like to mould a holistic attitude and thinking of students, which will enable them to
better understand the functions of the now healthy, however, later dysfunctional human organism.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Written test on the 11th week Friday at 16:00.
Making up for missed classes
The missed lab practice is advised to be covered by joining another group while the same topic is on schedule.
Reading material
- Obligatory literature
J.E. Hall: Guyton and Hall Textbook of Medical Physiology, 12th edition, 2013
- Literature developed by the Department
Figures of the lectures given are available on the homepage of Institute of Physiology and on the Neptun Meet Street.
Important messages on new information will be announced at the lectures and will be sent to you by course mails.
Please always find the current updated information and study materials on the homepage of the Institute of Physiology
(physiology.aok.pte.hu).
- Notes
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practices 2, internet study material, printable notebook, 2016
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practice Worksheets 2, internet study material, printable notebook, 2016
- Recommended literature
L.S. Costanzo: Physiology, 5th edition, 2014
W.F. Ganong: Review of Medical Physiology, 2012, Appleton and Lange, Lange Medical Publications
Fonyó: Principles of Medical Physiology, Medicina Publishing, 2002
J.B. West (ed.): Best and Taylor’s Physiological Basis of Medical Practice, Williams and Wilkins, 1998
Lectures
1 Endocrinology of the adrenal cortex. I.
Dr. László Kristóf
2 Endocrinology of the adrenal cortex. II.
Dr. László Kristóf
3 The adrenal medulla. Endocrinology of stress
Dr. László Kristóf
4 Hormonal control of calcium homeostasis
Dr. Lengyel Ferenc
5 The endocrine pancreas
Dr. Zelena Dóra
6 Hormonal control of intermediary metabolism.
Dr. Zelena Dóra
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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7 Special problems of neonatal physiology. Physiology of ageing
Dr. Lengyel Ferenc
8 Ionic mechanism of membrane potential. Action potential and its propagation.
Dr. Buzás Péter
9 Electrophysiology of synapses. Neurochemical basis of neurotransmission. Function of the neuromuscular junction.
Dr. Buzás Péter
10 Molecular mechanism of muscle contraction. Mechanics, energetics and heat production of muscle contraction.
Dr. Környei József László
11 Electric characteristics of muscle contraction, muscle tone, fatigue. Contraction of smooth muscle.
Dr. Környei József László
12 The motor unit. Peripheral neural mechanism of muscle control.
Dr. Buzásné Dr. Telkes Ildikó
13 Functional importance of mechanoreceptors
Dr. Kóbor Péter
14 General properties of spinal cord reflexes. Integrative functions of the spinal cord.
Dr. Buzásné Dr. Telkes Ildikó
15 The spinal shock. Decerebrate rigidity.
Péczely László Zoltán
16 Postural coordination, Locomotion.
Péczely László Zoltán
17 Extrapyramidal system.
Kertes Erika
18 Physiology of the vestibular system.
Dr. Ollmann Tamás
19 Cerebellar control of motor functions.
Dr. Ollmann Tamás
20 Cortical control of motor functions. The pyramidal system.
Dr. Hernádi István
21 Somaesthetic mechanisms. Somatotopic representations in the sensory systems.
Dr. Buzás Péter
22 Thalamocortical somatosensory functions. The sensory cortex.
Dr. Buzás Péter
23 Pain mechanism. Opiate recptors.
Dr. Buzás Péter
24 Optics of vision, refractory errors of the eye. Retinal mechanisms.
Dr. Cziger-Nemes Vanda Ágnes
25 Visual pathways, midbrain mechanism of vision. Central mechanism of vision.
Dr. Cziger-Nemes Vanda Ágnes
26 Eye movements and their control.
Dr. Cziger-Nemes Vanda Ágnes
27 Physiology of hearing. Central auditory mechanisms.
Dr. Buzásné Dr. Telkes Ildikó
28 The chemical senses. Olfaction. Taste.
Dr. Szabó István
29 The autonomic nervous system.
Dr. Környei József László
30 Electroencephalography. Clinical importance of the evoked potential technique.
Dr. László Kristóf
31 Neural control mechanism of sleep. Control of biological rhythms.
Dr. László Kristóf
32 The diencephalon (hypothalamus). Its motor, autonomic and hormonal regulatory functions.
Dr. Ollmann Tamás
33 The concept of drive and motivation. The limbic system.
Dr. László Kristóf
34 Homeostatic drives. Central neural regulation of hunger and thirst.
Dr. Szabó István
35 Monoaminergic systems and their functions. I.
Péczely László Zoltán
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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36 Monoaminergic systems and their functions. II.
Péczely László Zoltán
37 Emotions and their central nervous mechanism.
Dr. Ollmann Tamás
38 Mechanism of learning.
Péczely László Zoltán
39 Types and disorders of memory functions.
Péczely László Zoltán
40 Plasticity of the peripheral and central nervous system.
Dr. Varga Csaba
41 Functions of the frontal lobe. The parieto-temporal lobe.
Dr. László Kristóf
42 Cerebral hemisphere dominance. Neurophysiological mechanisms of speech. Speech disorders.
Dr. László Kristóf
Practices
Seminars
Exam topics/questions
The criterion of admission to the exam is the successful completion of the practice carried out in paralell (midsemester grade with the
result different from “failed”).
Topics of questions for the theoretical examination
1. Describe the body fluid compartments and explain the methods used for measurement of body fluid volumes
2. Describe the major plasma proteins and the other non-electrolytic constituents of blood and explain their function in the body
3. Describe the intra- and extracellular ionic components and explain their physiological functions
4. The structure, function and origin of erythrocytes
5. Characterize the various leukocytes indicating their origins and functions
6. Origin and function of blood platelets
7. The basic structure and metabolism of haemoglobin and the metabolism of iron
8. Describe the two pathways involved in the initiation of blood coagulation
9. Specific mechanism of clot formation
10. Describe the mechanism of fibrinolysis. Explain the significance of anticlotting mechanism
11. Regulation of H+ ion concentration in the blood
12. A-B-0 blood groups. The Rh blood types
13. The role of leukocytes in the defence mechanism
14. Mechanical activity of the heart and the three-component model of heart muscle. Calcium ion movements within the cardiac muscle cell
15. Generators and conductors of impulses in the heart. Refractory periods
16. The sequence of events in the cardiac cycle
17. The human electrocardiogram (ECG). Electrocardiography: bipolar and unipolar leads
18. The heart sounds. Phonocardiography (PCG)
19. Cardiac output: measurement, normal standards and physiological variations
20. Metabolism and energetics of cardiac muscle
21. Ventricular wall tension and the Laplace relationship
22. The heart-lung preparation (Starling’s laws)
23. Arterial blood pressure: determinants of normal arterial blood pressure
24. The arterial and the venous pulse. Basic principles of hemodynamics.
25. Circulation through the capillaries
26. The properties, production and the movement of lymph
27. Circulation in the vein. Effect of gravity on circulation
28. The pulmonary circulation. Control of lung vessels
29. The coronary circulation
30. Cerebral circulation. The concept of blood-brain barrier
31. Splanchnic circulation
32. Skeletal muscle circulation. Cutaneous circulation
33. Nervous control of the heart
34. Control mechanisms of the circulatory system: general considerations
35. Local control of the vascular smooth muscle
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36. Autoregulation of blood flow in tissues and organs
37. The function and importance of baroreceptors in the regulation of circulation
38. Reflex control mechanisms of circulation
39. Mechanisms of vasoconstriction and vasodilatation
40. Mechanics of respiration (functions of respiratory muscles, compliance, intrathoracic pressures, respiratory volumes)
41. Alveolar air, alveolar ventilation, dead spaces. Function of the respiratory passageways
42. Gaseous exchange in the lungs and tissues
43. O2 and CO2 transport in the body
44. Peripheral and central regulatory mechanisms of respiration. Respiratory reflexes
45. Chemical control of respiration. Acidosis, alkalosis
46. Different types of hypoxia. Oxygen treatment. Mechanisms of acclimatisation. Nitrogen narcosis. Decompression sickness
47. Describe the origin, composition, function and control of salivary secretion
48. Describe the origin, nature and function of gastric secretion indicating the mechanisms of regulation
49. Mechanism and regulation of gastrointestinal movements
50. Identify the pancreatic secretions, their components, their action and the substrates on which they act. Control mechanism of
pancreatic secretion
51. Describe the basic ingredients and functions of the bile indicating the origin and fate of the components and the factors controlling
bile secretions and gall bladder functions
52. Identify the components and functions of the intestinal system
53. Describe how carbohydrate is digested and absorbed indicating the enzymes involved
54. Describe how fat is digested and absorbed indicating the enzymes and secretions involved
55. Describe how protein is digested and absorbed indicating the enzymes and secretions involved
56. Dynamics of glomerular filtration. Glomerular filtration rate. Plasma clearance
57. Renal blood flow. Clearance of PAH. Extraction ratio. Filtration fraction
58. Regulation of renal blood flow and pressure. Renin-angiotensin system
59. Reabsorption and secretion of different substances in the renal tubule. Methods for their investigation
60. Concentrating and diluting mechanisms of the kidney
61. Fluid volume regulation of the body
62. Regulation of concentrations of ions in the extracellular fluid. Regulation of osmolality of body fluids
63. Basal metabolic rate. Describe factors influencing the basal metabolism
64. Define metabolic rate explaining those factors influencing the total expenditure of energy by the body
65. Describe the necessary elements of normal diet
66. The normal body temperature and its physiological variations. Hyperthermia, fever, hypothermia
67. Chemical regulation of body temperature, changes of regulation at low and high environmental temperature
68. Physical regulation of body temperature, changes of regulation at low and high environmental temperature
69. Central regulatory mechanisms of heat production and heat loss
70. Mechanisms of hormone action (receptors, intracellular mediators, cAMP, Ca2+ and diacylglycerol, protein kinases)
71. Mechanism of hormonal regulation. Negative and positive feedback controls in the endocrine system
72. The anterior pituitary hormones. Regulation of pituitary hormone secretions. Pituitary dysfunction
73. Function of growth hormone during development and after adolescence
74. Abnormalities of thyroid secretion. Goitrogens
75. Function of the thyroid gland. Iodine metabolism in the body
76. Hormonal changes during menstrual cycle
77. Hormonal changes during pregnancy. Role of placenta in pregnancy. Foeto-placental unit
78. Hormones of lactation
79. Mechanism of erection and ejaculation. The sexual act (coitus)
80. The function of testis, epididymis, seminal vesicle and prostate
81. Regulation of the sexual behaviour. Maternal behaviour
82. Physiological changes at puberty and climacteric
83. Vasopressin and oxytocin. Function of ANH (atrionatriuretic hormone)
84. The effects of prostaglandins
85. The endocrine pancreas
86. Function of insulin in the body. Diabetes mellitus
87. Hormonal control of carbohydrate metabolism
88. Hormonal control of calcium and phosphor homeostasis
89. Hormonal function of the adrenocortical system. Hypophyseal regulation of the adrenocortical system. Stress and the adaptation
syndrome
90. Function and regulation of mineralocorticoids
91. Function and regulation of glucocorticoids
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92. Consequences of hypo- and hyperfunction of the adrenal cortex. Androgens and oestrogens of the adrenal cortex.
93. Hormones of the adrenal medulla. Importance of the sympathoadrenal system
94. Physiology of ontogenesis and ageing.
95. Molecular mechanism of muscle contraction. The regulatory role of calcium ion
96. Mechanical characteristics of muscle. Differentiation of fast and slow twitch muscle fibres. Role of the connective tissue in the
function of muscles
97. Mechanism of fatigue
98. Electromyography (EMG)
99. The source of energy for muscle contraction (aerobe and anaerobe processes). Heat production during contraction-relaxation cycle
100. The neuromuscular junction
101. Structural and functional differences between skeletal and smooth muscles. Mechanism of smooth muscle contraction
102. Membrane potential and action potential: explain their ionic mechanisms. Membrane properties of CNS neurons
103. The compound action potential. Conductive properties of various nerve fibres
104. Neurochemistry of synapses, neurotransmitters, postsynaptic receptors and neuromodulators. EPSP, IPSP
105. The myotatic (stretch) reflex. Gamma motoneurons
106. The motor units. Central control of muscle contractions
107. Types of mechanoreceptors and their role in motor control
108. How do cutaneous mechanoreceptors help to explore, learn and know our environment?
109. Somatosensory mechanisms of spinal cord and brain stem
110. Pain mechanisms, central and peripheral components
111. Descendent control (gating) of nociception and of pain reactions
112. Organisation of primary somatosensory cortex, thalamocortical projection and somatotopy
113. The human electroencephalogram (EEG). Evoked potential (EP) technique
114. Neural mechanisms of sleep and correlated somatic, autonomic and bioelectrical phenomena. The role of reticular formation in the
sleep-wakefulness cycle
115. The diencephalon (hypothalamus), its motor, autonomic and hormonal regulatory function
116. Hunger and thirst. Central regulatory processes of food and water intake
117. Central mechanisms of locomotion
118. Decerebration rigidity and spinal shock (symptoms and mechanisms)
119. Postural and righting reflexes, their central mechanisms and localisation within the spinal cord, brain stem and neocortex
120. Structure and function of the extrapyramidal system
121. Symptoms after damages of different extrapyramidal structures. Role of neurotransmitters in the extrapyramidal functions
122. Importance of the cerebellum in co-ordination of movements
123. Cerebellar cortical mechanisms
124. Structure and function of the vestibular system
125. Functions of the autonomic nervous system. Autonomic reflexes
126. Humoral mediators in the autonomic nervous system. Adrenergic, cholinergic and opioid receptors
127. Structures, connections and functions of the limbic system
128. Functions of the motor cortex. Symptoms following its damage
129. Corticospinal (pyramidal) system. Consequences of lesions of the pyramidal pathways and the peripheral motoneuron
130. The concept of drive and motivation. Their integrated neural mechanisms. Reticular activating system
131. Emotions and their central nervous mechanisms
132. The phenomena of operant (instrumental) and classical (Pavlovian) conditioning. Mechanism of reinforcement
133. Electrical and chemical self-stimulation. Rewarding (positive) and punishing (negative) reinforcement. Simple learning processes.
Exceptional forms of conditioning
134. Types and disorders of memory functions
135. Cerebral dominance. Lateralisation of functions in the hemispheres. Split-brain examinations
136. Functions of the parietal and temporal association (intrinsic) areas of the neocortex. Symptoms after damages (apraxia, agnosia)
137. Neurophysiological mechanisms of speech. Speech disorders
138. Functions of the frontal lobe (prefrontal intrinsic area)
139. Functions of the temporal lobe (Kluver-Bucy syndrome)
140. Central monoaminergic systems and their functional significance
141. Peripheral auditory mechanisms (conductive apparatus and cochlea)
142. Central auditory pathways, acoustic cortex and related mechanisms
143. Physiological optics
144. The retina. Photoreceptors and neuronal functions in the retina
145. Central visual pathways, the visual cortex and their functions
146. Colour vision. Stereoscopic vision
147. Peripheral and central mechanisms of olfaction
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148. Peripheral and central mechanisms of sensation of taste
149. Plasticity in the nervous system. Consequences of sensory deprivation in the visual cortex. Ageing. Transplantation
Questions for the student lab report:
1. Examination of oestrus cycle in rat
2. Different tests of pregnancy
3. Determination of human blood glucose level
4. Direct and indirect stimulation of nerve-muscle preparation;
5. Recording of a twitch contraction; Effects of repetitive stimulation muscles (complete and incomplete tetanus)
6. Effect of load on muscular contraction
7. Examination of fatigue in nerve-muscle preparation and on humans
8. Electromyographic registration methods (EMG)
9. Measurement of conduction velocity
10. Recording of a compound action potential of peripheral nerve trunks
11. The law of polar excitation
12. Demonstration of the Pflüger”s law
13. Measurement of rheobase and chronaxy
14. Effect of narcosis on peripheral nerves
15. Examination of reflexes in a frog (intact and spinal animal)
16. Examination of reflexes in the human
17. Stereotaxic technique
18. Reflex time, reaction time and action time
19. Electroencephalogram (EEG)
20. Measurement of visual acuity
21. Refractive errors and their corrections
22. Measurement of astigmia
23. Examination of pupil reactions
24. Perimetry
25. Examination of colour weakness and colour blindness
26. Audiometry
Study material for the final exam is the sum total of information covered in the obligatory textbook, on the homepage of the Institute, as
well as knowledge given at the lectures and lab practices.
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPO-H2G-T HUMAN PHYSIOLOGY 2 - PRACTICE
Course director: DR. ISTVÁN MIKLÓS ÁBRAHÁM, professor
Institute of Physiology [email protected]
2 credit ▪ midsemester grade ▪ Med.-biol. theoretical module and practical skills module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 28 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 5 – 999 Prerequisites: see your Recommended Curriculum
Topic
The most important mission of the Physiology Course in medical education is to familiarize students with the attributes of healthy
functions of the living organism.
While acquiring knowledge about the most important functional characteristics of the human body the students can rely on their prior
studies in biology, biophysics, chemistry-biochemistry and anatomy.
During the semester we introduce the most important elements of functioning of the organs and organ systems, as well as their cooperation
also required to adapting to the environment, and the factors affecting these processes.
Special emphasis is placed on the neural and humoral regulatory processes of these life-functions, which are vital to maintain and preserve
the homeostasis of the organism.
With the transfer of all this knowledge we would like to mould a holistic attitude and thinking of students, which will enable them to
better understand the functions of the now healthy, however, later dysfunctional human organism.
Conditions for acceptance of the semester
Maximum of 15 % absence allowed
Mid-term exams
Written test on the 11th week Friday at 16:00.
Making up for missed classes
The missed lab practice is advised to be covered by joining another group while the same topic is on schedule.
Reading material
- Obligatory literature
J.E. Hall: Guyton and Hall Textbook of Medical Physiology, 12th edition, 2013
- Literature developed by the Department
Figures of the lectures given are available on the homepage of Institute of Physiology and on the Neptun Meet Street.
Important messages on new information will be announced at the lectures and will be sent to you by course mails.
Please always find the current updated information and study materials on the homepage of the Institute of Physiology
(physiology.aok.pte.hu).
- Notes
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practices 2, internet study material, printable notebook, 2016
Homepage of PTE ÁOK Institute of Physiology: Physiology Lab Practice Worksheets 2, internet study material, printable notebook, 2016
- Recommended literature
L.S. Costanzo: Physiology, 5th edition, 2014
W.F. Ganong: Review of Medical Physiology, 2012, Appleton and Lange, Lange Medical Publications
Fonyó: Principles of Medical Physiology, Medicina Publishing, 2002
J.B. West (ed.): Best and Taylor’s Physiological Basis of Medical Practice, Williams and Wilkins, 1998
Lectures
Practices
1 The endocrine pancreas.
2 The endocrine pancreas.
3 Reproduction.
4 Reproduction.
5 Peripheral nervous system I.
6 Peripheral nervous system I.
7 Peripheral nervous system II.
8 Peripheral nervous system II.
9 Seminar: Endocrinology, Peripheral nerve, Membrane potential, Action potential, Synaptic transmission.
10 Student report (test).
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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11 Experiments on muscles.
12 Experiments on muscles.
13 Electromyography, Examination of fatigue.
14 Electromyography, Examination of fatigue.
15 Examination of reflexes.
16 Examination of reflexes.
17 Central nervous system.
18 Central nervous system.
19 Seminar: Muscle and reflexes.
20 Student report (test).
21 Sensory organs I.
22 Sensory organs I.
23 Sensory organs II.
24 Sensory organs II.
25 Electroencephalography in humans.
26 Electroencephalography in humans.
27 Student lab report.
28 Student lab report.
Seminars
Exam topics/questions
Topics of questions for the theoretical examination
1. Describe the body fluid compartments and explain the methods used for measurement of body fluid volumes
2. Describe the major plasma proteins and the other non-electrolytic constituents of blood and explain their function in the body
3. Describe the intra- and extracellular ionic components and explain their physiological functions
4. The structure, function and origin of erythrocytes
5. Characterize the various leukocytes indicating their origins and functions
6. Origin and function of blood platelets
7. The basic structure and metabolism of haemoglobin and the metabolism of iron
8. Describe the two pathways involved in the initiation of blood coagulation
9. Specific mechanism of clot formation
10. Describe the mechanism of fibrinolysis. Explain the significance of anticlotting mechanism
11. Regulation of H+ ion concentration in the blood
12. A-B-0 blood groups. The Rh blood types
13. The role of leukocytes in the defence mechanism
14. Mechanical activity of the heart and the three-component model of heart muscle. Calcium ion movements within the cardiac muscle cell
15. Generators and conductors of impulses in the heart. Refractory periods
16. The sequence of events in the cardiac cycle
17. The human electrocardiogram (ECG). Electrocardiography: bipolar and unipolar leads
18. The heart sounds. Phonocardiography (PCG)
19. Cardiac output: measurement, normal standards and physiological variations
20. Metabolism and energetics of cardiac muscle
21. Ventricular wall tension and the Laplace relationship
22. The heart-lung preparation (Starling’s laws)
23. Arterial blood pressure: determinants of normal arterial blood pressure
24. The arterial and the venous pulse. Basic principles of hemodynamics.
25. Circulation through the capillaries
26. The properties, production and the movement of lymph
27. Circulation in the vein. Effect of gravity on circulation
28. The pulmonary circulation. Control of lung vessels
29. The coronary circulation
30. Cerebral circulation. The concept of blood-brain barrier
31. Splanchnic circulation
32. Skeletal muscle circulation. Cutaneous circulation
33. Nervous control of the heart
34. Control mechanisms of the circulatory system: general considerations
35. Local control of the vascular smooth muscle
36. Autoregulation of blood flow in tissues and organs
37. The function and importance of baroreceptors in the regulation of circulation
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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38. Reflex control mechanisms of circulation
39. Mechanisms of vasoconstriction and vasodilatation
40. Mechanics of respiration (functions of respiratory muscles, compliance, intrathoracic pressures, respiratory volumes)
41. Alveolar air, alveolar ventilation, dead spaces. Function of the respiratory passageways
42. Gaseous exchange in the lungs and tissues
43. O2 and CO2 transport in the body
44. Peripheral and central regulatory mechanisms of respiration. Respiratory reflexes
45. Chemical control of respiration. Acidosis, alkalosis
46. Different types of hypoxia. Oxygen treatment. Mechanisms of acclimatisation. Nitrogen narcosis. Decompression sickness
47. Describe the origin, composition, function and control of salivary secretion
48. Describe the origin, nature and function of gastric secretion indicating the mechanisms of regulation
49. Mechanism and regulation of gastrointestinal movements
50. Identify the pancreatic secretions, their components, their action and the substrates on which they act. Control mechanism of
pancreatic secretion
51. Describe the basic ingredients and functions of the bile indicating the origin and fate of the components and the factors controlling
bile secretions and gall bladder functions
52. Identify the components and functions of the intestinal system
53. Describe how carbohydrate is digested and absorbed indicating the enzymes involved
54. Describe how fat is digested and absorbed indicating the enzymes and secretions involved
55. Describe how protein is digested and absorbed indicating the enzymes and secretions involved
56. Dynamics of glomerular filtration. Glomerular filtration rate. Plasma clearance
57. Renal blood flow. Clearance of PAH. Extraction ratio. Filtration fraction
58. Regulation of renal blood flow and pressure. Renin-angiotensin system
59. Reabsorption and secretion of different substances in the renal tubule. Methods for their investigation
60. Concentrating and diluting mechanisms of the kidney
61. Fluid volume regulation of the body
62. Regulation of concentrations of ions in the extracellular fluid. Regulation of osmolality of body fluids
63. Basal metabolic rate. Describe factors influencing the basal metabolism
64. Define metabolic rate explaining those factors influencing the total expenditure of energy by the body
65. Describe the necessary elements of normal diet
66. The normal body temperature and its physiological variations. Hyperthermia, fever, hypothermia
67. Chemical regulation of body temperature, changes of regulation at low and high environmental temperature
68. Physical regulation of body temperature, changes of regulation at low and high environmental temperature
69. Central regulatory mechanisms of heat production and heat loss
70. Mechanisms of hormone action (receptors, intracellular mediators, cAMP, Ca2+ and diacylglycerol, protein kinases)
71. Mechanism of hormonal regulation. Negative and positive feedback controls in the endocrine system
72. The anterior pituitary hormones. Regulation of pituitary hormone secretions. Pituitary dysfunction
73. Function of growth hormone during development and after adolescence
74. Abnormalities of thyroid secretion. Goitrogens
75. Function of the thyroid gland. Iodine metabolism in the body
76. Hormonal changes during menstrual cycle
77. Hormonal changes during pregnancy. Role of placenta in pregnancy. Foeto-placental unit
78. Hormones of lactation
79. Mechanism of erection and ejaculation. The sexual act (coitus)
80. The function of testis, epididymis, seminal vesicle and prostate
81. Regulation of the sexual behaviour. Maternal behaviour
82. Physiological changes at puberty and climacteric
83. Vasopressin and oxytocin. Function of ANH (atrionatriuretic hormone)
84. The effects of prostaglandins
85. The endocrine pancreas
86. Function of insulin in the body. Diabetes mellitus
87. Hormonal control of carbohydrate metabolism
88. Hormonal control of calcium and phosphor homeostasis
89. Hormonal function of the adrenocortical system. Hypophyseal regulation of the adrenocortical system. Stress and the adaptation
syndrome
90. Function and regulation of mineralocorticoids
91. Function and regulation of glucocorticoids
92. Consequences of hypo- and hyperfunction of the adrenal cortex. Androgens and oestrogens of the adrenal cortex.
93. Hormones of the adrenal medulla. Importance of the sympathoadrenal system
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
55
94. Physiology of ontogenesis and ageing.
95. Molecular mechanism of muscle contraction. The regulatory role of calcium ion
96. Mechanical characteristics of muscle. Differentiation of fast and slow twitch muscle fibres. Role of the connective tissue in the
function of muscles
97. Mechanism of fatigue
98. Electromyography (EMG)
99. The source of energy for muscle contraction (aerobe and anaerobe processes). Heat production during contraction-relaxation cycle
100. The neuromuscular junction
101. Structural and functional differences between skeletal and smooth muscles. Mechanism of smooth muscle contraction
102. Membrane potential and action potential: explain their ionic mechanisms. Membrane properties of CNS neurons
103. The compound action potential. Conductive properties of various nerve fibres
104. Neurochemistry of synapses, neurotransmitters, postsynaptic receptors and neuromodulators. EPSP, IPSP
105. The myotatic (stretch) reflex. Gamma motoneurons
106. The motor units. Central control of muscle contractions
107. Types of mechanoreceptors and their role in motor control
108. How do cutaneous mechanoreceptors help to explore, learn and know our environment?
109. Somatosensory mechanisms of spinal cord and brain stem
110. Pain mechanisms, central and peripheral components
111. Descendent control (gating) of nociception and of pain reactions
112. Organisation of primary somatosensory cortex, thalamocortical projection and somatotopy
113. The human electroencephalogram (EEG). Evoked potential (EP) technique
114. Neural mechanisms of sleep and correlated somatic, autonomic and bioelectrical phenomena. The role of reticular formation in the
sleep-wakefulness cycle
115. The diencephalon (hypothalamus), its motor, autonomic and hormonal regulatory function
116. Hunger and thirst. Central regulatory processes of food and water intake
117. Central mechanisms of locomotion
118. Decerebration rigidity and spinal shock (symptoms and mechanisms)
119. Postural and righting reflexes, their central mechanisms and localisation within the spinal cord, brain stem and neocortex
120. Structure and function of the extrapyramidal system
121. Symptoms after damages of different extrapyramidal structures. Role of neurotransmitters in the extrapyramidal functions
122. Importance of the cerebellum in co-ordination of movements
123. Cerebellar cortical mechanisms
124. Structure and function of the vestibular system
125. Functions of the autonomic nervous system. Autonomic reflexes
126. Humoral mediators in the autonomic nervous system. Adrenergic, cholinergic and opioid receptors
127. Structures, connections and functions of the limbic system
128. Functions of the motor cortex. Symptoms following its damage
129. Corticospinal (pyramidal) system. Consequences of lesions of the pyramidal pathways and the peripheral motoneuron
130. The concept of drive and motivation. Their integrated neural mechanisms. Reticular activating system
131. Emotions and their central nervous mechanisms
132. The phenomena of operant (instrumental) and classical (Pavlovian) conditioning. Mechanism of reinforcement
133. Electrical and chemical self-stimulation. Rewarding (positive) and punishing (negative) reinforcement. Simple learning processes.
Exceptional forms of conditioning
134. Types and disorders of memory functions
135. Cerebral dominance. Lateralisation of functions in the hemispheres. Split-brain examinations
136. Functions of the parietal and temporal association (intrinsic) areas of the neocortex. Symptoms after damages (apraxia, agnosia)
137. Neurophysiological mechanisms of speech. Speech disorders
138. Functions of the frontal lobe (prefrontal intrinsic area)
139. Functions of the temporal lobe (Kluver-Bucy syndrome)
140. Central monoaminergic systems and their functional significance
141. Peripheral auditory mechanisms (conductive apparatus and cochlea)
142. Central auditory pathways, acoustic cortex and related mechanisms
143. Physiological optics
144. The retina. Photoreceptors and neuronal functions in the retina
145. Central visual pathways, the visual cortex and their functions
146. Colour vision. Stereoscopic vision
147. Peripheral and central mechanisms of olfaction
148. Peripheral and central mechanisms of sensation of taste
149. Plasticity in the nervous system. Consequences of sensory deprivation in the visual cortex. Ageing. Transplantation
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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Questions for the student lab report:
1. Examination of oestrus cycle in rat
2. Different tests of pregnancy
3. Determination of human blood glucose level
4. Direct and indirect stimulation of nerve-muscle preparation;
5. Recording of a twitch contraction; Effects of repetitive stimulation muscles (complete and incomplete tetanus)
6. Effect of load on muscular contraction
7. Examination of fatigue in nerve-muscle preparation and on humans
8. Electromyographic registration methods (EMG)
9. Measurement of conduction velocity
10. Recording of a compound action potential of peripheral nerve trunks
11. The law of polar excitation
12. Demonstration of the Pflüger”s law
13. Measurement of rheobase and chronaxy
14. Effect of narcosis on peripheral nerves
15. Examination of reflexes in a frog (intact and spinal animal)
16. Examination of reflexes in the human
17. Stereotaxic technique
18. Reflex time, reaction time and action time
19. Electroencephalogram (EEG)
20. Measurement of visual acuity
21. Refractive errors and their corrections
22. Measurement of astigmia
23. Examination of pupil reactions
24. Perimetry
25. Examination of colour weakness and colour blindness
26. Audiometry
Study material for the final exam is the sum total of information covered in the obligatory textbook, on the homepage of the Institute, as
well as knowledge given at the lectures and lab practices.
Participants
Kovács Anita (ML3CO0), Tóth Attila (NIPDHB)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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ATT4-T PHYSICAL EDUCATION 4
Course director: ISTVÁN KARSAI, senior lecturer
UP MS Sports Facilities [email protected]
0 credit ▪ signature ▪ Criterion requirement module ▪ both semesters ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 28 practices + 0 seminars = total of 28 hours
Course headcount limitations (min.-max.): 2 – 50 Prerequisites: see your Recommended Curriculum
The subject can only be registered in case of a PASSED and valid health aptitude test!
Topic
This subject provides theoretical and practical information for the students to maintain and improve their physical condition and helps to
deepen the knowledge in the field of healthy lifestyle.
Theoretical and practical knowledge during different types of exercises e.g. how to improve endurance, muscle force, motor skills and
how to prevent the body from injuries.
Conditions for acceptance of the semester
Active participation at least 20 practical lessons provided by the Institute of Human Movement Sciences or regular participation of the
trainings of the Medikus Sport Club or PEAC.
Mid-term exams
Making up for missed classes
We provide opportunities to attend extra lessons in the first week of the exam period in that case the requirements are not fulfilled till the
end of the teaching weeks with agreement of the PE Teacher.
Reading material
- Obligatory literature
- Literature developed by the Department
Not available.
- Notes
- Recommended literature
Lectures
Practices
1-28 For the list of actual courses please turn to the end of this document
Seminars
Exam topics/questions
Participants
Farkas György (CL1MIY), Lipcsik Zoltán (EGE1AE), Németh Attila Miklós (EXB7TD), Téczely Tamás (P0OP8M)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
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OPR-HUF-O-T FINAL EXAMINATION IN HUNGARIAN PHARMACEUTICAL TERMINOLOGY - ORAL
Course director: DR. VILMOS WARTA, associate professor
Department of Languages for Specific Purposes [email protected]
0 credit ▪ signature ▪ Criterion requirement module ▪ both semesters ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 0 practices + 0 seminars = total of 0 hours
Course headcount limitations (min.-max.): 1 – 400 Prerequisites: see your Recommended Curriculum
Topic
Exam of Pharmaceutical Hungarian language skills required for the pharmaceutical practice.
Conditions for acceptance of the semester
Mid-term exams
Making up for missed classes
Reading material
- Obligatory literature
- Literature developed by the Department
- Notes
- Recommended literature
Exam topics/questions
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
59
OPR-HUF-W-T FINAL EXAMINATION IN HUNGARIAN PHARMACEUTICAL TERMINOLOGY - WRITTEN
Course director: DR. VILMOS WARTA, associate professor
Department of Languages for Specific Purposes [email protected]
0 credit ▪ signature ▪ Criterion requirement module ▪ both semesters ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 0 practices + 0 seminars = total of 0 hours
Course headcount limitations (min.-max.): 1 – 400 Prerequisites: see your Recommended Curriculum
Topic
Exam of Pharmaceutical Hungarian language skills required for the pharmaceutical practice.
Conditions for acceptance of the semester
Mid-term exams
Making up for missed classes
Reading material
- Obligatory literature
- Literature developed by the Department
- Notes
- Recommended literature
Exam topics/questions
Participants
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
60
OPR-SG1-T PROFESSIONAL PRACTICE 1
Course director: DR. ANDRÁS TAMÁS FITTLER, associate professor
Department of Pharmaceutics and University Pharmacy [email protected]
0 credit ▪ signature ▪ Criterion requirement module ▪ spring semester ▪ recommended semester: 4
Number of hours/semester: 0 lectures + 160 practices + 0 seminars = total of 160 hours
Course headcount limitations (min.-max.): 1 – 70 Prerequisites: see your Recommended Curriculum
The subject can only be registered in case of a PASSED and valid health aptitude test!
Topic
After the 4. semester the students should complete a summer professional practice in a community pharmacy and hospital pharmacy
(host institution) to acquire the basic knowledge regarding the pharmaceutical supply and care in these settings. After the completion of
the professional practice the student will be able to recall the personal and objective criteria, the operation and procedures of the
community or hospital pharmacy.
Furthermore the professional practice can be completed in a pharmaceutical company, pharmaceutical wholesaler or foreign (non
Hungarian) units equivalent to these. To fulfill the professional practice in abroad the student should submit a written request to the
course director until the deadline of the application for professional practice. In case of spending the professional practice abroad it is
advisable for the students to spend 2 weeks in a Hungarian pharmacy to earn experiences regarding the Hungarian pharmacies.
It is possible to complete the 4 weeks of the professional practice in two practice sites in consecutive 2-2 weeks. The application form,
syllabus and certificate of the completion of the professional practice are available from the website of the Registrar’s Office.
The accreditation of the professional practice site (pharmacy) is advisable but not a mandatory requirement for professional practice 1.
and 2.
The duration of the professional practice is 4 weeks, 8 hours daily, of which 2 hours may be spent on individual preparation and study.
During the professional practice attendance should be recorded on an attendance sheet, which is available from the website of the
Registrar’s Office. The requirement regarding the opening hours of the pharmacy is 8 hours daily. The student should work under the
supervision of the supervisor pharmacist or the deputy pharmacist during the whole practice and preparing a record daily of his or her
work.
The record of the practice is accepted by the course director. The record should include written notes of daily practice/activity,
furthermore the topics listed in the syllabus and the completion of 2 related professional problems described in minimum 400 words of
each. After the completion of the professional practice the student can evaluate the professional practice site and the supervisor
pharmacist.
Conditions for acceptance of the semester
Before starting the professional practice student should have a semester acceptance of Basic Principles of Pharmacy. Student should
transmit the attendance sheet, record of practice and the completion of the professional practice to the acceptance of the professional
practice. At the end of the professional practice the supervisor pharmacist or the deputy pharmacist evaluates the performance of the
student in a three-grade evaluation with written summary. The student is responsible to fulfill the administrative criteria set by the
Registrar’s Office.
Mid-term exams
The duration of the professional practice is 4 weeks, 8 hours daily, of which 2 hours may be spent on individual preparation and study.
During the professional practice attendance should be recorded on an attendance sheet, which is available from the website of the
Registrar’s Office. The requirement regarding the opening hours of the pharmacy is 8 hours daily. The student should work under the
supervision of the supervisor pharmacist or the deputy pharmacist during the whole practice and preparing a record daily of his or her
work.
The organization and reconciliation of the place and time of the professional practice is the responsibility of the student. Before starting
the professional practice the student should fill the acceptance letter for professional practice form and collect signatures of supervisor
pharmacist and the leader or head of the professional practice site (pharmacy, company) and pass to the Registrar’s Office until the last
day of April.
Making up for missed classes
The absence during the professional practice should be covered with a certificate (e.g.: in case of illness) to the supervisor pharmacist
and course director and should make up during the period of the professional practice. In case of health problems the professional practice
can be divided into 2-2 weeks.
Reading material
- Obligatory literature
White coat, Protective shoes
- Literature developed by the Department
- Notes
Pharmaceutical Propedeutic, Basic Principles of Pharmacy,
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
61
- Recommended literature
European Pharmacopoeia
Pharmacopoeia Hungarica
Hungarian National Formulary: Formulae Normales VII (FoNo VII)
Compendium
Lectures
Practices
1-160 see under Exam topics/questions
Seminars
Exam topics/questions
COMMUNITY PHARMACY
1. The role of professionals working in the pharmacy.
2. The premises and objective criteria of the pharmacy.
3. Knowledge and skills regarding the storage and inventory: temperature and environment, strength and cross signs
4. Handling weighs, pharmacy tools and machines.
5. Getting familiar with the chemical substances and herbs.
6. Packaging and labelling.
7. Basic skills of pharmaceutical technology (measurement, sifting, mixing of powders, dilution, calculation of solution concentration,
calculation of doses).
8. Getting to know workflows and occupational safety regulations.
9. Getting to know pharmaceutical manuals and professional journals.
PHARMACEUTICAL INDUSTRY
10. The role of pharmaceutical company in the drug supply chain.
11. The organogram and key personnel of pharmaceutical company.
12. The Good Manufacturing Practice (GMP): regulations and application.
13. Participating in the manufacturing process.
14. Getting familiar with the operation and role of Quality Assurance and Quality Control.
15. The role of microbiology in the pharmaceutical company.
16. Special operation characteristics of a pharmaceutical company.
HOSPITAL - CLINICAL PHARMACY
17. The specialties of the hospital pharmacy compounding.
18. Sterile and non-sterile medium-sized pharmacy compounding, individualized formulas.
19. Pharmaceutical informatics in the hospital and hospital pharmacy.
20. Financing of the hospital care and drug expenditures.
21. Ordering, procurement and stockpiling of medicines in hospital pharmacy and wards. Medication management.
22. Therapeutic consultation.
23. Getting familiar with the operation and role of Quality Assurance and Quality Control.
24. Communication with patients and professionals in hospital pharmacy setting.
Participants
Dr. Bella Richárd (IL65ZJ), Dr. Fittler András Tamás (IYR5HQ)
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
62
ATT1..4-T PHYSICAL EDUCATION 1-4 COURSES
Course director: ISTVÁN KARSAI, senior lecturer
UP MS Sports Facilities [email protected]
course code title (Physical Education - …) day from to min max room ID room teacher
ATT-AER-H1800 Aerobics Monday 18:00 19:00 2 8 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Szilárdné Kordély Erika
ATT-AER-K2030 Aerobics Tuesday 20:30 21:30 2 8 AOK-SPO-FIT FITNEXX Premium (Pécs, Jászai Mari u. 2,) Solt Edit
ATT-AER-S1800 Aerobics Wednesday 18:00 19:00 2 8 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Szilárdné Kordély Erika
ATT-AER-C1800 Aerobics Thursday 18:00 19:00 2 8 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Szilárdné Kordély Erika
ATT-AER-C2030 Aerobics Thursday 20:30 21:30 4 8 AOK-SPO-FIT FITNEXX Premium (Pécs, Jászai Mari u. 2,) Solt Edit
ATT-ATH-H1700 Athletics Monday 17:00 18:30 1 8 AOK-SPO-ATP Faculty of Sciences - Athletics field (Ifjúság út 6.) Hajduné Dr. László Zita
ATT-ATH-S1600 Athletics Wednesday 16:00 17:30 1 8 AOK-SPO-ATP Faculty of Sciences - Athletics field (Ifjúság út 6.) Hajduné Dr. László Zita
ATT-TOL-C1630 Badminton Thursday 16:30 17:45 2 7 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Lipcsik Zoltán
ATT-KOF-C2200 Basketball (men) Thursday 22:00 23:30 4 20 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Németh Attila Miklós
ATT-KON-S1800 Basketball (women) Wednesday 18:00 19:30 2 6 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Németh Attila Miklós
ATT-AFX-K1500 Body Shaping Workout Tuesday 15:00 16:00 2 8 AOK-SPO-FIT FITNEXX Premium (Pécs, Jászai Mari u. 2,) Solt Edit
ATT-AFX-C1500 Body Shaping Workout Thursday 15:00 16:00 4 8 AOK-SPO-FIT FITNEXX Premium (Pécs, Jászai Mari u. 2,) Solt Edit
ATT-CJO-P1500 Cardio Yoga Friday 15:00 16:30 2 10 AOK-SZEA-EDZ Main Building training room Borsos-Ragács Renáta
ATT-POM-K2000 Cheerleading Tuesday 20:00 21:30 2 6 AOK-SPO-PSM Pécsi Sasok Sports Center (Búza tér 6/b.) Rill Laura
ATT-FAL-C1800 Climbing Thursday 18:00 19:30 2 6 AOK-SPO-PSM Pécsi Sasok Sports Center (Búza tér 6/b.) Némethné Tancsik Beáta
ATT-CTR-K1700 Cross Training Tuesday 17:00 18:00 2 4 AOK-SPO-SLF KószFit CrossGym (Mezőszél u. 1.) Kósz Gergely
ATT-DRNR-H1600 Dancing University Project -
Party Rock and Roll Monday 16:00 17:30 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Szauer Zoltán
ATT-DBAC-C2100 Dancing University Project -
Bachata Thursday 21:00 22:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Kovács Mónika
ATT-DTAR-K1900 Dancing University Project -
Ballroom Dancing Tuesday 19:00 20:30 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Dr. Papp Judit
ATT-DLST-K2030 Dancing University Project -
Ballroom Latin Dances Tuesday 20:30 22:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Józsa János
ATT-DHAS-C1800 Dancing University Project -
Belly Dance Thursday 18:00 19:30 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Indzsi Deniz
ATT-DAFE-S1730 Dancing University Project -
Body Shaping Dance Aerobics Wednesday 17:30 19:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Szalai Kata
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
63
course code title (Physical Education - …) day from to min max room ID room teacher
ATT-DHOR-K1730
Dancing University Project -
Croatian, Serbian and
Macedonian Dances
Tuesday 17:30 19:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Vélin Veszna
ATT-DSAL-C1930 Dancing University Project -
Cuban Salsa Thursday 19:30 21:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Kovács Mónika
ATT-DHIP-H1830 Dancing University Project - Hip-
hop Monday 18:30 20:00 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Horváth Tamás
ATT-DLFA-H1700 Dancing University Project -
Latin Freestyle Aerobics Monday 17:00 18:30 1 4 AOK-SPO-I6T Dance room (Ifjúság út 6.) Szabó Adrienn
ATT-LDR-P1330 Football Friday 13:30 15:00 6 15 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Kovács Zsófia
ATT-LDR-P1500 Football Friday 15:00 16:30 6 15 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Téczely Tamás
ATT-KLF-S2000 Handball (men) Wednesday 20:00 21:00 2 7 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Lipcsik Zoltán
ATT-KLN-H1900 Handball (women) Monday 19:00 20:30 2 7 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Némethné Tancsik Beáta
ATT-TJA Hiking (weekends, Mecsek) 2 10 Farkas György
ATT-LOV-V0900 Horse Riding (six times) Sunday 09:00 13:00 1 2 AOK-SPO-APL "Apró Paták" Riding School (Siklós, Postaszállás u.
11.) Lipcsik Zoltán
ATT-INT Instant tour in Qr code system 2 6 Benkő Pamlea
ATT-JGG-P1700 Jogging Friday 17:00 18:30 1 5 AOK-SPO-JSK outdoor handball court at Jakabhegyi út 6. Dr. Karsai István
ATT-KGO-H1900 Kangoo Monday 19:00 20:30 1 3 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Csák Magdolna
ATT-KAH-K2000 Karate advanced Tuesday 20:00 21:30 2 7 AOK-SZEA-EDZ Main Building training room József Kristóf
ATT-KAH-C2000 Karate advanced Thursday 20:00 21:30 2 7 AOK-SZEA-EDZ Main Building training room József Kristóf
ATT-KBX-P1900 Kick-box Friday 19:00 20:30 2 12 AOK-SZEA-EDZ Main Building training room Horváth László
ATT-MTH-P1600 Modern Dance Advanced Friday 16:00 17:00 2 4 Ifjúság út-SZT Faculty of Sciences gymnastics room (Ifjúság út 6.
Building A) Győrfi Attila
ATT-MTK-P1500 Modern Dance Beginner Friday 15:00 16:00 2 4 Ifjúság út-SZT Faculty of Sciences gymnastics room (Ifjúság út 6.
Building A) Győrfi Attila
ATT-NOW-S1730 Nordic Walking Wednesday 17:30 19:00 1 8 AOK-SPO-ATP Faculty of Sciences - Athletics field (Ifjúság út 6.) Farkas György
ATT-KSE Other sportclubs from Pécs
(with permission) 2 20 Dr. Karsai István
ATT-PEA PTE-PEAC (Sport Club) (with
permission) 2 20 Dr. Karsai István
ATT-SKF-H1900 Shaolin Kung Fu Monday 19:00 20:30 1 4 AOK-SPO-EP8 Elementary School "Éltes Mátyás" (Építők u. 8.) Bornemissza Gergely
ATT-SQU-P1630 Squash Friday 16:30 18:00 2 4 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Némethné Tancsik Beáta
ATT-USZ-K1200 Swimming Tuesday 12:00 13:30 1 4 AOK-SZEA-USZ Main Building swimming pool Kovács Zsófia
UP FP Pharmacy major – obligatory subjects of the 3-4. semester - Course descriptions – academic year of 2019/2020
64
course code title (Physical Education - …) day from to min max room ID room teacher
ATT-USZ-K1700 Swimming Tuesday 17:00 18:30 1 4 AOK-SPO-UIF Faculty of Sciences Swimming pool (Ifjúság út 6.) Kovács Zsófia
ATT-USZ-S1700 Swimming Wednesday 17:00 18:30 1 4 AOK-SPO-UIF Faculty of Sciences Swimming pool (Ifjúság út 6.) Kovács Zsófia
ATT-USZ-C1800 Swimming Thursday 18:00 19:00 1 6 AOK-SPO-UIF Faculty of Sciences Swimming pool (Ifjúság út 6.) Dr. Karsai István
ATT-USZ-P1330 Swimming Friday 13:30 15:00 3 15 AOK-SZEA-USZ Main Building swimming pool Farkas György
ATT-USZ-P1500 Swimming Friday 15:00 16:00 3 15 AOK-SZEA-USZ Main Building swimming pool Finak Gáborné Gombosi
Eszter Gyöngyi
ATT-ASZ-C1330 Table Tennis Thursday 13:30 15:00 4 16 AOK-SZEA-EDZ Main Building training room Finak Gáborné Gombosi
Eszter Gyöngyi
ATT-ASZ-C1500 Table Tennis Thursday 15:00 16:15 4 16 AOK-SZEA-EDZ Main Building training room Farkas György
ATT-ASZ-P1330 Table Tennis Friday 13:30 15:00 2 8 AOK-SZEA-EDZ Main Building training room Finak Gáborné Gombosi
Eszter Gyöngyi
ATT-TEN-H1800 Tennis Monday 18:00 19:00 2 6 AOK-SPO-MAT Makár Tanya (Középmakár dűlő 4.) Daróczi Balázs
ATT-TEN-K1700 Tennis Tuesday 17:00 18:00 2 3 AOK-SPO-MAT Makár Tanya (Középmakár dűlő 4.) Daróczi Balázs
ATT-KND-S1200 Training in the Gym Wednesday 12:00 13:30 2 10 AOK-SPO-GYM Professors' Gym (Megyeri út 4.) Lipcsik Zoltán
ATT-KND-P1200 Training in the Gym Friday 12:00 13:30 4 20 AOK-SPO-GYM Professors' Gym (Megyeri út 4.) Lipcsik Zoltán
ATT-KND-P1330 Training in the Gym Friday 13:30 15:00 4 20 AOK-SPO-GYM Professors' Gym (Megyeri út 4.) Némethné Tancsik Beáta
ATT-TRX-S1500 TRX-Aerobic Wednesday 15:00 16:00 3 8 AOK-SPO-FIT FITNEXX Premium (Pécs, Jászai Mari u. 2,) Solt Edit
ATT-ROF-S1630 Volleyball (men) Wednesday 16:30 18:00 2 7 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Pordán Áron
ATT-RON-K1630 Volleyball (women) Tuesday 16:30 18:00 2 7 AOK-SPO-TCS Sportshall at Jakabhegyi út (Jakabhegyi út 6.) Schrauff Júlia Aliz
ATT-JOG-V1800 Yoga Sunday 18:00 20:00 2 10 AOK-SPO-SOR Sörház 2nd floor (Xavér u. 19.) Kisföldi-Szabó Ágnes
ATT-ZUM-S1800 Zumba (fee payment necessary) Wednesday 18:00 19:00 2 16 AOK-SPO-FOR Fordan Dance Center (Batthyány u. 9/a.) Varga Zsuzsanna