THE FISCHELL DEPARTMENT of

BIOENGINEERING

UNDERGRADUATE STUDENT HANDBOOK2012–2013, 2nd Edition

“The finest goal that engineering can achieve is to improve the quality of life for millions of people throughout the world…Bioengineering and biomedical devices are the most direct means to achieve that goal.” Dr. Robert E. Fischell

BIOE Handbook 02/2013

Table of Contents Introduction .................................................................................................. 1

Bioengineering at Maryland ............................................................................. 1

Important Contacts ........................................................................................ 2

Mission Statement .......................................................................................... 3

Program Educational Objectives ....................................................................... 3

Student Outcomes ......................................................................................... 3

Sample Bioengineering Program ...................................................................... 5

General Education Requirements (GenEd) ......................................................... 7

Technical Electives ......................................................................................... 8

Tracks ........................................................................................................ 11

Advising and Registration .............................................................................. 13

Benchmarks ................................................................................................ 14

Graduation .................................................................................................. 15

Academic Difficulty ....................................................................................... 16

Advising for Professional Schools ................................................................... 17

Student Organizations .................................................................................. 17

Internships .................................................................................................. 17

Study Abroad .............................................................................................. 18

Special Programs ......................................................................................... 18

University Policies ........................................................................................ 19

Frequently Asked Questions .......................................................................... 20

Appendix .................................................................................................... 21

Please Note: The Undergraduate Student Handbook will be updated as needed. Please refer to the Fischell Department of Bioengineering Web site at www.bioe.umd.edu for the most up-to-date policies.

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Introduction Welcome to the Fischell Department of Bioengineering! The Bioengineering Undergraduate Program is designed to teach the principles and applications embedded in engineering in conjunction with the sciences of biology, medicine, and health. Our curriculum emphasizes the principles of biology, physiology, engineering, and design. Students may elect to explore an area of interest by following one of our Tracks of technical electives: Biocomputational & Systems; Bioengineering Studies; Biological Engineering; Biomechanics & Biomaterials; Biomedical Instrumentation; Pre-Health Professions. In addition to the technical aspects, the curriculum also incorporates ethics, economics, and patent concepts. Students also complete the University’s General Education Requirements. All of these areas of study create a rich educational experience, one that prepares our graduates for success in the professional world. This handbook provides students with a ready-reference for undergraduate studies in bioengineering. Students are expected to consult it prior to every advising meeting. The faculty and staff of the Fischell Department of Bioengineering are here to assist students throughout their academic careers. Please feel free to contact us with any questions or concerns. The Undergraduate Office can always be reached by email at bioe-undergrad@umd.edu. Faculty profiles and contact information are also available on the departmental Web site. We wish students the best for their academic journeys. Go Terps!

Bioengineering at Maryland Bioengineering is a field rooted in physics, mathematics, chemistry, biology, and life sciences. Each of these areas is applied in a systematic, quantitative, and integrative way to approach problems in biology, biosystems, medical research, and clinical practice. Bioengineering advances fundamental concepts, creates knowledge from the molecular to organ to system levels, and develops innovative processes for the prevention, diagnosis, and treatment of disease. In short, bioengineering seeks to improve the health and life of humankind on many levels. Bioengineers specialize in those products and processes made from, used with, or applied to biological organisms. In addition to engineering science and design, bioengineers study cell biology, physiology, bioinformatics, bioimaging, and biomechanics. The synthesis of engineering and biology gives bioengineers unique capabilities in our modern world. In the first two years, students take engineering foundation courses in biology, chemistry, physics, and math. In the third and fourth years, the focus shifts to biomedical imaging, biomechanics, physiological systems, and transport. Capstone I and II, taken in year four, features guest speakers and allows students to discuss current issues in bioengineering, including ethics, clinical trials, regulatory issues, venture capitalism, business principles, and entrepreneurship. Thanks to the breadth of our program, Maryland graduates are presented with a full range of career opportunities in medicine, human health, government, dentistry, law, pharmaceuticals, biotechnology, ecological engineering, environmental engineering, biomedical devices, bioprocessing, and teaching.

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Important Contacts Fischell Department of Bioengineering

Professor William E. Bentley Chair, Robert E. Fischell Distinguished Professor 2330 Jeong H. Kim Engineering Building Email: bentley@umd.edu

Professor Adam H. Hsieh Associate Chair, Director of Undergraduate Studies 3242 Jeong H. Kim Engineering Building Email: hsieh@umd.edu Phone: 301-405-7397

BIOE Undergraduate Office 2330 Jeong H. Kim Engineering Building E-mail: bioe-undergrad@umd.edu Web: www.bioe.umd.edu Phone: 301-405-8268

Dr. Tracy Chung Director, Academic & Student Affairs Email: chungt@umd.edu Phone: 301-405-5407

Ms. Alicia Peralta Graduate Assistant Advisor 1115 Jeong H. Kim Engineering Building Email: aperalta@umd.edu Phone: 301-405-1192

A. James Clark School of Engineering

Engineering Undergraduate Advising and Academic Support 1131 Glenn L. Martin Building E-mail: engrhelp@umd.edu Web: www.eng.umd.edu/advising Phone: 301-405-9953

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Mission Statement The Fischell Department of Bioengineering is a forward thinking academic organization dedicated to utilizing engineering and scientific knowledge, and methods to assist the citizens of Maryland and the nation. The Department intends to develop biologically based knowledge and products to promote ecological, human, and animal health, and to improve the quality of life while maintaining a healthy environment. The Department aims to quickly assume a leadership role in the field of bioengineering through educating an innovative student body and pioneering groundbreaking technologies. The Mission Statement is documented both here and on the Fischell Department of Bioengineering Web site at www.bioe.umd.edu

Program Educational Objectives The undergraduate program in the Fischell Department of Bioengineering provides students with a broad and fundamental education relating engineering to the biological sciences. The program has focuses in biomedical devices, human health, biotechnology, and ecosystems. These focuses all contain components of fundamental sciences, design, and communications skills. Our program offers a grounding in fundamentals that aims to serve its graduates well throughout their professional careers. Students gain an understanding of human behavior, societal needs and forces, and the dynamics of human efforts. Subsequently, students are encouraged to consider the effects these concepts have upon human health and the health of the environment. With these underpinnings and abilities, we have defined several Program Educational Objectives we expect our graduates to attain in 3-5 years after graduation: 1. Our graduates are either continuing their education or are gainfully employed in

bioengineering or related professions; 2. Our graduates participate in lifelong learning activities that will further their careers and

their impact on society; 3. Our graduates serve their profession and community.

The Program Educational Objectives are documented both here and on the Fischell Department of Bioengineering Web site at www.bioe.umd.edu

Student Outcomes Maryland bioengineers gain a broad-based education in which engineering approaches are used to understand and improve living systems and their environments. We educate students to excel in the field of bioengineering and carry out research, development, and commercialization of bioscience systems and tools that will improve the lives of people throughout the world. The ABET (Engineering Accreditation Commission) student outcomes for the Clark School of Engineering are listed below (a-k) followed by additional outcomes specific to the Bioengineering Undergraduate Program (ABO 1-3). (a) An ability to apply knowledge of mathematics, science, and engineering (b) An ability to design and conduct experiments, as well as to analyze and interpret

data

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(c) An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability

(d) An ability to function on multidisciplinary teams (e) An ability to identify, formulate, and solve engineering problems (f) An understanding of professional and ethical responsibility (g) An ability to communicate effectively (h) The broad education necessary to understand the impact of engineering solutions

in a global, economic, environmental, and societal context (i) A recognition of the need for, and an ability to engage in lifelong learning (j) A knowledge of contemporary issues (k) An ability to use the techniques, skills, and modern engineering tools necessary for

engineering practice. ABO 1: An ability to perform measurements on and to interpret data from living systems ABO 2: Background knowledge to support understanding of interactions between living and

non-living materials and systems. ABO 3: An ability to apply statistics to bioengineering applications The Student Outcomes are documented both here and on the Fischell Department of Bioengineering Web site at www.bioe.umd.edu

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Sample Bioengineering Program Students are strongly encouraged to follow the sample program below as closely as possible. Most courses are offered only once per year, either in the fall semester or in the spring semester. Since the courses build upon each other, it is critical that they are taken in the specified order. Taking the courses in order will also help students meet the benchmark reviews. Course Number Course Title Credits Benchmark BIOE120 Biology for Engineers 3 B2 BIOE121 Biology for Engineers Lab 1 B2 ENES100 Introduction to Engineering Design 3 B2 ENES102 Mechanics I 3 B2 MATH140 Calculus I 4 B1 MATH141 Calculus II 4 B1 CHEM135 General Chemistry I 3 B1 CHEM136 General Chemistry Lab 1 PHYS161 General Physics 3 B1 ENGL101 Introduction to Writing 3 B1

1 Elective (itemize elective below) 3 Year 1 Total 31 BIOE232 Thermodynamics 3 B3 BIOE241 Biocomputational Methods 3 B3 BIOE371 Bioengineering Math & Statistics 3 BSCI330 Cell Biology & Physiology 4 B2 ENES220 Mechanics II 3 B2 MATH241 Calculus III 4 B2 MATH246 Differential Equations 3 B2 CHEM231 Organic Chemistry I 3 B2 CHEM232 Organic Chemistry Lab I 1 B2 PHYS260 General Physics 3 PHYS261 General Physics Lab 1 Year 2 Total 31 BIOE331 Biofluids 3 B3 or ENME331 Fluids 3 BIOE332 Transport Process Design 3

B3

(one

300

- or 4

00-

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l BIO

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ours

e)

BIOE340 Modeling Physiological Systems & Lab 4 BIOE404 Biomechanics 3 BIOE420 Bioimaging 3 BIOE453 Biomaterials 3 BIOE457 Biomedical Electronics & Instrumentation 4 or BIOE455 Basic Electronics Design 3 BIOE456 Bioinstrumentation 3

1 Technical, 2 Gen Ed Electives (itemize below) 9 Year 3 Total 32 BIOE485 Capstone I 3 BIOE486 Capstone II 3 ENGL393 Technical Writing 3

3 Technical, 4 Gen Ed Electives (itemize below) 21 Year 4 Total 30

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Track: (see Tracks section for more information) Technical Electives Engineering Science Elective 1 3

B2

(one

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ectiv

e)

B3

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Engineering Science Elective 2 3 Biological Science Elective 1 3 Biological Science Elective 2 3 Engineering / Biology Flex Elective 3

General Education CORE 1 (HL) / Gen Ed 1 (HU) 3 B1 CORE 2 (HA) / Gen Ed 2 (HU) 3 CORE 3 (HL, HA, HO, IE) / Gen Ed 3 (HS) 3 CORE 4 (SH) / Gen Ed 4 (HS) 3 CORE 5 (SB) / Gen Ed 5 (SP) 3 CORE 6 (SB, IE) / Gen Ed (OC) 3

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General Education Requirements (GenEd) Students matriculating to the University of Maryland (including freshmen and students transferring from private institutions and from non-Maryland public institutions) Fall 2012 and forward are subject to the University's new General Education program requirements. See The Switch from CORE for exceptions for transfer students and more information. Students who matriculated prior to Fall 2012 who are under the CORE Program can review their general education requirements here: www.ugst.umd.edu/core/overview/WhatIs.html From the Office of Undergraduate Studies Web site’s General Education Requirements Overview

The General Education program has four Distributive Studies categories: History and Social Sciences, Humanities, Natural Sciences, and Scholarship in Practice. The Program has three additional categories that may be taken on their own or, through double counting, may be rolled up into the Distributive Studies categories. Two of these comprise the Diversity requirement: Understanding Plural Societies and Cultural Competence. The third is the I-Series program which offers students two courses that deal with major issues, usually from an interdisciplinary perspective. With double-counting, students will have a minimum of 40 credits in General Education. Bioengineering students must plan their electives carefully to maximize double-counting and minimize number of credits needed for General Education in. The General Education requirements include:

• Fundamental Studies (Academic Writing, Professional Writing, Mathematics, Analytic Reasoning, and Oral Communication) [5 courses, 15 credits]

• Distributive Studies (2 Humanities, 2 Natural Sciences [1 must be a lab course], 2 History and Social Sciences, and 2 Scholarship in Practice [only 1 may be in student's major]) [8 courses, 25 credits]

• The I-Series courses [2 courses, may be double counted with Distributive Studies and/or Diversity]

• Diversity (Understanding Plural Societies and Cultural Competence [2 courses, may be double counted w/ Dist. Studies])

See the Summary Chart and the General Education Web site for more detailed information about the requirements and applicable courses.

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Technical Electives The Bioengineering Undergraduate Program requires the completion of 5 technical electives (15 credits): 2 engineering science electives (6 credits), 2 biological science electives (6 credits), and 1 flex (engineering or biological science) elective (3 credits). All electives must be taken for a letter grade and successfully completed (C- or better) and must adhere to the policies below. The selection of electives should be made in conjunction with the selection of a Track (see Tracks section that follows). The biological science electives must adhere to the following policies:

• The elective must be chosen from the biological science elective list posted below; • All biological science electives must be at the 200-level or above; • At least one course (3 credits) must be at the 300-level or above.

The engineering science electives must adhere to the following policies: • The elective must be chosen from the engineering science elective list posted below; • All engineering science electives must be at the 200-level or above; • At least one course (3 credits) must be at the 300-level or above; • One course (3 credits) must be a technical, scientific lecture based course.

The flex elective must adhere to the following policies: • The elective must be chosen from either the biological science or engineering science

elective lists posted below; • Note that BSCI105, whether completed at UMCP, at another institution, or through

AP Biology credit, can be utilized to satisfy this elective.

Please note the following: • Only 3 credits of BIOE 399 may be used to fulfill the entire (15 credit) elective

requirement; • Students are responsible for checking pre-requisites and obtaining permissions for

non-BIOE courses; • Students seeking to count an elective that is not on this list should submit a BIOE

Petition for Exception to Departmental Policy Form; • If a student obtained prior approval during an advising meeting to take and count an

elective not on this list, student should have advisor make note on the BIOE Advising Worksheet;

• This list will be regularly updated on the BIOE Undergraduate Program Web site; • Courses listed in blue and with an asterisk are applicable to a Track.

Approved Biological Sciences Electives BCHM461 Biochemistry I BCHM462 Biochemistry II BCHM463 Biochemistry of Physiology BCHM464 Biochemistry Laboratory BCHM465 Biochemistry III BIOE399 Independent Study BSCI201 Human Anatomy & Physiology I BSCI202 Human Anatomy & Physiology II BSCI222 Principles of Genetics* BSCI223 General Microbiology BSCI327 Physics of Living Systems

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BSCI334/335 Mammalogy & Lab BSCI338O Special Topics: Cell Biology from a Biophysical Perspective* BSCI338P Special Topics: Pathophysiology of Circulatory System* BSCI353 Principles of Neuroscience BSCI361 Principles of Ecology BSCI363 The Biology of Conservation and Extinction BSCI370 Principles of Evolution BSCI380 Bioinformatics and Integrated Genomics BSCI410 Molecular Genetics BSCI412 Microbial Genetics BSCI414 Recombinant DNA Laboratory BSCI415 Molecular Genetics Laboratory BSCI417 Microbial Pathogenesis BSCI420/421 Cell Biology Lectures & Lab BSCI421 Cell Biology BSCI422 Principles of Immunology BSCI423 Principles of Immunology Laboratory BSCI424 Pathogenic Microbiology BSCI425 Epidemiology and Public Health BSCI426 Membrane Biophysics BSCI430 Developmental Biology BSCI433 Biology of Cancer BSCI434 Mammalian Histology BSCI437 General Virology BSCI442 Plant Physiology BSCI443 Microbial Physiology BSCI446 Neural Systems BSCI447 General Endocrinology BSCI453 Cellular Neurophysiology & Lab BSCI465 Behavioral Ecology BSCI471 Molecular Evolution BSCI473 Marine Ecology CBMG688Y/699D Special Topics: Bioinformatics and Genomics/ Bioinformatics and Computational Biology* CBMG688P Programming for Biology* CHEM241 Organic Chemistry II CHEM271/272 General Chemistry and Energetics & Lab CHEM481 Physical Chemistry I CHEM482 Physical Chemistry II CHEM483 Physical Chemistry Laboratory I CHEM484 Physical Chemistry Laboratory II ENST334 Environmental Toxicology* ENST481 Ecological Design* HESP202 Introduction to Hearing & Speech Sciences HESP305 Anatomy & Physiology of the Speech Mechanism HESP311 Anatomy, Pathology & Physiology of the Auditory System KNES370 Motor Development KNES385 Motor Control and Learning PHYS174 Physics Laboratory Introduction* PLSC203 Plants, Genes and Biotechnology PSYC301 Biological Basis of Behavior Approved Engineering Sciences Electives

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AMSC466 Introduction to Numerical Analysis* BIOE399 Independent Study BIOE411 Tissue Engineering BIOE445 Protein Engineering* BIOE460 Biotechnology and Bioproduction BIOE482 Analysis of Bioenergy Systems BIOE489C Special Topics in Bioengineering: Cellular and Tissue Biomechanics; BIOE489F Special Topics in Bioengineering: Feynman Lectures for Applications in Bioengineering BIOE489G Synthetic Biology* BIOE489L/ENCH468M Special Topics: Metabolic Pathway Engineering BIOE489M Special Topics: Cell Motility* BIOE431 Biosensor Techniques, Instrumentation, and Applications BIOE632 Biophotonic Imaging and Microscopy BIOE689A: Special Topics in Bioengineering: Protein Design and Engineering BIOE689D Special Topics in Bioengineering: Computational Molecular Bioengineering BIOE689J Bioengineering Devices for Cancer Research CHBE477 Mesoscopic and Nanoscale Thermodynamics* ENCE215 Engineering for Sustainability* ENCE300 Fundamentals of Engineering Materials ENCE310 Introduction to Environmental EngineeringENCE340 Fundamentals of Geotechnical Engineering ENCE411 Environmental Engineering Science ENCE412 Environmental Engineering Unit Operation ENCE432 Ground Water Hydrology ENCH215 Chemical Engineering Analysis ENCH440 Chemical Engineering Kinetics ENCH468L Photovoltaics: Solar Energy ENCH468M/BIOE489L Research: Metabolic Pathway Engineering ENCH468N Research: Bionanotechnology ENCH476 Statistics and Experiment Design ENCH482 Biochemical Engineering ENCH485 Biochemical Engineering Laboratory ENCH490 Introduction to Polymer Science ENEE322 Signal & System Theory ENEE350 Computer Organization ENEE380 Electromagnetic Theory ENEE460 Control Systems ENEE473 Electrical Machines Laboratory ENEE480 Fundamentals of Solid State Electronics ENES221 Dynamics* ENES230 Introduction to Materials & their Applications ENES489P Hands-on Systems Engineering Projects* ENMA300 Introduction to Materials Engineering ENMA420 Intermediate Ceramics ENMA426 Reliability of Materials ENMA441 Nanotechnology Characterization ENMA462 Smart Materials ENMA463 Macroprocessing of Materials ENMA464 Environmental Effects on Engineering Materials ENMA471 Kinetics, Diffusion, & Phase Transformations ENMA482 Introduction to Electron Microscopy ENMA489B Selected Topics: Nanomechanics of Biomaterials*

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ENMA495 Polymeric Engineering Materials I ENME382 Introduction to Materials Engineering ENME442 Nanomechanics of Materials ENME470 Finite Element Analysis ENME473 Mechanical Design of Electronic Systems ENME476 Microelectromechanical Systems* ENME489x Upon approval from track leader* ENST344 Environmental Toxicology ENST481 Ecological Design MATH461 Linear Algebra for Scientists and Engineers MATH462 Partial Differential Equations for Scientists and Engineers MATH463 Complex Variables for Scientists and Engineers MATH464 Transform Methods for Scientists and Engineers STAT400 Applied Probability and Statistics I STAT401 Applied Probability and Statistics II STAT420 Introduction to Statistics STAT464 Introduction to Biostatistics

Tracks The Bioengineering Undergraduate Program has established tracks so as to help students focus their academic interests. The tracks utilize the technical elective requirement of 5 electives (2 engineering science, 2 biological science, and 1 flex elective). All of the required bioengineering core courses must be completed, regardless of the track selected. Each track has a faculty leader who has defined the foundation courses as well as the electives in each track. Questions about the track, including the addition of new courses to a track, should be directed to the track leader. Bioengineering Studies Track – Dr. Hsieh, Track Leader Engineering Electives (Select 2): Any approved engineering elective Bioscience Electives (Select 2): Any approved bioscience elective Flex Elective (Select 1): Any approved engineering or bioscience elective Biological Engineering Track – Dr. Montas, Track Leader Foundation Courses:

BIOE232 Bioengineering Thermodynamics BIOE332 Transport Process Design Engineering Electives (Select 2): BIOE445 Protein Engineering BIOE460 Biotechnology and Bioproduction

BIOE489G Synthetic Biology BIOE489L Special Topics: Metabolic Pathway Engineering

CHBE477 Mesoscopic and Nanoscale Thermodynamics ENCE215 Engineering for Sustainability ENCE310 Introduction to Environmental Engineering Bioscience Electives (Select 2):

BCHM461 Biochemistry I BSCI222 Principles of Genetics

BSCI223 General Microbiology BSCI410 Molecular Genetics

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BSCI414 Recombinant DNA Laboratory ENST334 Environmental Toxicology ENST481 Ecological Design Flex Elective (Select 1): Choose one course from Engineering or Bioscience Electives above Biomechanics & Biomaterials Track – Dr. Hsieh, Track Leader Foundation Courses:

BIOE404 Biomechanics BIOE453 Biomaterials Engineering Electives (Select 3):

BIOE399 Independent Study BIOE411 Tissue Engineering

BIOE460 Biotechnology and Bioproduction BIOE489G Synthetic Biology and Biological Engineering

BIOE489M Cell Motility ENES221 Dynamics ENME382/ENMA300 Introduction to Materials Engineering

ENMA489B Selected Topics: Nanomechanics of Biomaterials ENME470 Finite Element Analysis Bioscience Electives (Select 2):

BCHM463 Biochemistry of Physiology BSCI222 Principles of Genetics BSCI327 Physics of Living Systems

BSCI338O Special Topics: Cell Biology from a Biophysical Perspective BSCI338P Special Topics: Pathophysiology of Circulatory System BSCI434 Mammalian Histology

CHEM271/272 General Chem & Energetics/General Bioanalytical Chemistry Lab Flex Elective: Included in Engineering Elective (see above) Biocomputational & Systems Track – Dr. Matysiak, Track Leader Foundation Courses:

BIOE232 Bioengineering Thermodynamics BIOE331 Biofluids Engineering Electives (Select 2):

AMSC466 Introduction to Numerical Analysis BIOE489L Special Topics: Metabolic Pathway Engineering

BIOE689D Special Topics: Computational Molecular Bioengineering MATH461 Linear Algebra for Scientists and Engineers

MATH462 Partial Differential Equations for Scientists and Engineers STAT400 Applied Probability and Statistics I STAT464 Introduction to Biostatistics Bioscience Electives (Select 2): BSCI222 Principles of Genetics BSCI327 Physics of Living Systems BSCI426 Membrane Biophysics CBMG688Y/699D Special Topics: Bioinformatics and Genomics/ Bioinformatics and Computational Biology CBMG688P Programming for Biology CHEM481 Physical Chemistry I

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Flex Elective: CMSC106 Introduction to C Programming

Or choose one course from the Engineering Electives (see above) Biomedical Instrumentation Track – Dr. White, Track Leader Foundation Courses:

BIOE420 Bioimaging BIOE457 Biomedical Electronics and Instrumentation Engineering Electives (Select 3):

BIOE399 Independent Study BIOE431 Biosensor Techniques, Instrumentation, and Applications BIOE632 Biophotonic Imaging and Microscopy ENCH468N Research: Bionanotechnology

ENES489P Hands-on Systems Engineering Projects ENME476 Microelectromechanical Systems ENME489x Upon approval from track leader Bioscience Electives (Select 2):

BCHM461 Biochemistry I BSCI222 Principles of Genetics BSCI443 Biology of Cancer

CHEM241 Organic Chemistry II CHEM271/272 General Chem & Energetics/General Bioanalytical Chemistry Lab

CHEM481 Physical Chemistry I CHEM482 Physical Chemistry II Flex Elective: Included in Engineering Elective (see above) Pre-Health Professions Track* Engineering Electives (Select 2): Any approved engineering elective Bioscience Electives:

BCHM463 Biochemistry of Physiology BSCI222 Principles of Genetics

BSCI223 General Microbiology CHEM241 Organic Chemistry II CHEM271/272 General Chemistry and Energetics and Laboratory PHYS174 Physics Laboratory Introduction *Please consult closely with the Reed-Yorke Health Professions Advising Office for additional courses and specific recommendations

Advising and Registration The Bioengineering Undergraduate Program is committed to student advising and aims to provide comprehensive curricular support to all of its students towards their academic success. Students seek guidance about course planning and scheduling at various points during their academic careers for a number of different reasons. Students may initiate the advising process by emailing bioe-undergrad@umd.edu, and we will point you in the right direction. Generally, advising is handled by one or a combination of the following: faculty advisor, departmental advisor, college advisor. Faculty Advising

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All bioengineering majors are assigned to a faculty advisor. Students are required to meet with their faculty advisors at least once per semester. For currently enrolled majors, the mandatory advising period occurs in the weeks prior to registration for the next semester. The advising meeting with the faculty member generally covers the following: course selection for upcoming semester, four-year planning, and career goals. Students should prepare for every advising meeting by completing and updating the BIOE Advising Worksheet. Freshmen are assigned to faculty advisors and notified during their first semesters. All other students may contact bioe-undergrad@umd.edu if they are not sure of their faculty advisor assignment. For faculty contact information, please see www.bioe.umd.edu/facstaff/faculty-list.html Departmental Advising Bioengineering majors and prospective transfer students may also need to meet with a departmental (staff) advisor. Some examples of departmental advising include: Benchmarks (academic progress), planning for study abroad, C.A.R.E (academic probation), double-major/double-degree planning, graduation audit (seniors), and additional help with four-year planning. For departmental advising, please send an email including your name, UID, and general question to bioe-undergrad@umd.edu. All students seeking advising should read and make sure that they understand the policies and requirements stated in this Handbook. College Advising The Clark School of Engineering’s Office of Undergraduate Advising and Academic Support (UA&AS) also provides a broad range of services and support for engineering students. Some policies are the oversight of the College, so your faculty or departmental advisor may at times refer you to a Clark School advisor. For example, transfer admission/transfer credit, 45-credit benchmark review, and permission to enroll at another institution are handled by the College. Registration Each semester students are given an appointment by the university for pre-registration based on their credit level. Students are notified of their appointment date and time by email. The appointment time is also available in students’ Testudo accounts. Students are not be able to register until they have met with their assigned faculty advisor and obtained the advisor’s signature on the BIOE Advising Worksheet. Students should submit the BIOE Advising Worksheet to the BIOE Undergraduate Office (2330 KEB) and should be cleared for registration within 24 hours of submitting the form. During the drop period, a student may drop a maximum of 4 credits. Drops performed during this period will be recorded on the student’s permanent record with a notation of ‘W’ for withdrawal.

Benchmarks The goal of the Student Academic Success Degree Completion Policy is to promote undergraduate student success. This is accomplished through a series of Benchmarks as described below. For each Benchmark, the student will be assigned a status of Pass, Fail, or Fail but Continue. Students who receive Fail status are required to change their major out of engineering. Students who receive Fail but Continue are required to meet with the

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departmental advisor and their faculty advisor to discuss their plan to make the necessary progress towards completion of the degree requirements. If a student fails to make progress based on the plan developed between the student and his/her advisor, the student may be required to choose a major outside of engineering. 45 Credit Review: This gateway review is administered by the Clark School’s Office of Undergraduate Advising & Academic Support Students who are directly admitted to Engineering from high school are reviewed for successful completion of the 45 credit review in the semester in which they attain 45 credits at the University of Maryland. The primary requirements of the review are:

• CHEM 135 with a minimum grade of 2.0 • MATH 141 with a minimum grade of 2.0 • PHYS 161 with a minimum grade of 2.0 • ENES 100 with a minimum grade of 2.0 • Fundamental Studies in English • One Distributive Studies course from the Humanities or Social Sciences • No more than one repeat of any of the courses above (a ‘W’ counts as an attempt) • Minimum grade point average of 2.0

2nd Benchmark: This review is administered by the Bioengineering Undergraduate Program Two semesters after students are initially reviewed for the 45 credit review OR two semesters after students transfer into the Clark School of Engineering (as an internal or external transfer), students must have successfully completed the following:

• All required 100 and 200 level MATH courses • All required 100 and 200 level PHYSICS courses • All required 100 and 200 level ENES courses • BIOE 120 AND BIOE 121 • CHEM 231, CHEM 232 AND BSCI 330

3rd Benchmark: This review is administered by the Bioengineering Undergraduate Program Two semesters after students are reviewed for the 2nd benchmark, students must have successfully completed the following:

• BIOE 232 • BIOE 331 OR ENME 331 • BIOE 241 • At least one 300-level or above BIOE course • An approved upper-level biological science or engineering science technical elective

Graduation Students must apply for graduation at the beginning of the semester in which they intend to graduate. There are several steps to complete this process:

• Fill in the requested information and then print out a graduation worksheet (Web link will be given during semester of graduation).

• Complete a senior survey AND print out the confirmation receipt (not the entire survey). Please see the following website: www.eng.umd.edu/survey/grad/

• Print out and attach a degree audit from Degree Navigator: www.testudo.umd.edu/dnentry.html

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• Apply on-line for graduation: www.testudo.umd.edu/apps/candapp/ Please note that there are often corrections that need to be made and courses that need to be entered in Degree Navigator. In order to ensure that all information is correct on Degree Navigator, please schedule a Senior Audit appointment with a departmental advisor at the start of your final semester or during the advising session in the semester before your final semester.

Academic Difficulty Sometimes students run into academic difficulties. In some cases, this is a serious indication that Bioengineering may not be a good fit for the student. Students who feel that this may be the case should contact their faculty advisor immediately to discuss options. In other cases, academic difficulty may be simply an indication that time management, study habits, and priorities need to be re-evaluated and adjusted. Below are the policies and guidelines related to academic difficulty. Freshman Forgiveness/University Repeat Policy

• Any course may be attempted a maximum of two times • Students may repeat up to 18 credit hours. • A ‘W’ (withdrawal) counts as an attempt. • Both attempts at a course are calculated into the GPA unless the course was

originally taken during the first semester or within the first 24 credits taken at UMCP (this includes transfer credits from another institution, but not AP/IB credits). For those courses, there is a grace period where only the new grade will be calculated into the GPA. Please note the original grade is not deleted from the transcript.

• No more than 4 credits may be dropped during one semester. For more information, please see: http://www.testudo.umd.edu/soc/repeat.html. Appeals of any of these policies will be considered. To appeal, please complete a Clark School Exception to Policy Form found here: http://www.eng.umd.edu/advising/forms Academic Probation An engineering student is placed on academic probation if his/her cumulative GPA falls below a 2.0. If a student has less than 60 credits when placed on probation, then the student may be permitted to continue in the major as long as a semester’s minimum GPA of 2.0 is achieved. If a student has more than 60 credits when placed on academic probation, then the student may be allowed one probationary semester. If the student’s cumulative GPA remains below a 2.0, then the student will be dismissed from the Clark School of Engineering. All students on academic probation are required to complete the CARE (Creating Academic Responsibility in Engineering) program conducted by the Clark School’s Office of Undergraduate Advising & Academic Support. In addition, all students on probation have an academic hold placed on their file and will not be allowed to add or drop any courses until the CARE program is completed. There are three steps students must complete before an academic hold can be removed:

• Complete CARE modules (students will receive an email from Engineering Undergraduate Advising Office with instructions to modules)

• Meet with assigned faculty or departmental advisor • Meet with an advisor in the Engineering Undergraduate Advising & Academic Support

Office

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Advising for Professional Schools Many bioengineering students plan to attend professional schools upon completion of their undergraduate degrees. Many of the courses required for medical school and dental school preparation are included in the Bioengineering Undergraduate Program. Students interested in pre-health or pre-law professions are strongly encouraged to contact the appropriate advising office and take advantage of their services as early in their undergraduate career as possible. Information on pre-med, pre-dental and pre-law student organizations can also be found at the following Web sites.

Reed-Yorke Health Professions Advising Office 1210 H. J. Patterson Hall Phone: 301-405-7805 Email: preprof@umd.edu Web: www.prehealth.umd.edu Pre-Law Advising Office 0110 Hornbake Library Phone: 301-405-2793 Email: prelawadvisor@umd.edu Web: www.prelaw.umd.edu

Student Organizations The Society of Biological Engineers (SoBE) is an outstanding student organization that all bioengineering majors at the University of Maryland are encouraged to join. SoBE represents the student branch of the Biomedical Engineering Society (BMES). Members of SoBE have the opportunity to meet and mingle with other students in the major, as well as gain an introduction to the professional world of bioengineering. Meetings are held monthly and a variety of activities take place throughout the year, including pizza parties, crab feasts, and bowling parties. Membership is free. Please email sobe.umd@gmail.com to get involved.

Internships Bioengineering students have access to the following resources to take advantage of internship opportunities.

• The Engineering Co-op & Career Services Office assists all engineering students with the job search process for co-op, internship, summer, or post-graduation positions. Services include online job listings (Careers4Engineers database), resume critiques, career fairs, and more.

• The Department occasionally receives and forwards internship opportunity information to the undergraduate email list.

• Research Experiences for Undergraduates (REU) sponsored by the National Science Foundation give students the opportunity to work closely with a faculty member on a specific research project. REU sites are located at US and foreign institutions. Students must apply and be selected.

• Maryland Center for Undergraduate Research helps students identify on-campus research opportunities.

• Faculty members may hire students for volunteer, credit-based, or paid internships in their research laboratories. Students should investigate faculty research areas and contact individual faculty members.

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Study Abroad Study abroad is a wonderful opportunity for students to broaden their horizons and enrich their educational experience by immersing themselves in a foreign culture. Students interested in study abroad should look into the process early in their academic careers. Here are the major steps in the process:

• Contact or visit International Engineering Programs to discuss options and gather resources; the Bioengineering Undergraduate Program also typically organizes a Study Abroad Workshop once per semester

• Decide where you wish to study abroad • Print out a minimum of 6 to 8 courses you are interested in taking at the host

university • Meet with your faculty advisor to discuss feasibility of study abroad courses in

context of four-year plan • Obtain approval signatures on study abroad forms from either Professor Adam Hsieh

or Dr. Tracy Chung (see contact information section) Course equivalencies should be identified BEFORE you leave for study abroad. If you wish to transfer a course equivalent to a BIOE course, then you will need to obtain host university course syllabi and seek evaluation by the Bioengineering Undergraduate Program. Contact bioe-undergrad@umd.edu for assistance. Other courses may transfer as CORE/General Education courses, engineering science electives, or biological science electives at 100, 200, or 300 levels. The University also has a Study Abroad Office that provides forms and services/information for study abroad. Students may also take advantage of their services and information: http://www.international.umd.edu/studyabroad

Special Programs The A. James Clark School of Engineering offers the Engineering Honors Program (EHP), which provides eligible students the opportunity to pursue an enriched program of study. Engineering students meeting all of the following criteria are eligible to apply:

• Upper fourth of engineering juniors and seniors based on GPA • Junior standing of 60 applicable credits • Completion of at least one semester at the University of Maryland

For more information, visit: http://www.eng.umd.edu/current/honors-program The Bioengineering Department offers a two-year research based Bioengineering Undergraduate Honors program. Interested students should apply to the honors program in the spring of their sophomore year. Those accepted into the program will begin research in their junior year. For more information please see: http://www.bioe.umd.edu/undergrad/ug-honors.html The Maryland Technology Enterprise Institute (Mtech) offers the Hinman CEOs Program, which is the nation’s first living-learning entrepreneurship program. This program brings together entrepreneurially-minded students from all academic disciplines to explore business ventures. For more information, visit http://www.hinmanceos.umd.edu/ The Quality Enhancement Systems and Teams Program (QUEST) is a reality-based learning program engaging undergraduate students from business, engineering, and computer, mathematical and natural sciences. QUEST students participate in courses

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focused on cross-functional collaboration, innovation, quality management, and teamwork. Additionally, students participate in QUEST-exclusive extracurricular events (Integrating QUEST) that are offered each semester. For additional information, visit http://www.rhsmith.umd.edu/quest/

University Policies The University of Maryland has numerous policies, many of which apply to students. All policies are posted here: http://www.president.umd.edu/policies. Some that apply specifically to students are included below. Discrimination The University of Maryland is actively committed to providing equal educational and employment opportunity in all of its institutions and programs. The University does not discriminate on the basis of race, color, religion, age, national origin, sex, or disability, and all policies, programs, and activities of the University are and shall be in conformity with all pertinent federal and State laws including, but not limited to, Title VI of the Civil Rights Act of 1964 as amended, Title IX of the 1972 Education Amendments, and Section 504 of the Rehabilitation Act of 1973. To review the University’s human relations code in full, please visit http://www.president.umd.edu/policies/vi100b.html Sexual Harassment The University of Maryland is also committed to maintaining a working and learning environment free of intimidation, fear, coercion, and reprisal. Accordingly, the Campus prohibits sexual harassment. The University defines sexual harassment as: (1) unwelcome sexual advances; or (2) unwelcome requests for sexual favors; or (3) other behavior of a sexual or gender-based nature where:

• Submission to such conduct is made either explicitly or implicitly a term or condition of an individual’s employment or participation in a University-sponsored educational program or activity; or

• Submission to or rejection of such conduct by an individual is used as the basis for academic or employment decisions affecting that individual; or

• Such conduct has the purpose or effect of unreasonably interfering with an individual’s academic or work performance, or of creating an intimidating, hostile, or offensive educational or working environment.

For more information on the University of Maryland’s sexual harassment policy, please visit http://www.president.umd.edu/policies/vi120a.html Student Conduct Students are expected to exercise appropriate conduct both on and off campus. A complete list of conduct considered prohibited as well as procedures for resolving allegations of misconduct may be found in the “Code of Student Conduct” available through the Office of Student Conduct website: http://osc.umd.edu/ Sanctions for violations of conduct regulations include disciplinary probation, suspension, and expulsion. In addition, the University of Maryland has a nationally recognized Code of Academic Integrity, administered by the Student Honor Council. This Code sets standards for academic integrity at Maryland for all students. Any of the following acts would be considered an instance of academic dishonesty:

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• Cheating: Intentionally using or attempting to use unauthorized materials, information, or study aids in any academic exercise.

• Fabrication: Intentional and unauthorized falsification or invention of any information or citation in an academic exercise.

• Facilitating Academic Dishonesty: Intentionally or knowingly helping or attempting to help another to violate any provision of this Code.

• Plagiarism: Intentionally or knowingly representing the words or ideas of another as one's own in any academic exercise.

All members of the University community - students, faculty, and staff - share the responsibility and authority to challenge and make known acts of apparent academic dishonesty. For more information on the Code of Academic Integrity and the Student Honor Council, please visit http://www.shc.umd.edu/

Frequently Asked Questions What do I need to do if I want to take a course somewhere else?

• Fill out the Clark School Permission to Enroll in Another Institution Form found at http://www.eng.umd.edu/advising/forms. Instructions for submission are also found at this site. This should be submitted before taking the course.

What is the maximum number of credits I can register for?

• Freshmen are allowed a maximum of 17 credits per semester. All other students are allowed a maximum of 18 credits per semester. Students who want to appeal their credit limit should fill out a Clark School Exception to Policy Form found at http://www.eng.umd.edu/advising/forms

What do I do if I need a stamp for a course or a registration block removed? • Submitting the BIOE Advising Worksheet (see appendix) will ensure that you have

satisfied mandatory advising and that you will receive stamps for BIOE courses. If a stamp is required for any other course, contact the department offering the course.

How do I register for BIOE 399: Independent Study?

• Complete the BIOE 399 Form (see appendix, instructions can be found on the form)

What do I do if I want to count an elective that is not on the approved list? • Submit the BIOE Petition Form (see appendix, instructions can be found on the form)

How long does it take to graduate? • The program is designed to be completed in 4 years. AP credit, summer/winter

courses, study abroad, and special programs (Gemstone, Honors, Quest) may affect the length of time it takes to graduate.

Why doesn’t my Degree Navigator reflect all my courses?

• Some courses have to be manually entered into Degree Navigator. Advisors typically conduct degree audits during the student’s graduating semester. Students who would like to have a graduation audit conducted sooner may contact bioe-undergrad@umd.edu

What is the difference between bioengineering and biomedical engineering?

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• Bioengineering is a more broad based education that includes, but is not limited to, biomedical engineering topics.

What do students do after graduation?

• Many students work at biotechnology companies, work at government agencies (NIH, FDA, NIST), attend graduate school, attend medical school, or enter other post-baccalaureate programs.

Appendix

i. BIOE Advising Worksheet ii. BIOE 399 Form – For Independent Study Registration iii. BIOE Petition Form – For Exceptions to Departmental Policy

BIOE Advising Worksheet

Date: Course Number Course Title Cr B Sem Year GradeBIOE120 Biology for Engineers 3 B2

Student Name: BIOE121 Biology for Engineers Lab 1 B2ENES100 Introduction to Engineering Design 3 B2

Student UID: ENES102 Mechanics I 3 B2MATH140 Calculus I 4 B1

Advisor Name: MATH141 Calculus II 4 B1CHEM135 General Chemistry I 3 B1CHEM136 General Chemistry Lab 1

Track:* PHYS161 General Physics 3 B1Biocomputational & Systems ENGL101 Introduction to Writing 3 B1Bioengineering Studies 1 Elective (itemize elective below) 3Biological Engineering 31Biomechanics & BiomaterialsBiomedical Instrumentation BIOE232 Thermodynamics 3 B3Pre-Health Professions BIOE241 Biocomputational Methods 3 B3

BIOE371 Bioengineering Math & Statistics 3 SpringBenchmarks (B)* Passed (Y / N) or BIOE471 Biological Systems Control 3 Fall Benchmark 1 (45 credits): BSCI330 Cell Biology & Physiology 4 B2 Benchmark 2 (B1 + 2 sem): ENES220 Mechanics II 3 B2 Benchmark 3 (B2 + 2 sem): MATH241 Calculus III 4 B2

MATH246 Differential Equations 3 B2Career Plan: CHEM231 Organic Chemistry I 3 B2

CHEM232 Organic Chemistry Lab I 1 B2Expected Graduation Date: PHYS260 General Physics 3

PHYS261 General Physics Lab 1Cumulative GPA: 31

Unofficial transcript attached: (Y / N) BIOE331 Biofluids 3 B3 or ENME331 Fluids 3BIOE332 Transport Process Design 3 SpringBIOE340 Modeling Physiological Systems & Lab 4 FallBIOE404 Biomechanics 3 Fall

Proposed Courses in Upcoming Semester BIOE420 Bioimaging 3 SpringSemester: BIOE453 Biomaterials 3 SpringYear: BIOE457 Biomedical Electronics & Instrumentation 4

or BIOE455 Basic Electronics Design 3 FallCourse Number (Cr) BIOE456 Bioinstrumentation 3 Fall

Course 1: 3 Electives (itemize electives below) 9Course 2: 32Course 3:Course 4: BIOE485 Capstone I 3 FallCourse 5: BIOE486 Capstone II 3 SpringCourse 6: ENGL393 Technical Writing 3Course 7: 7 Electives (itemize electives below) 21Course 8: 30

0Notes: Track:

ElectivesEngineering Science Elective 1 3Engineering Science Elective 2 3Biological Science Elective 1 3Biological Science Elective 2 3Engineering / Biology Flex Elective 3

General Education CORE 1 (HL) / Gen Ed 1 (HU) 3 B1

Student CORE 2 (HA) / Gen Ed 2 (HU) 3 Signature: CORE 3 (HL, HA, HO, IE) / Gen Ed 3 (HS) 3

CORE 4 (SH) / Gen Ed 4 (HS) 3Advisor CORE 5 (SB) / Gen Ed 5 (SP) 3Signature: CORE 6 (SB, IE) / Gen Ed (OC) 3

*see Handbook for details

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FISCHELL DEPARTMENT OF BIOENGINEERING UNDERGRADUATE PROGRAM

BIOE 399 - INDEPENDENT STUDY REGISTRATION FORM

Instructions: Complete all information below in full. You will need to work with your BIOE 399 instructor to gather the information and his/her signature. BIOE 399 must be taken for a letter grade (A-F). If counting BIOE 399 towards technical electives, indicate a) engineering or biological science elective and b) which track you are on. Submit this form together with Advising Worksheet to BIOE Undergraduate Office (2330 KEB). You will be notified whether permission has been granted by email. Name: ____________________________________ Date: _________________________ UID: ________________________________ Email: _____________________________ BIOE 399 Instructor: Section No.:

Proposed Title / Topic:

Number of Credits: Semester and Year:

Elective and track type: ____________________________________________________

Faculty Advisor: Advising Worksheet Attached?

Course Objective:

Course Schedule:

Course Evaluation:

BIOE 399 Instructor Signature:

For Administrative Use Only: Approved Denied Initials:____________ Date:______________ Notes:

FISCHELL DEPARTMENT OF BIOENGINEERING UNDERGRADUATE PROGRAM

BIOE PETITION FOR WAIVER OF DEPARTMENTAL POLICY

Instructions: This form should be used in cases where the student has extenuating circumstances prohibiting him/her from adhering to the policies and practices of the undergraduate program. Two petitions that will routinely be considered yet granted on a case-by-case basis are listed below. Other types of requests may be entered on this form but should be supported by a brief statement of explanation and any other relevant supporting material. If applicable to the coming semester’s registration, this form should be submitted with the BIOE Advising Worksheet to the BIOE Undergraduate Office (2330A KEB). Name: ______________________________ Date: _________________________ UID: ____________________________ Email: ___________________________ 1. Request for One-Time Approval of Elective

Course No. and Title:

Elective Type and Track Type:

Justification: ____________________________________________________________

Course Description (from Testudo) attached: ______YES ______NO

Syllabus attached (from Dept or Instructor): ______YES ______NO

BIOE Advising Worksheet attached: ______YES ______NO

Faculty Advisor Signature:

2. Request for Exception to Pre- or Co-Requisite Requirement for BIOE course

Course No. and Title:

Pre- or Co- Requisite Requirement:

Letter of Justification (300 Word Maximum) attached: ______YES ______NO

Copy of Unofficial Transcript attached: ______YES _______NO

BIOE Advising Worksheet attached: ______YES ______NO

Course Instructor Signature:

3. Other

Reason for Request:

Letter of Justification (300 Word Maximum) attached: ______YES ______NO

BIOE Advising Worksheet attached: ______YES ______NO

Relevant Supporting Documents attached: __________YES _________NO

Faculty Advisor Signature: