general principles of pathophysiology n the cellular environment n fluids & electrolytes n...
DESCRIPTION
Distribution of Water n Total Body Weight/ Total Body Water n Intracellular - ICF (45%/75%) n Extracellular - ECF (15%/25%) –Intravascular (4.5%/7.5%) –Interstitial (10.5%/17.5%) n Total Body Weight/ Total Body Water n Intracellular - ICF (45%/75%) n Extracellular - ECF (15%/25%) –Intravascular (4.5%/7.5%) –Interstitial (10.5%/17.5%)TRANSCRIPT
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General Principles of General Principles of PathophysiologyPathophysiology
The Cellular EnvironmentThe Cellular EnvironmentFluids & ElectrolytesFluids & ElectrolytesAcid-base Balance & MaintenanceAcid-base Balance & Maintenance
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TopicsTopics
Describe the distribution of water in the Describe the distribution of water in the bodybody
Discuss common physiologic electrolytesDiscuss common physiologic electrolytes Review mechanisms of transportReview mechanisms of transport
– osmosis, diffusion, etc Discuss hemostasis & blood typesDiscuss hemostasis & blood types Discuss concepts of acid-base maintenanceDiscuss concepts of acid-base maintenance
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Distribution of WaterDistribution of Water
Total Body Weight/ Total Body WaterTotal Body Weight/ Total Body Water Intracellular - ICF (45%/75%)Intracellular - ICF (45%/75%) Extracellular - ECF (15%/25%)Extracellular - ECF (15%/25%)
– Intravascular (4.5%/7.5%)– Interstitial (10.5%/17.5%)
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Intra-Intra-cellularcellular
45%45%31.5 kg31.5 kg
InterstitialInterstitial10.5 %10.5 %7.35 kg7.35 kg
Intra-Intra-vascularvascular
4.5%4.5%3.15 kg3.15 kg
Total Body WeightTotal Body Weight
Fluid DistributionFluid Distribution
Extracellular
Cel
l Mem
bran
e
Cap
illar
y M
embr
ane
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Fluid DistributionFluid Distribution
Intra-Intra-cellularcellular
75%75%31.5 L31.5 L
InterstitialInterstitial17.5 %17.5 %7.35 L7.35 L
Intra-Intra-vascularvascular
7.5%7.5%3.15 L3.15 L
Total Body WaterTotal Body Water
Extracellular
Cel
l Mem
bran
e
Cap
illar
y M
embr
ane
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Total Body WeightTotal Body Weight
45.0%
4.5%10.5%
0%5%10%15%20%25%30%35%40%45%50%
Intracellular Intravascular Interstitial
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Total Body WaterTotal Body Water
75.0%
7.5%
17.5%
0%
10%20%
30%40%
50%
60%70%
80%
Intracellular Intravascular Interstitial
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EdemaEdema
Fluid accumulation in the interstitial Fluid accumulation in the interstitial compartmentcompartment
Causes:Causes:– Lymphatic ‘leakage’– Excessive hydrostatic pressure– Inadequate osmotic pressure
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Fluid IntakeFluid Intake
Water from beverages:1600 ml (64%)
Water from food:700 ml (28%)
Water from metabolism:200 ml (8%)
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Fluid OutputFluid Output
Water from skin:550 ml (25%)
Water from feces:150 ml (5%)
Water from lungs: 300 ml (11%)
Water from urine: 1500 ml (59%)
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Osmosis versus DiffusionOsmosis versus Diffusion
Osmosis is the net Osmosis is the net movement of water movement of water from an area of from an area of LOWLOW solute concentration to solute concentration to an area of an area of HIGHERHIGHER solute concentration solute concentration across a semi-across a semi-permeable membrane.permeable membrane.
diffusion of waterdiffusion of water– in terms of [water]
Diffusion is the net Diffusion is the net movement of solutes movement of solutes from an area of from an area of HIGHHIGH solute concentration to solute concentration to an area of an area of LOWERLOWER solute concentration.solute concentration.
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Silly definition stuffSilly definition stuff
Osmolarity = Osmolarity = osmoles/L of solutionosmoles/L of solution
Osmolality = Osmolality = osmoles/kg of solutionosmoles/kg of solution
Where an osmole is 1 mole (6.02 x 10Where an osmole is 1 mole (6.02 x 102323 particles) particles)
The bottom line?The bottom line?Use them synonymously!Use them synonymously!
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TonicityTonicity
IsotonicIsotonic HypertonicHypertonic HypotonicHypotonic
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Isotonic SolutionsIsotonic Solutions
Same solute concentration as RBCSame solute concentration as RBC If injected into vein: no net movement of If injected into vein: no net movement of
fluidfluid Example: 0.9% sodium chloride solutionExample: 0.9% sodium chloride solution
– aka Normal Saline
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Hypertonic SolutionsHypertonic Solutions
Higher solute concentration than RBCHigher solute concentration than RBC If injected into vein:If injected into vein:
– Fluid moves INTO veins
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Hypotonic SolutionsHypotonic Solutions
Lower solute concentration than RBCLower solute concentration than RBC If injected into vein:If injected into vein:
– Fluid moves OUT of veins
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Affects of Hypotonic Solution on Affects of Hypotonic Solution on CellCell
CellSwellingCell
SwollenCell
RupturedRupturedCellCell
The [solute] outside The [solute] outside the cell is lower than the cell is lower than inside. inside.
Water moves from low Water moves from low [solute] to high [solute] to high [solute].[solute].
The cell swells and The cell swells and eventually bursts!eventually bursts!
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Affects of Hypertonic Solution on Affects of Hypertonic Solution on CellCell
Cell
The [solute] outside The [solute] outside the cell is higher than the cell is higher than inside. inside.
Water moves from low Water moves from low [solute] to high [solute] to high [solute].[solute].
The cell shrinks!The cell shrinks!Shrinking
CellShrunken
Cell
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Infusion of Infusion of hypertonic hypertonic solution into veinssolution into veins
No fluid No fluid movementmovement
Fluid Fluid movement movement into veinsinto veins
Fluid Fluid movement movement out of veinsout of veins
Infusion of Infusion of isotonic solution isotonic solution into veinsinto veins
Infusion of Infusion of hypotonic solution hypotonic solution into veinsinto veins
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Ion DistributionIon Distribution
0
50
100
150
50
100
150
mEq
/L NaNa++
KK++
ClCl--
POPO44--
ProteinProtein--
Cations Anions
Extracellular
Intracellular
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Example of Role of ElectrolytesExample of Role of Electrolytes
Nervous SystemNervous System– Propagation of Action Potential
Cardiovascular SystemCardiovascular System– Cardiac conduction & contraction
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Cardiac Conduction / ContractionCardiac Conduction / Contraction
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Composition of BloodComposition of Blood
8% of total body weight8% of total body weight Plasma: 55%Plasma: 55%
– Water: 90%– Solutes: 10%
Formed elements: 45%Formed elements: 45%– Platelets– Erythrocytes
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HematrocritHematrocrit
% of RBC in blood% of RBC in blood Normal: Normal:
– 37% - 47% (Female)– 40% - 54% (Male)
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Blood ComponentsBlood Components
Plasma: liquid portion of bloodPlasma: liquid portion of blood Contains ProteinsContains Proteins
– Albumin (60%) contribute to osmotic pressure– Globulin (36%): lipid transport and antibodies– Fibrinogen (4%): blood clotting
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Blood ComponentsBlood Components
Formed ElementsFormed Elements– Erythrocytes– Leukocytes– Thrombocytes
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ErythrocytesErythrocytes
‘‘biconcave’ discbiconcave’ disc 7-8 mcm diameter7-8 mcm diameter Packed with hemoglobinPacked with hemoglobin 4.5 - 6 million RBC/mm4.5 - 6 million RBC/mm3 3 (males)(males) AnucleateAnucleate 120 day life span120 day life span 2 million replaced per second!2 million replaced per second!
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LeukocytesLeukocytes
Most work done in tissuesMost work done in tissues 5,000 - 6,000/mm5,000 - 6,000/mm33
– Neutrophils (60-70%)– Basophils (Mast Cells) (<1%)– Eosinophils (2-4%)– Lymphocytes (20-25%)– Monocytes (Macrophages) (3-8%)
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ThrombocytesThrombocytes
PlateletsPlatelets Cell fragmentsCell fragments 250,000 - 500,000/mm250,000 - 500,000/mm33
Form platelet plugsForm platelet plugs
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HemostasisHemostasis
The stoppage of bleeding.The stoppage of bleeding. Three methodsThree methods
– Vascular constriction– Platelet plug formation– Coagulation
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CoagulationCoagulation
Formation of blood clotsFormation of blood clots Prothrombin activatorProthrombin activator Prothrombin Prothrombin Thrombin Thrombin Fibrinogen Fibrinogen Fibrin Fibrin Clot retractionClot retraction
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CoagulationCoagulation
ProthrombinProthrombinActivatorActivator
ProthrombinProthrombinThrombinThrombin
FibrinogenFibrinogen FibrinFibrin
ClotClot
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FibrinolysisFibrinolysis
PlasminogenPlasminogen tissue plasminogen activator (tPA)tissue plasminogen activator (tPA) PlasminPlasmin
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Blood TypesBlood Types
Agglutinogens (Blood Antigens)Agglutinogens (Blood Antigens) Agglutinins (Blood Antibodies)Agglutinins (Blood Antibodies) Agglutination (RBC clumping)Agglutination (RBC clumping) ABOABO Rh AntigensRh Antigens
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Type A BloodType A Blood
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Type B BloodType B Blood
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Type AB BloodType AB Blood
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Type O BloodType O Blood
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Rh AntigensRh Antigens
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Bottom line of Acid-BaseBottom line of Acid-Base
Regulation of [H+]Regulation of [H+]– normally about 1/3.5 million that of [Na+]– 0.00004 mEq/L (4 x 10-8 Eq/L)
Dependent uponDependent upon– Kidneys– Chemical Buffers
Precise regulation necessary for peak Precise regulation necessary for peak enzyme activityenzyme activity
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pH Effects on Enzyme ActivitypH Effects on Enzyme Activity
pH
Enzy
me
Act
ivity
activity
Peak Activity
activity
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Acid BaseAcid Base
Acids release HAcids release H++
– example: HCl -> H+ + Cl-
Bases absorb HBases absorb H++
– example: HCO3- + H+ -> H2CO3
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pH is logarithmicpH is logarithmic
pH = log 1/[HpH = log 1/[H++]] = - log [H= - log [H++] ] = - log 0.00000004 Eq/L= - log 0.00000004 Eq/L pH = 7.4pH = 7.4
Think of pH as ‘power of [HThink of pH as ‘power of [H++]]
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pH is LogarithmicpH is Logarithmic
pH is inversely pH is inversely related to [H+]related to [H+]
Small Small pH mean pH mean large large [H [H++]]
as as [H+] [H+] pH pH
as as [H+] [H+] pH pH
&
pH 7.4 = 0.00000004pH 7.4 = 0.00000004pH 7.1 = 0.00000008pH 7.1 = 0.00000008
(it doubled!) (it doubled!)
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Buffers Resist pH ChangesBuffers Resist pH Changes
Weak acid & conjugate base pairWeak acid & conjugate base pair HH22COCO33 HCO HCO33
-- + H + H++
Conjugate Acid Conjugate Acid conjugate base + acid conjugate base + acid
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Henderson-Hasselbalch EquationHenderson-Hasselbalch Equation
pH = pKpH = pKaa + log [base]/[acid] + log [base]/[acid]– Ex:
• = 6.1 + log 20/1• = 6.1 + 1.3• = 7.4
Key ratio is base: acidKey ratio is base: acid– HCO3
- : CO2 (standing in for H2CO3)
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pH ScalepH Scale
0 : Hydrochloric Acid0 : Hydrochloric Acid 1: Gastric Acid1: Gastric Acid 2: Lemon Juice2: Lemon Juice 3: Vinegar, Beer3: Vinegar, Beer 4: Tomatoes4: Tomatoes 5: Black Coffee5: Black Coffee 6: Urine6: Urine 6.5: Saliva6.5: Saliva
7: Blood7: Blood 8: Sea Water8: Sea Water 9: Baking Soda9: Baking Soda 10: Great Salt Lake10: Great Salt Lake 11: Ammonia11: Ammonia 12: Bicarbonate12: Bicarbonate 13: Oven Cleaner13: Oven Cleaner 14: NaOH14: NaOH
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Acid Base CompensationAcid Base Compensation
Buffer SystemBuffer System Respiratory SystemRespiratory System Renal SystemRenal System
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Buffer SystemBuffer System
ImmediateImmediate COCO22 + H + H220 0 H H22COCO33 H H++ + HCO + HCO33
--
Equilibrium: 20 HCOEquilibrium: 20 HCO33-- to 1 CO to 1 CO22 (H (H22COCO33))
Excessive COExcessive CO22 acidosis acidosis Excessive HCOExcessive HCO33
-- alkalosis alkalosis
Simplified:CO2 H+
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Question...Question...
Is the average pH of the blood lower in:Is the average pH of the blood lower in:
a) arteriesa) arteriesb) veinsb) veins
Veins! Veins! Why?Why?
Because veins pick up the Because veins pick up the byproducts of cellular metabolism, byproducts of cellular metabolism,
including…including…COCO22!!
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Respiratory SystemRespiratory System
MinutesMinutes COCO22 H H++
Respiration Respiration : CO: CO22 : H: H++ Respiration Respiration : CO: CO22 : H: H++
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Renal SystemRenal System
Hours to daysHours to days Recovery of BicarbonateRecovery of Bicarbonate Excretion of HExcretion of H++
Excretion of ammoniumExcretion of ammonium
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DisordersDisorders
Respiratory AcidosisRespiratory Acidosis Respiratory AlkalosisRespiratory Alkalosis Metabolic AcidosisMetabolic Acidosis Metabolic AlkalosisMetabolic Alkalosis
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Respiratory AcidosisRespiratory Acidosis
COCO22 + H + H220 0 H H22COCO33 H H++ + HCO + HCO33
•Simplified:
CO2 H+
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Respiratory AlkalosisRespiratory Alkalosis
COCO22 + H + H220 0 H H22COCO33 H H++ + HCO + HCO33
• Simplified:
CO2 H+
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Metabolic AcidosisMetabolic Acidosis
HH++ + HCO + HCO33 H H22COCO33 H H220 + 0 + CO CO22
•Simplified:
•Producing too much H+
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Metabolic AlkalosisMetabolic Alkalosis
HH++ + HCO + HCO33 H H22COCO33 H H220 + 0 + CO CO22
•Simplified:
•Too much HCO3
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Normal ValuesNormal Values
pH: 7.35 - 7.45pH: 7.35 - 7.45 PCOPCO22: 35 - 45: 35 - 45
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Abnormal ValuesAbnormal Values
pH PCO2
Respiratory Acidosis
Respiratory Alkalosis
Metabolic Acidosis Normal if compensating
Metabolic Alkalosis Normal if compensating
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All Roads Lead to Rome!All Roads Lead to Rome!
Respiratory OpposesRespiratory Opposes
Metabolic EqualsMetabolic Equals(or doesn’t oppose)(or doesn’t oppose)
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Example:Example:
pH = 7.25pH = 7.25 PCOPCO22 = 60 = 60
RespiratoryRespiratoryAcidosis!Acidosis!
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Example:Example:
pH = 7.50pH = 7.50 PCOPCO22 = 35 = 35
MetabolicMetabolicAlkalosis!Alkalosis!
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Example:Example:
pH = 7.60pH = 7.60 PCOPCO22 = 20 = 20
RespiratoryRespiratoryAlkalosis!Alkalosis!
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Example:Example:
pH = 7.28pH = 7.28 PCOPCO22 = 38 = 38
MetabolicMetabolicAcidosis!Acidosis!
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ResourcesResources
A Continuing Education article on Acid-A Continuing Education article on Acid-Base disturbances is available on our web Base disturbances is available on our web site at:site at:
http://www.templejc.edu/ems/resource.htmhttp://www.templejc.edu/ems/resource.htm A great online tutorial at:A great online tutorial at: http://www.tmc.tulane.edu/departments/http://www.tmc.tulane.edu/departments/
anesthesiology/acid/acid.htmlanesthesiology/acid/acid.html