Lec5-6 Hemodynamics

Question 1

Distribution of water in body– percent of body mass? Intracellular vs interstitial vs intravascular?

Answer 1

Body is 60% water by mass:
40% intracellular [in cell]
15% intercellular or interstitial [between cells]
5% intravascular [in blood vessels]

Question 2

Normal plasma osmolality? Major osmole? Osmolarity intracellular vs intercellular vs intravascular?

Answer 2

280 mosm/L
major osmole is sodium
electrolytes, glucose, proteins, urea also contribute
Intravascular, interstitial, intracellular spaces always have equal osmolarity

Question 3

Osmosis– definition? 2 requirements for osmosis to occur?

Answer 3

Fluid moves from one chamber to equalize osmotic gradient
2 requirements:
1. driving force [difference in osmolarity]
2. semipermeable membrane

Question 4

Water and molecule movement and distributions – what can move where (between intracellular, intercellular, intravascular?

Answer 4

• water moves freely between intravascular, interstitial, intracellular so always equal osmolarity
• small solutes move through clefts in blood vessel endothelium between intravascular and interstitial [together = extracellular] so always same concentration of small solutes
• small solutes can’t pass through cell membrane so have conc. gradient between intra and extracellular
• large molec [proteins] and cells do not move freely, trapped inside cell or inside intravascular space so get concentration gradients

Question 5

Effect of half normal vs normal saline fluid on hypotensive patient

Answer 5

Half normal: decreases osmolarity of intravascular space, so water moves to intracellular/intrerstitial space to equalize osmotic pressure, all 3 spaces expand a little

Normal: osmolarity of intravascular stays the same, water and electrolytes move to interstitial to equalize concentration gradient, extracellular spaces expand [by more than for half normal]

Normal saline = better treatment for increasing intravascular volume

Question 6

Starling’s Equation

Answer 6

Jv = Kf * [(Pc + Πi) – (Πc + Pi)]

• Jv = fluid movement in ml/min
• Kf = hydraulic conductance, easyness of getting out of tube
• Filtration [movement out] = (Pc + Πi)
• • Pc = outward hydrostatic P by blood in capillary
• • Πi = outward oncotic P by proteins in interstitium
• Absorption [movement in] = (Πc + Pi)
• • Πc = inward oncotic P by proteins in capillary
• • Pi = inward hydrostatic P by interstitium

Question 7

How does fluid end up in wrong place? [4 Mech]

Answer 7

When filtration > absoprtion

1. low Πc: hypoalbuminemia, lose protein in urine
   - – nephrotic syndrome, hepatic cirrhosis, malnutrtion [kwashiokor]
2. high Pc: heart failure
   - – right sided = peripheral edema
   - – left sided = pulmonary edema
3. high Kf: sepsis and inflammation
   - – capillary leak syndrome in meningitis
4. lymphatic impairment [from surgery, mechanical]
   - – increased interstitial fluid
   - – increased Πi

Question 8

Cause/effect of low capillary oncotic pressure

Answer 8

caused by hypoalbuminemia = losing protein in urine

get more filtration than absorption, fluid leaves intravascular = edema

Question 9

Cause/effect of high capillary hydrostatic pressure

Answer 9

caused by heart failure

• • right sided heart failure –> peripheral edema
• • left sided heart failure –> pulmonary edema

Question 10

Cause/effect highly permeable blood vessels

Answer 10

• • High Kf [hydraulic conductance] due to sepsis and inflammation
• • ex. capillary leak syndrome in meningitis

Question 11

Cause/effect impaired lymphatics

Answer 11

• • due to surgery or mechanical reason
• • extra filtrate in interstitial space can’t get returned to circulatory system
• • get increased interstitial fluid
• • get increased Πi

Question 12

Definition of Edema

Answer 12

• Too much interstitial [intercellular] fluid
• Can be localized or generalized
• different from hydropic change/cell swelling which is intracellular edema

Question 13

Definition of Anasarca

Answer 13

generalized edema

Question 14

Definition of Effusion

Answer 14

type of edema - excess fluid in body cavity

Question 15

Definition of Hydrothorax

Answer 15

• Pleural Effusion

- Excess free fluid in pleural cavity

Question 16

Causes of Transudate

Answer 16

• high intravascular hydrostatic P [high Pc]
• – cardiac/vascular problem, deep vein thrombus, congestive heart failure
• low intravascular osmotic P [low Πc]
• – low plasma protein, nephrotic syndrome, chronic liver disease, protein malnutrition
• Lymphatic obstruction [high Πi]
• – inflammation, post-surgical, tumor
• Excess body fluid due to Na retention in setting of renal dysfunction
• • increase Na intake –> retention water

Question 17

What is Dependent pitting edema? Exudate or transudate? 3 main Causes?

Answer 17

• swelling occurs underneath skin usually in arms/legs/ankles, can be depressed
• transudate edema
• due to congestive heart failure, pulmonary edema, renal disfunction

Question 18

What is Hemostasis? Functional components?

Answer 18

Arrest of hemorrhage in response to vascular injury
Functional components:
- blood coagulation
- platelet aggregation
- endothelial cell interaction

Question 19

What is Hemorrhage

Answer 19

bleeding, escape of blood from vessels

Question 20

What is a Hematoma

Answer 20

localized collection of blood [usually clotted] within tissue or space

Question 21

What is Thrombosis

Answer 21

Active process of transformation flowing liquid blood to semisolid in heart/vessel of living organism

Question 22

What is a Thrombus

Answer 22

coagulated blood containing platelets, fibrin, entrapped cellular elements

Question 23

Blood coagulation pathway steps

Answer 23

1. vessel severed/injured
2. plasma in vessel contacts tissue factor [TF]
3. TF binds factor VII and activates it
4. active VIIa-TF complex activates factor X
5. Xa converts prothrombin –> thrombin and fibrinogen to fibrin
6. VIIa-TF activates IX to amplify thrombin generation through intrinsic pathway

Fibrinolysis controls size of thrombus

Question 24

What is Tissue Factor

Answer 24

extrinsic to blood, plays key role in initiating coagulation

Question 25

Are coagulation factors present in blood in absence of injury?

Answer 25

Yes – in inactivated form

Question 26

Inhibitors of platelet aggregation?

Answer 26

• Prostacylin [PGI2] and Nitric Oxide [NO] released by epithelial cells
• Antithrombin III: binds heparin like molec on epithelial cell surface –> inactivates thrombin, factors Xa/IXa

Question 27

Role of platelets in thrombosis

Answer 27

• form initial hemostatic plug

- release Ca, ADP, Thromboxane A etc that attract more circulating platelets to site of injury

Question 28

Virchow’s triad

Answer 28

Causes of thrombosis

1. endothelial injury
2. alteration in flow
3. hypercoagulable blood

Question 29

Cause of endothelial injury?

Answer 29

Most important for arterial thrombus

• ruptured atherosclerotic plaque
• inflamed cardiac valve [endocarditis]
• inflamed vessel [vasculitis]
• MI
• hypertension, turbulent flow, bacterial products

Question 30

Most likely cause arterial thrombus

Answer 30

injured endothelium

Question 31

Most likely cause venous thrombus

Answer 31

altered flow - obstruction

Question 32

Cause of altered flow?

Answer 32

• anuerysms
• atherosclerotic plaques
• atrial fibrillation
• dilated cardiac ventricles
• obstruction = particularly important in venous thrombus

Question 33

Cause of hypercoagulable blood?

Answer 33

primary: inherited coagulation factor or inhibitor abnormality
- factor V leiden – alternate form favor V that can’t be inactivated by activated protein C
- prothrombin gene mutation
- Protein C or S deficiency
- Antithrombin III deficiency
- Homocysteinuria

secondary

• oral contraceptives
• pregnancy
• cancer
• polycythemia
• antiphospholipid antibody syndrome

Question 34

Thrombin-Thrombomodulin rxn

Answer 34

• Thrombin binds thrombomodulin on epithelial cell surface and activates protein C
• active protein C with protein S cause proteolysis of Va and VIIa

Question 35

Lines of zahn

Answer 35

• alternating layers of paler fibrin/platelets and red blood cells
• indicated thrombus that formed in flowing blood
• allows you to differentiate from clot

Question 36

Clot

Answer 36

• Blood solidified OUTSIDE vascular system or has solidified in blood vessels POSTMORTEM

Question 37

Thrombus vs clot

Answer 37

• Clot not attached to wall of vessel
• “Chicken fat” appearance of plasma in clot
• “Currant jelly” appearance of RBCs in clot
• No lines of zahn in clot

Question 38

5 Possible outcomes thrombus

Answer 38

• propagation
• lysis
• organization and recanalization
• become infected
• embolize

Question 39

embolus

Answer 39

sold, gas, or liquid other than liquid blood that travels through vessels and lodges somewhere

Question 40

5 types of emboli

Answer 40

• thromboemboli
• atheroemboli
• fat
• air
• tumor

Question 41

Thromboemboli

Answer 41

• Most common = pulmonary thromboembolus
• most common source = deep leg veins
• possible manifestations
• – asymptomatic
• – sudden death [saddle embolus]
• – pulmonary hemorrhage/infarction
• – chronic pulmonary hypertension

Question 42

Arterial Embolus

Answer 42

• Embolus ends up in the systemic circulation

- Cause occlusion blood vessels in systemic organs [brain, heart, etc] or lower extremities

Question 43

Paradoxical Embolus

Answer 43

• thrombus forms in vein and travels through patent foramen ovale into artery and enters systemic circulation
• normally if no patent foramen ovale would have traveled to lungs first and get pulmonary embolism

Question 44

Atheroemboli

Answer 44

Debri from ruptured atherosclerotic plaque embolized from aorta to brain, kidney, toes, etc

Question 45

Air Embolism

Answer 45

Caused by

• delivery through ruptured vein
• chest trauma
• cardiac surgery
• decompression sickness

Question 46

Fat Embolism

Answer 46

• after fracture or orthopedic surgery –> fat from marrow released into circulation
• lipid obstructs vessels, releases fatty acids causes endothelial injury
• pulmonary fat emboli cause edema, diffuse respiratory dysfunction
• can also embolize to brain/kidneys/heart

Question 47

Infarction

Answer 47

Area of irreversible tissue necrosis due to ischemia

Question 48

Ischemia

Answer 48

imbalance of oxygens supply and demand due to loss of blood flow from obstructed arterial flow or reduced venous drainage

Question 49

White infarct

Answer 49

• due to arterial occlusion
• single blood supply
• not reperfused
• wedge shaped area of infarction
• solid tissue
• kidney, heart, spleen

Question 50

Red infarct

Answer 50

• due to venous occlusion
• dual blood supply
• reperfused
• loose tissue
• brain, lungs, liver, GI tract, testicular torsion

Question 51

Disseminated Intravascular Coagulation

Answer 51

• excessive secondary activation of coagulation leads to thrombus formation in microvasculature
• causes micro-infarction of multiple organs
• uses up/depletes clotting factors and platelets
• leads to hemorrhage, bleeding diathesis [ high susceptibility to bleeding]
• uncontrolled hemorrhage may lead to shock

Question 52

Causes of DIC [disseminated intravascular coagulation]

Answer 52

• Release of TF - tumors, tissue injury, obstetrical complication
• Endothelial injury
• Bacterial Sepsis - IMPORTANT FOR QUIZ
• Burns

Question 53

DIC [disseminated intravascular coagulation] pathology in tissues

Answer 53

• many venules/capillaries/arterioles have fibrin-platelet thrombi
• ischemic changes in many organs –> multi-organ failure
  schistocytes in blood

Question 54

Schistocytes

Answer 54

• fragmented RBCs
• sign of microangiopathic hemolytic anemia
• sign of DIC [disseminated intravascular coagulation]

Question 55

Diagnosis DIC

Answer 55

Laboratory
- decreased platelets + fibrinogen
- prolonged lab tests of coagulation [takes long time for blood to clot in test tube]
- fibrin-split products in blood [product of plasmin degradation of fibrin thrombus]
Morphology
- schistocytes on peripheral blood smear
- fibrin-platelet thrombi histologically

Question 56

Treatment DIC

Answer 56

• Treat underlying disease

- Heparin

Question 57

Shock – 3 causes?

Answer 57

circulatory collapse = global hypotension with widespread hypoperfusion of tissues

3 Causes

• cardiogenic [MI, arrhythmia]
• hypovolemic [hemorrhage]
• septic [microbial infection]

Question 58

Effect of hypoperfusion

Answer 58

• lactic acidosis [low pH]
• hypotension
• tissue ischemia and necrosis
• multi-organ system failure

Question 59

Septic shock

Answer 59

• secondary to infection [ usually gram + or -]
• bacterial products / inflammatory mediators –> vasodilation and increased vascular permeability
• often leads to DIC

Question 60

Compensated shock

Answer 60

• normal BP, no urine output
• tachycardia
• peripheral vasoconstriction in hypovolemic/cardiogenic shock
• recovery possible

Question 61

Decompensated shock

Answer 61

• low BP
• widespread tissue hypoperfusion/hypoxia –> lactic acidosis
• renal insufficiency

Question 62

Irreversible shock

Answer 62

• low BP, lactic acidosis, organs die

- leads to death

Question 63

Pathology of shock

Answer 63

• necrosis of areas farthest from arterial supply
• – centrilobular necrosis liver
• – mucosal necrosis intestines
• – subendocardial necrosis of heart
• necrosis of vulnerable cells
• – diffuse hypoxic neuronal injury of brain
• – epithelial necrosis of kidney

Question 64

Does ADP inhibit or promote thrombus formation?

Answer 64

Promotes – ADP is released from platelets when they are activated and cause activation of other platelets for aggregation to form thrombus

Question 65

Thromboxane A2

Answer 65

Produced by activated platelets, promotes activation of more platelets and thrombus formation

Question 66

What is the effect of high hydrostatic pressure?

Answer 66

get heart failure

• • left –> leads to pulmonary edema
• • right –> leads to passive congestion in liver, periphery/limbs [generalized edema]

Question 67

What is the cause of low oncotic pressure

Answer 67

• not taking in enough [malnutrition]
• peeing too much [nephrotic sundrome]
• protein losing enteropathy
• inflammation from infection, tumor, sarcoidosis

Question 68

What is protein losing enteropathy

Answer 68

• condition of GI tract that results in net loss of protein from body
• causes: crohn’s, celiac, amyloidosis,

Question 69

What is in transudate? Cell content, Protein, specific gravity, endothelial intact or not intact, etiology?

Answer 69

• no cells
• not much protein
• specific gravity < 1.012
• intact endothelium, ultrafiltrate
• due to F. S. equation mechanisms

Question 70

What is in exudate? Cell content, Protein, specific gravity, endothelial intact or not intact, etiology?

Answer 70

• lots of cells mostly neutrophils
• lots of protein
• specific gravity > 1.020
• endothelium not intact, increased vascular permeability
• due to infection

Question 71

Is transudate associated with increased vascular permeability?

Answer 71

NO!!!

Question 72

What are 5 inherited diseases that lead to hypercoagulation?

Answer 72

• factor V leiden – alternate form factor V that can’t be inactivated by activated protein C
• prothrombin gene mutation
• Protein C or S deficiency
• Antithrombin III deficiency
• Homocysteinuria

Question 73

What is factor V leiden?

Answer 73

alternate form of factor V that can’t be inactivated by activated protein C

Question 74

What is the antigen in goodpastures?

Answer 74

Collagen IV in glomerular basement membrane