4.8 Homeostasis

Question 1

Edema

Answer 1

accumulation of fluid in interstitial space - several causes

Question 2

Hydrothorax

Answer 2

collections of fluids - low protein (basically water) so not an infection

Question 3

Ascites

Answer 3

peritonial cavity fluid acumulation - abdomen

Question 4

Anasarca

Answer 4

whole body edema

Question 5

Transudate

Answer 5

low protein fluid that leaks out (mostly water)

Question 6

Exudate

Answer 6

high protein fluid leaking out

Question 7

Effusion

Answer 7

collection of fluid in the cavity

Question 8

Hyperemia

Answer 8

increased dialation of vessels, an active process caused by mediators

Question 9

Congestion

Answer 9

blood can’t get out of vessels and looks red, caused by blockage

Question 10

Hemorrhage

Answer 10

beeding

Question 11

Hematoma

Answer 11

collection of fluid in tissue

Question 12

tissue hydrostatic pressure, oncotic pressure, and tissue compliance affct the

Answer 12

vessel and amout of resistance

Question 13

Pc

Answer 13

capillary pressure

Question 14

Pa

Answer 14

arterial end pressure

Question 15

Pv

Answer 15

venous end pressure

Question 16

Ra

Answer 16

arterial end resistance

Question 17

Rv

Answer 17

venous end resistance

Question 18

thigns that increase pressure at capilary level induce

Answer 18

lots of fluid leaving

Question 19

what will change the rate of fluid leaving most drastically

Answer 19

venous block - increase in venous pressure will cause over a 5 forld increase in fluid leaving due to the increased hydrostatic pressure.
With hypertension you don_t see puffy faces, but with venous block you’ll have inc fluid in tissues. bc Ra > Rv inc in Pa has less of an effect on Pc than inc in Pv

Question 20

Pc formula

Answer 20

Pc = ((Rv/Ra)Pa + Pv) / (1 + (Rv/Ra) )

Question 21

Tissue hydrostatic pressure (Pt) formula

Answer 21

Pt = Tf x Tc

Question 22

Tf

Answer 22

tissue fluid

Question 23

Tc

Answer 23

tissue compliance

Question 24

Pt is usually near

Answer 24

0

Question 25

Tc is usually

Answer 25

low

Question 26

inc in Tf causes

Answer 26

inc in Pt

Question 27

inc in Pt

Answer 27

usually timints Tf

Question 28

where is Tc very high and what is the effect?

Answer 28

lungs bc there is air surrounding capllaries so no back pressure,
so in congestive heart failure when there is an increase in pulmonary aretery pressure,
you’ll see pulmonary edema

Question 29

osmotic/oncotic pressure (Pcos)

Answer 29

capilary osmotic/oncotic pressure due to proteins

Question 30

Pcos is determined by

Answer 30

permeabiity of endothelium to proteins and amount of fluid vs protein

Question 31

Permeabiity to proteins is determined by

Answer 31

type of capillary and physiology of endothelium

Question 32

Most oncotic pressure is from

Answer 32

albumin__salt doesn’t really matter with respect to vessels

Question 33

tissue oncotic pressure is determined by

Answer 33

tissue protein and fluid concentrations

Question 34

inc capillary filtration of low pretein and fluid

Answer 34

decreases tissue oncotic pressure

Question 35

filtration of high protein fluid

Answer 35

increases tissue oncotic pressure

Question 36

causes of edema

Answer 36

increased intravascular hydrostatic pressure,
decreased intravascular osmotic pressure - won’t pull fluid in so it tends to go out,
lymphatic obstruction,
sodium retention,
inflammation

Question 37

increased hydrostatic pressure due to

Answer 37

impaired venous flow,

arteriolar dilatation

Question 38

imaired venous flow can be caused by

Answer 38

thrombosis,
heart failure,
pressure,
scarring

Question 39

arteriolar dilatation

Answer 39

heat,

inflammation

Question 40

decreased osmotic pressure

Answer 40

decreased protien in plasma

Question 41

decreased protein in plasma is due to

Answer 41

lose it or don’t make it - glomerular nephritis,
liver disease,
nutritional deficiencies

Question 42

glomerular nephritis

Answer 42

protein is not supposed to leave but if glomerulus gets damaged you can drop protein levels quickly

Question 43

liver disease

Answer 43

when you have end stage chirrosis you see dropped albumin and clotting factors bc you can’t make as much .terminal at this point..ince edema with reduced albumin you’ll see anasarca

Question 44

lymphatic obstruction can be caused by

Answer 44

neoplasia, 
surgery, 
radiation, 
infection/inflammation, 
special infections like filaria (elephantitis)

Question 45

salt retention results from

Answer 45

renal dysfunction -renin angiotensin dysfn?

Question 46

salt retention causes

Answer 46

bon increased hydrostatic pressure and decreased osmotic pressure

Question 47

heart failure

Answer 47

inability of heart to pump out everything it receives - heart can only pump the blood it recieves up to its physiological limit

Question 48

inability to perfuse tissues

Answer 48

cadiogenic schock

Question 49

why is heart stupid

Answer 49

bc it just recives blood and when it can’t then there is failure

Question 50

closed hydraulic loop

Answer 50

heart,
lungs,
vessels

Question 51

which side heart failure is more common

Answer 51

left sided bc that’s where you have heat attacks, this is the ventricle that has to pump out blood and this is the one that can die, commonly due to ischemia

Question 52

common cause of right sided heart failure

Answer 52

left sided heart failure bc the pressure that cant be dealt with in the left is transmitted to the lungs where pulmonary edema will be seen and also back to the right ventricle

Question 53

what vessels see increased pressure in rigth ventricular failure

Answer 53

the venacava pressure goes up and you’ll see pedal edema bc getting blood back from the extermities is already hard and with inc pressure to fight against, it will be even harder. May also see jugular distension

Question 54

what other complications do you see with heart failure

Answer 54

kidneys - the low cardiac output stimulates the kidney activate the renin-angiotensin-aldosterone system causing: increase Na and water retention, increased blood volume, and increased volume returing to the failing heart (cycle of doom)

Question 55

morphology and distribution of Edema

Answer 55

localized vs anasarca, 
dependent, 
pitting, 
periorbital, 
pulmonary, 
brain

Question 56

non pitting edema

Answer 56

in hyper thyroid problems where large polysaccharides leak fluid

Question 57

why does brain swelling last for a long time

Answer 57

brain doesn_t have lymphatics

Question 58

fluid from lung in heart failure

Answer 58

just transudate, low protein

Question 59

fluid from lung in hyperemia

Answer 59

high protein content due to dialation and leaky endotheial vessesl

Question 60

what transmits more pressure to the capilaries

Answer 60

congestion transmits more pressure to the capillaries than inflammation or dialation of arteriole

Question 61

hemorrhage

Answer 61

petechiae, purpura, ecchymosis, hemothorax, hematoma

Question 62

petechiae

Answer 62

1-3mm

Question 63

purpura

Answer 63

> 3mm <1-2cm

Question 64

ecchymosis

Answer 64

> 1-2cm

Question 65

rapid loss of up to ___. of blood volume or slow losses of more can be tolerated by young healthy individuals

Answer 65

20%

Question 66

epidural bleeds are

Answer 66

areterial

Question 67

subdural bleeds are

Answer 67

venous

Question 68

Hemostasis

Answer 68

maintainance of flow and generation of hemostatic plug at sites of hemorrhge

Question 69

clot

Answer 69

coagulated blood

Question 70

thrombus

Answer 70

coagulated blood inside of a vascular space - almost always pathological

Question 71

normal endothelium secretes

Answer 71

antiplatelet PGI2 that keeps flow gowing

Question 72

anti-thrombin III

Answer 72

inactivates thrombin and other activated factors

Question 73

heparin-like molecules also promote

Answer 73

flow

Question 74

thrombomodulin

Answer 74

converts thrombin into an activator of protein C

Question 75

Protein C cleaves

Answer 75

factors 5a and 8a (Va and VIIIa)

Question 76

Prtein C needs

Answer 76

protein S form endothelial cell

Question 77

t-PA

Answer 77

tissue plasminogen activator makes plasmin to promote flow

Question 78

NO

Answer 78

nitric oxide keeps vessesl open constitutively mad by endothelial cells

Question 79

laminar flow favours flow by

Answer 79

keeping cells away from cell walls

Question 80

Most potent stimulus for coagulation

Answer 80

collagen bc you don’t normally see collagen in your vessels

Question 81

if there is a chunck of endothelial cell loss then

Answer 81

collagen is exposed to plasma promoting coagulation

Question 82

platelets cannot bind collagen without

Answer 82

vonWillebrand factor - that factor has receptors for platelets and ECM__allows for aggregation activation and secretion of platelets

Question 83

tissue factor

Answer 83

extrinsic pathway activated by LPS and cytokines induce endothelial cells to produce TF (DIC)

Question 84

On injury endothelial cells change phenotype

Answer 84

form proflow to pro thrombotic – stop secreting prostacylin and mitric oxide and secrete procoagulation things instead

Question 85

Injured tissues releases

Answer 85

tissue factor to start the coagulation path

Question 86

platelet functions

Answer 86

adhesion,

secretion

Question 87

adhesion

Answer 87

vWF binds to collagen and platelets

Question 88

secretion

Answer 88

alpha granules, dense bodies

Question 89

alpha granules

Answer 89

fibrinogen, PDGF, TGF-b, vWF, platelet factors IV

Question 90

Dense bodies

Answer 90

ADP, Ca2+, histamine, serotonin, epinephrine, TXA2, and phospholipid complex

Question 91

primary coagulation

Answer 91

aggregation induced by ADP and TXA2 - primary hemostatic plug, coagulation cascade is initiated making thrombin

Question 92

secondary hemostatic plug

Answer 92

thrombin with ADP and TXA2 induces tighter aggregation to irreversibly fused mass of platelets - secondary hemostatic plug

Question 93

primary coagulation stops you from bleeding but

Answer 93

if you distrupt it you’ll bleed

Question 94

how do you find out pure platelet fn

Answer 94

form a regulated cut and using a stop watch wait till it stops bleeding - this is the formation of the primary hemostatic plug

Question 95

Platelet binding and aggregation

Answer 95

platelets bind to vWF via surface Gp1b

Question 96

Gp1b deficiency

Answer 96

Bernard - Soulier syndrome

Question 97

adp binds to its receptor and induces platelet aggregation via change in

Answer 97

confromation of Gp2bIIIa

Question 98

Gp2bIIIa bind to

Answer 98

noncleaved fibrinogen and that all liks the platelets together

Question 99

Gp2bIIIa deficiency

Answer 99

Glanzmann thrombasthenia

Question 100

adp receptor antagonsit

Answer 100

clopidogrel (plavix)

Question 101

Plavix

Answer 101

inhibits platelet aggregation via inhibition of the induced conformational change in Gp2bIIIa

Question 102

asprin inhibits

Answer 102

thromboxane production

Question 103

can you give asprin and plavix at the same time

Answer 103

no