Unit 2: Circulation Pt2

Question 1

T/F. The Vasoactive role of endothelium tends to be more vasoconstriction.

Answer 1

False– it tends to be more dilation in natures–> unless it is damaged, then vasoconstrictive

Question 2

What does endothelium release that inhibits platelet aggregation and relaxes vascular smooth muscle (vasodilation)?

Answer 2

Prostacyclin (PGI2)

Question 3

What three things does the endothelium release that will play its vasoactive role on the vessels?

Answer 3

Release:

1. Prostacyclin (PGI2)
2. Nitric Oxide (NO)–> when healthy
3. Endothelin –> when damaged

Question 4

What does endothelium release when it is healthy that is a vasodilator? What stimulates the release?

Answer 4

Nitric oxide
Release Stimulated by:
- shear stress ass. with increase flow
- ACh binding to endothelium

Question 5

What does endothelium release when it is damaged that causes vasoconstriction and may be contribute to vasoconstriction when endothelium is damaged by hypertension?

Answer 5

Endothelin

- constricts vascular smooth muscle

Question 6

What is the functional unit of circulation?

Answer 6

capillaries

Question 7

Where does bulk of exchange take place in circulation system?

Answer 7

capillaries

Question 8

What is intermittent constriction of metarterioles and precapillary sphincters?

Answer 8

vasomotion

Question 9

What are three mechanisms of capillary exchange?

Answer 9

1. Passive Diffusion
2. Ultrafiltration
3. Vesicular Transport

Question 10

What is the equation for oxygen uptake/utilization ?

Answer 10

= the product of flow (F) x arterial-venous oxygen difference

O2 = (F) (A-V O2 diff)

Question 11

What type of flow is associated with increased oxygen uptake/utilization?

Answer 11

Functional or Nutritive flow

end of page 7

Question 12

What type of flow is associated with shunting of blood through a capillary bed?*

Answer 12

Non nutritive flow

Question 13

What type of capillary exchange involves permeability and concentration gradient?

Answer 13

Passive diffusion

Question 14

What type of capillary exchange involves larger MW non lipid soluble substance?

Answer 14

vesicular transport

Question 15

What type of capillary exchange involves bulk flow through a filter (capillary wall) and Starling Forces (Hydrostate P and Colloid Osmotic P)?

Answer 15

Ultrafiltration

Question 16

What does Hydrostatic Pressure gradient favor?

ass. Ultrafiltration

Answer 16

filtration 
(high to low)
Ex:
- capillary HP averages 17 mmHg
- Interstitial HP avers -3 mmHg

Question 17

What does Colloid Osmotic Pressure favor? (ass. Ultrafiltration)

Answer 17

reabsorption
(low to high)
- Capillary COP averages 28 mmHg
- Interstitial COP average 9 mmHg

Question 18

What does the Net Filtration Pressure = ?

Answer 18

= (Capillary Hydrostatic Pressure - Interstitial HP) - (Capillary Colloid Osmotic Pressure - Interstitial COP)

Question 19

What is the most abundant plasma proteins?

Answer 19

Albumin (75%)

Question 20

What is the colloid osmotic pressure a function of?

Answer 20

function of the protein concentration 
- like plasma proteins

Question 21

What is the calculated Colloid Effect? What is the Actual Colloid Effect? What is the discrepancy b/w the two due to?

Answer 21

Calculated = 19 mmHg
Actual = 28 mmHg

Discrepancy due to Donnan Effect

Question 22

What is the Donnan Effect?

Answer 22

is increases the colloid osmotic effect; large MW plasma proteins carries neg. charges which attract pos. ions –> therefore increasing the osmotic effect by about 50%

Question 23

T/F. Proteins that can and can’t cross capillary walls will exert osmotic pressure.

Answer 23

False– ONLY protein that CANNOT cross capillary wall can exert osmotic pressure

Question 24

What effect can the capillary wall have on Colloid Osmotic pressure?

Answer 24

how tight/loose they are

Question 25

What areas have capillary walls with tight junctions?

What areas have capillary walls that are discontinuous?

Answer 25

tight junctions–> BBB

discontinuous–> liver capillaries

Question 26

Where is the body do capillaries have filtration slits (fenestrations)?

Answer 26

Glomerular Capillaries in kidney

Question 27

What expresses how readily protein can cross the capillary wall?

Answer 27

Reflection Coefficient
(ranges from 0-1)

Question 28

What does it mean when the Reflection Coefficient = 0? What if it = 1? Where is body would be ass. with these number?

Answer 28

If = 0 –> all colloid proteins freely cross wall, none are reflected, and therefore NO colloid effect –> LIVER

If = 1 –> all colloid proteins are reflected, none cross capillary wall, therefore FULL colloid effect –> BRAIN

Question 29

What drains excess fluid from interstitial space?

Answer 29

Lymph capillaries

Question 30

Where are no true lymphatics found?

Answer 30

• superficial portions of skin
• CNS?–new finding ass.
• endomysium of muscle
• bones

Question 31

What drains the lower body and left side of head, left arm, and part of chest(3/4)?

Answer 31

Thoracic duct

Question 32

What does the right lymph duct drain?

Answer 32

right side of head, neck, right arm, and part of chest (1/4)

Question 33

What is the discussion of the CNS having modified lymphatic function?

How are plasma filtrate and escaped substances in perivascular spaces returned to vascular system in CSF?

Answer 33

true lymphatic vessels just discovered in CNS near Dural Venous sinuses

via arachnoid villi which empties into Dural venous sinuses

Question 34

Where is 2/3 of all lymph from?

Answer 34

liver and intestines

Question 35

What will increase lymph formation?

Answer 35

any factor that increases filtration or any factor that decrease reabsoprtion

Question 36

What is the total lymph flow per hour? per day?

Answer 36

120 ml/hr

2.9 L/day

Question 37

What is the rate of lymph formation/flow in the Thoracic duct? Right Lymph duct?

Answer 37

Thoracic Duct = 11 ml/hr

Right Lymph Duct = 20 ml/hr

(therefore 120 ml/hr total)

Question 38

T/F. Everyday the volume of lymph filtered is roughly equal to our entire plasma volume.

Answer 38

True

Question 39

How is arterial blood pressure created?

Answer 39

by the interaction of blood with vascular wall

Arterial BP = vol of blood interacting with the wall

Question 40

What does Arterial BP =?

Answer 40

CO x TPR (Total peripheral resistance)

Question 41

Where is greater than 1/2 of TPR (total peripheral resistance) occur at?

Answer 41

at level of systemic arterioles

Question 42

T/F. A change in pressure follows a change in volume. *

Answer 42

True

Question 43

During systole the left ventricular output (SV) is ____ than peripheral runoff. What does this cause?

Answer 43

greater

therefore total blood volume rises and causes arterial BP to increase to a peak (=systolic BP)

Question 44

T/F. During systole the veins are distended.

Answer 44

False– the arteries are distended during this time

Question 45

When you see systole, think ________. When you see Diastole, think ______.

Answer 45

Systole –> stretch

Diastole –> recoil

Question 46

What is occurring during diastolic BP?

Answer 46

total blood volume in arterial tree is decreasing, which causes arterial BP to fall to a minimum value

Question 47

What serves to maintain perfusion to the tissue beds when the left ventricle is filling?

Answer 47

the arteries are now recoiling

diastole BP

Question 48

What is the stretch (systole) and recoil (diastole) of the arterial tree that normally occurs during the cardiac cycle called?

Answer 48

Hydraulic Filtering

Question 49

What phenomenon save the heart work?*

Answer 49

Hydraulic Filtering (through stretch and recoil)

– creates intermittent output by the heart to a stead delivery at the tissue beds

Question 50

Describe what happens with age and Hydraulic Filtering.

Answer 50

increase in age causes a decrease in distensibility of the arterial tree–> therefore hydraulic filtering is reduced–> and work load on the heart is increased

Question 51

What is the maximum pressure in the systemic arteries?

Answer 51

systolic blood pressure

Question 52

When does blood pressure peak?

Answer 52

as blood is ejected from left ventricle into aorta (systolic BP)

Question 53

What occurs during systole that causes arterial pressure to increase?

Answer 53

inflow volume from LV typically occurs at a faster rate than peripheral runoff out the arterial tree

Question 54

What is the minimum pressure in the systemic arteries called?

Answer 54

Diastolic Blood pressure

Question 55

How low the systemic artery BP falls is dependent on what 2 factors?*

Answer 55

1. Cycle Length–> inversely proportional to DBP

2. Total Peripheral Resistance (TPR) –> proportional to DBP

Question 56

What affect will an increase in cycle length have on DBP?*

Answer 56

decreases DBP

Question 57

What affect with an increase in TPR (total peripheral resistance) have on DBP?*

Answer 57

will increase DBP

Question 58

Will DBP change much during exercise? why or why not?

Answer 58

during exercise DBP may not change much due to:

- decrease in cycle length being offset by decrease in total peripheral resistance (TPR)

Question 59

What is the Mean Arterial Blood Pressure?

Answer 59

= 1/3 Pulse Pressure + DBP
(approximation)

(it is NOT the arithmetical mean b/w systole and diastole)

Question 60

Example: What is the Mean Arterial Blood Pressure if BP = 120/80

Answer 60

120(systole)-80(diastole) = 40(pulse pressure)
1/3 of 40 = ~13
80(diastole)+13 = 93
MAP = 93

Question 61

What do most post-ganglionic SNS terminal release? What is the predominant receptor type?

Answer 61

NE; alpha receptor

Question 62

SNS stimulation causes widespread vasoconstriction causing a decrease in blood flow, EXCEPT in what three places?

Answer 62

1. Brain (arterioles weakly innervated by SNS)
2. Lungs (arterioles weakly innervated by SNS)
3. Heart (overrides SNS vasoconstriction by local vasodilators, like adenosine)

Question 63

As the arterial pressure falls, what is the critical pressure in which flow ceases due to closure of the arterioles called?

Answer 63

Critical Closing Pressure

Question 64

What critical luminal pressure is required to keep arterioles from closing completely?

Answer 64

critical closing pressure

Question 65

What is proportional to Critical Closing Pressure?

Answer 65

vascular tone

Ex: SNS stimulation of arterioles increases tone and therefore increases CCP

Question 66

What do we call the equilibrium pressure where arterial BP = venous BP?

Answer 66

Mean Circulatory Filling Pressure

Question 67

How could Mean Circulatory Filling Pressure occur?

Answer 67

if cardiac output is stopped, arterial pressure falls and venous pressure will rise

MCFP –> arterial BP = venous BP

NOT GOOD

Question 68

How do we prevent Mean Circulatory Filling Pressure?

Answer 68

by closure of arterioles (critical closing pressure)

Question 69

What occurs if Mean Circulatory Filling Pressure = Central Venous Pressure?

Answer 69

venous return goes to 0 –> which = DEATH

Question 70

At a give Mean Circulatory Filling Pressure, as Central Venous Pressure increases, what happens to venous return?

Answer 70

venous return decreases

Question 71

What can we gather from a Vascular Function Curve?

Answer 71

Venous return on Y axis and Central Venous Pressure of X axis

–where the Vascular Function curve intersects with x-axis–> will be where Venous return = Central venous pressure –> and is called the Mean Circulatory Filling Pressure

Question 72

As Central Venous Pressure increases, what happens to cardiac output? What is this due to?

Answer 72

CO will increase; due to intrinsic and extrinsic effects

Question 73

What is the Cardiac Function Curve?

Answer 73

CO on Y-axis and Central Venous Return on X-axis

–as CVP increases so does CO

Question 74

What is the pressure in the central veins (superior and inferior vena cava) at the entry into the right atrium called?

Answer 74

Central Venous Pressure

Question 75

T/F. Central Venous Pressure = right atrial pressure

Answer 75

True

Question 76

T/F. Walking and laying down = more similar physiologically in a cardiovascular sense.

Answer 76

True (b/c when just standing, blood pools, but when talking you pump it back to heart and it is more even throughout body, just like how it is when you are lying down)