Nordgren Cardiac Phys week 2

Question 1

Passive transcapillary solute diffusion depends on (4 things):

Answer 1

1. concentration gradient
2. surface area
3. diffusion difference
4. permeability of capillary wall to the substrate

Question 2

Net fluid OUT of capillary = ?

Answer 2

filtration

Question 3

Net fluid INTO capillary = ?

Answer 3

rebsorption

Question 4

Pressure of blood forcing fluid OUT of capillary?

Answer 4

Hydrostatic

Question 5

Attraction of water IN to regions of higher protein concentration?

Answer 5

Oncotic pressure

Question 6

Starling’s Hypothesis:

Net filtration rate = ?

Positive net pressure gradient = ?

Negative net pressure gradient = ?

Answer 6

(P intracapillary - P interstitial) - (oncotic pressure of intracapillary fluid - oncotic pressure of interstitial fluid)

Positive net pressure gradient = filtration

Negative net pressure gradient = Reabsorption

***hydrostatic and oncotic pressure of IF are usually zero

***oncotic pressure usually does not change

Question 7

Location of Filtration?

Answer 7

arteriole end of capillary

Question 8

Location of Reabsorption?

Answer 8

venule end of capillary

Question 9

What can cause the oncotic pressure to drop?

Answer 9

Histamine release–increases capillary permeability to protein.

Question 10

Total resistance for vessels in a series = ?

Answer 10

the sum of each individual resistance

Q = total change in P / total R

Question 11

Primary blood volume reservoir?

Answer 11

peripheral venous system

Question 12

secondary blood volume reservoir?

Answer 12

central venous system

-great veins of the thorax and right atrium

Question 13

Overall resistance to flow through the ENTIRE systemic circulation?

Answer 13

TPR

total peripheral resistance

Question 14

Adding and organ in parallel to the system will _______ the TPR.

Answer 14

decrease

Question 15

compliancy (C) = ?

Answer 15

C = change in V / change in P

** veins have much greater C than arteries

Question 16

Pressure reservoir?

Answer 16

Arteries

**small change in V builds up a lot of P –> recoils to drive blood through the periphery

Question 17

Relate MAP, CO, and TPR:

Answer 17

MAP = CO x TPR

**MAP also = Pdias + 1/3(Psys -Pdias…PP)

or

MAP = 2/3Pdias + 1/3Psys

Question 18

relate pulse pressure, stroke volume and compliance.

Answer 18

PP = SV/C arterial

Question 19

Vascular smooth muscle contraction depends on?

Answer 19

Ca2+

Question 20

Basic pathway for Ca2+ mediated VSM contraction:

Answer 20

1. Ca2+ + calmodulin
2. activation of myosin light chain kinase
3. MLC kinase + ATP –> phosphorylation of MLC protein –> MLC-PO4
4. cross bridge formation and cycling, energy from ATP –> tension development/shortening

**5. removal of phosphate from MLC returns cell to relaxation

Question 21

Resting membrane potential of VSM?

Answer 21

-40 to -65 mV

**determined by K+ permiability

Question 22

two causes of VSM action potentials:

Answer 22

1. slow inward Ca2+ current (like pacemaker cells)

2. stretch sensitive cation channels

Question 23

In addition to membrane depol, how else can Ca2+ get into VSM cell?

Answer 23

Pharmacomechanical coupling (vasoconstrictor agonist)

G coupled protein receptor, IP3 (opens Ca2+ channels in SR)

Question 24

2 methods for VSM relaxation:

Answer 24

1. hyperpolarization
2. chemical vasodilators –> Beta2 receptors –> increased cAMP/cGMP –> active protein kinase A –> lots of phoshorylation –> Ca2+ efflux, hyperpol, decreased contractile machinery sensitivity to Ca2+

Question 25

Most important means of local arterial flow?

Answer 25

Metabolic

Dilation: low O2, high CO2/H+/K+, release of adenosine

Question 26

Endothelial cells effect on arterial tone?

Answer 26

NO –> increased cGMP

Question 27

NO production stimulated by?

Answer 27

Ach, bradykinin, vasoactive intestinal peptide

Question 28

Other chemicals involved in control of arterial tone?

Answer 28

Prostaglandins, thromboxane

Question 29

Active phase of VSM reacting to change in transmural pressure:

Answer 29

myogenic respone

Question 30

Most important means of reflex control in vasculature?

Answer 30

SNS vasoconstrictive nerves

Question 31

NT and receptor for SNS vasoconstriction

Answer 31

NE, a1

Question 32

Hormonal influence for vasoconstriction and its receptor?

Answer 32

Vasopressin (ADH) – a1

Question 33

Hormonal influence for vasodilation and its receptor?

Answer 33

Angiotensin II – Beta2 (more sensitive to epi than a1)

Question 34

Is venous tone subject to local metabolic needs?

Answer 34

nope

Question 35

What is the pressure of the circulatory system if there were no flow?

Answer 35

7 mmHg

“Mean circulatory filling pressure”

Question 36

Two major variables that affect mean circulatory filling pressure:

Answer 36

1. circulating blood volume

2. state of peripheral venous tone

Question 37

Central integration of the baroreceptor reflex occurs where?

Answer 37

medullary cardiovascular centers

Question 38

where are baroreceptors located?

Answer 38

1. aortic arch

2. carotid sinuses

Question 39

When do PNS and SNS work in concert instead of reciprocally?

Answer 39

Dive reflex

Question 40

RAAS?

Answer 40

Renin, angiotensin, aldosterone system

**increased aldosterone increases Na+ reabsorption in the kidneys –> water follows