Exam1Lec4ControlofBloodFlowandTheMicrocirculation

Question 1

What are blood vessels for?

Answer 1

Delivery of nutrients, removal of wastes, and gas exchange

Question 2

How do blood vessels nutrients to the tissues?

Answer 2

Microvascular exchange a consequence of vessel permeability

Question 3

Are all blood vessels perfused all the time?

Answer 3

NO, so your body must prioritize blod flow to the metabolically active organs.

Question 4

What constitutes the highest surface area?

Answer 4

Capillary beds

with high surfce areas you can get as much o2 into your blood quickly

Question 5

Where do we see the lowest/slowest blood velocity?

Answer 5

Capillaries

they are known as the exchange vessels to allow tfor maxiumum exchanfe

Question 6

Most of the blood volume in what?

Answer 6

Veins

Question 7

Label capillaries, veins, and arterioles as
exchange vessels
capitance vessels
resistance vesses

Answer 7

capillaries-exchange vessels
veins-capitance vessels
arterioles-resistance vesses

Question 8

What are the 3 types of capillaries?

Answer 8

• Continuous (very controlled-BBB)
• Fenestrated (most normal)
• Sinusoidal (discontinous- spleen or liver)

Question 9

What do arterioles respond to?

Answer 9

• Tissue demand (metabolite)
• Flow and pressure inside the vessel
• neurogenic stimuli
• hormones, drugs, other chemical stimuli

arteriorles simultaneouslt control SVR (Systemic vascular resistance) and blood flow to tissues

Question 10

When looking at a cross section of an arteriole, what is the order of layers from innermost to outermost?

Answer 10

• Endothelial cells
• SM cells ( these constrict or dilate to regulate vessel diameter)
• Nerve bundles
• CT

Question 11

Give a general explanation of electrochemical coupling

Answer 11

There’s a membrane dep, and there is an influx of ca2+ causing muscle contraction/constriction

main thing is that calcium comes inside smooth muscle cell and causes contraction/constriction

Question 12

Give a general explanation of pharmacomechanical coupling

Answer 12

a vasoconstrictor agonist drug binds to gpcr causing different signaling cascades and specifically IP3 open Ip3 receptors on sarcoplasmic reticulum and releases ca2+ into smooth muscle cells causing constriction

main thing is that calcium comes inside smooth muscle cell and causes contraction/constriction

Question 13

Sympathetic stimulation results in what?

Answer 13

Vasoconstriction (arterioels can constict and shunt blood flow to the body)
for ex, in an experiment they shunted epineph and the smc consticted all the way so that rbc can’t go through

Question 14

neurogenic control of arteriolar tone

Sympatheitc NS
releases____ which binds to ____ causing ____
It can also have ____ released inside the cell which then triggers the release of ____ from the SR.

Answer 14

NE, alpha receptors on vmsc, constriction, ip3 Ca2+

Question 15

What is innervated by sympathetic ns by SNS fibers:?

Answer 15

arteries, arterioles, veins, and lymphatics

Question 16

neurogenic control of arteriolar tone

Parasympathetics NS releases____ which binds to ____. A signaling cascade occurs and can lead to an activation of an enzyme called ____

Answer 16

Ach, muscarinic receptors on endothelial cells, eNOS

Question 17

eNOS enzyme is going to produce ____ which then diffuses to ____ and these activate____, which then produces ____ which leads to ____.

Answer 17

NO, VSMC, sGC, cGMP, dilation

small fracion of vessels are innervated with parasymp fibers

Question 18

In the experiment that has to do with endothelial regulation of arteriolar tone, what are the main points.

Answer 18

When adding CCh and ACh they both causes relaxation bc of decr tension and dilation occuring with endothelium present. If you take a helical strip, the endothelium was removed, killing endothelial cells. So when you add a higher dose of CCh it is unable to produces NO and eNOS causing constriction.

cannot dilate vessel w/o endothelial cells

Question 19

Explain endothelial regulation of arterioriolar tone.

Answer 19

We have a ligand such as ACh, serotonin, thrombin, or bradykinin binding to a muscrinic receptor releasing Ca2+ into the endothelial cell. This release activates eNOS which needs a co-factor of eitherr Calmodulin, NADPH, FAD, BH4 to catylze a rxn of turning L-Arginine to both L-Citrulline and NO( eNOS turning to NO). NO freely diffuses into vascular smooth muscle cell activating GC with is an enzyme that converts GTP into cGMP causing relaxation.

slide 18 of lecture

cGMP activates myosin light chain phosphotase> muscle relaxation
Calcium in endothelial cell causes relaxation
Calcium in in smooth muscle cell causes constriction

Question 20

What is Sidenafil?

Answer 20

It is a cGMP phosphodiesterase inhibitor (PDE5). It breaks down cGMP deactivating the pathway of relaxation .

turns cGMP to GTP leading to contraction remaining

Question 21

Explain how arterioles contribute to myogenic response of autoregulation of blood flow

Answer 21

Arterioles protect capillary beds bc with an incr of pressure, the arteriole dilate transiently and then constricts to limit the amount of pressure reaching capillary beds to prevent rupturing and bledding from capillaries bc they don’t have a layer of smooth muslcle cells to expand.

Question 22

For myogenic response for autoregulation, is endothelium involved?
How can this response eliminated? what is required?

Answer 22

1. Endotheloum is not involved (kill endothelial cells and smc still does the job)
2. Treatment with NO will cause smc to completely dilate, so no constric occurs
3. VSMC alone is required ( no nerves )

Question 23

What is the myogenic hypotheis of autoregulation?

Answer 23

Vascular SMC themselves contracts/constricts in response to an incr in pressure. Conversely, VSMC relaxes in response to a decr in pressure.

With incr transmural pressure, incr stretch, incr constriction

transmural pressure= (pressure inside-pressue outside)

Question 24

What is active hyperemia?

Answer 24

Incr metabolic activity that creates byprodycrs that induce vasodilation and a subsequent incr in blood flow (hyperemia)

ex: working out; lots of reps, little weigjt, incr bf to muscles
eating a meal, decr in vaso resistnace, incr bf into gut to meet tissue needs

Question 25

What is reactive hyperemia?

Answer 25

Ischemia also creates a buildup of metabolic waste products that induce reactive hypermia once blood flow is reestablished (reperfusion injury)

certain amount of blood flow and it stops

This happends durign heart attacks
Iscemia, see a decr in pressure of O2, incr lactate production, CO2, and adenosine which are all potent vasodilators. Hyperemia when blood flow is restored (this isnt good bc the dilators let blood flood into the body at once)

Question 26

Explain the metabolic hypothesis of autoregulation

Answer 26

Blood flow in a given tissue is controlled by the metabolic activity of the tissue. Any intervention thatg results in an inadequate O2 supply prompts the formation of metabolic byproducts that vasodialte arteries.

lack of O2–> metabolic products–> vasodilation

Question 27

Explain flow-induced vasodialation

Answer 27

Pressure is incr on one side and lowered on the other equally. You see increases flow w/o changing pressure and you see more dilation.

Endothelium explains this and confirms that NO plays a part

Question 28

endothelial regulation of blood flow

The endothelium is a ____ and stimulates ____ in repsonse to an incr in flow by producing an ____

Answer 28

mechanosensor, vasodilation, endothelial-derived relaxing factor (NO)

Question 29

smooth muscle cells can respond to
metabolism with?
pressure with?
blood flow with?
neural stimuli with?

Answer 29

• metabolic autoregulation
• myogenic autoregulation
• endothelial-dependent control of arteriolar tone
• autonomic ns (primarily sympathetic)

Question 30

What is the main site for exchange?

Answer 30

Capillaries

Question 31

What are 4 features of capillaries?

Answer 31

1. Single layer of endothelial cells
2. Huge surface area
3. Low flow velocity
4. Cannot dilate (no smc)

Question 32

What are three different pathways that make capillaries permeable?

how do we get stuff from inside bloodstream to outside bloodstream

Answer 32

1. Cell to cell junctions: gaps b/w epithelial cells and can let things leak out ( CONT CAP)
2. Fenestrae: allows lots of fluid to pass though w/o proteins coming through
3. Caveolae: vesicles within cells can transport things from inside cell to outside (SINUSOIDAL/DISCONT)

1. fluid and protein
2. only fluid
3. pits that move nutrients across capillary beds

Question 33

What are 4 ways that vascular permeability is medically crucial?

Answer 33

1. Bathing tissues in nutrients and removal of wastes
2. Maintianing basal permeability to prevent edema
3. Inflammatory responses: incr vascular perm is 1st step in inflammation
4. Regulating the transmigration of immune cells to fight infection or resolve inflammation

Question 34

Explain what happens with a mosquito bite

Answer 34

1. Mast cells in tissue are activated
2. Histamine is released
3. You then see
   -tumor: swelling (incr perm)
   -rubor: redness (vasodilation, bf)
   -calor: hot (vasodilation, bf)
   -dolor: pain (swelling, histamine)

4 r’s of inflammation

Question 35

How does stuff get out the capillaries? (name the types of ways)

Answer 35

• Convection (filtration): high hydrostatic pressure in the capillaries forces water across the endothelium, which can drag solutes with it. (solutes follow water)
• Diffusion (osmosis): solutes across the semi-perm endothelium according to their concentration gradients ( water follows solutes)

Question 36

o

What side is filtration and do you see high or low hydrostatic pressure? and do you see high or low oncotic pressure?

Answer 36

• Arterial side
• High hydrostatic pressure
• Low oncotic pressure

Question 37

What side is reabsorption and do you see high or low hydrostatic pressure? and do you see high or low oncotic pressure?

Answer 37

• Venous side
• Low hydrostatic pressure
• Similar low oncotic pressure

Question 38

What is starling’s law of filtration?

Answer 38

Fluid is filteres from the arterial side of the capillary bed and ~90% is reabsorped on the venous side

Question 39

What is the starling’s law of filtration equation?

Answer 39

Describes fluid flux (volume flux/fluid movement)

for the revised law of filtration is that the effectice osmotic gradient is 0

Question 40

What is fick’s first law?

Answer 40

Describes solute flux

Question 41

Does fluid and solute flux go hand in hand or are they independent of one another?

Answer 41

They go hand in hand, (co-dependent of one another) if you have a lot of fluid coming out or in, its going to take the solute with it. There is an equation that puts both of them together, but it wont be on the test.

Question 42

What regulates endothelial permeability?

Answer 42

Glycoocalyx: keeps albumin inside bloodstream so it doesnt leak out. It can use vesicles if it wants to transport albumin

Juction proteins
Caveolae

Question 43

How do we maintain fluid homeostasis?

Answer 43

Lymphatic vessels (capillaries) absorb tissue fluids that your blood vessels leak out and yout smc and collecting lymphatic vessels does action potentials and pumps it towards lymph nodes to initiate an immune response.

If we don’t do this, bc will leak out everything.

Question 44

What is the general flow for how lymphatic vessels act as immune cells?

Answer 44

Blood Vessel filtration–>interstitial space & immuhne cellls–> lymphatic absorption

Question 45

How can lymphatic vessels prevent edema?

Answer 45

Incr tissue pressre (Pt) drives lymph flow, which clears excess fluid

Question 46

Why are lymphatic vessels permeable?

Answer 46

Collecting lymphatic vessels actively pump (like cardiomyoctes in the heart) and they lose small amounts of fluid and solutes ( albumin, lipids)

Question 47

How does lymph flow initiate immune respones?

Answer 47

Lymph is carried to lymph nodes along with immune cells to initate immune responses.

Question 48

What is the largest lymphatic in the body and what does it do?

Answer 48

Thoracic duct, and it empties all lymph into the left subclavian vein

Question 49

How does lymphatic vessel play a role in diet and cholesterol?

Answer 49

It is requires to the absorption of dietary lipids from the intestinal lumen and for the removal of cholesterol from peripheral tissues (rev chol transport) to take it to the liver to be excreted

Question 50

What is the macromolecule responsible for 85% if osmotic pressure gradieny in plasma?

Answer 50

Albumin and it is remived from the tissues by lymphatic vasculature

Question 51

When lymphatic vessels fail to remove fluid, what occurs?

Answer 51

Interstitial fluid builds up causing lymphedema.

Question 52

What are two ways a person can get lymphedema?

Answer 52

Inherited because of genetic mutations (Foxc2) or it can be acquired later in life ( axillary dissection for breast cancer)

Question 53

Incr lymphatic vessel permeability can lead to what?

Answer 53

Adipose deposition and obesity

Question 54

Cholesterol removal from artersclerotic plaques may be dependent on what?

Answer 54

Lymphatic vessels

Question 55

What are the 3 types of capillaries?

Answer 55

• Continuous (very controlled-BBB)
• Fenestrated (most normal)
• Sinusoidal (discontinous- spleen or liver)