Lecture 11 Control of Blood Flow

Question 1

True or False:

The more you increase metabolism, the more you increase oxygen availability.

Answer 1

False, the more you increase metabolism, then you decrease oxygen availability.

Question 2

What effect does decreased oxygen availability have on blood vessels?

Answer 2

decreased oxygen availability -> blood vessel relaxation -> vasodilation

Question 3

What is the definition of Vasomotion?

Answer 3

Cyclical opening and closing of pre-capillary sphincters.

Question 4

What is reactive hyperemia?

Answer 4

Situation in which tissue blood flow is blocked (from seconds to hours or more) and then the blood flow is unblocked, thus yielding a blood flow increase of 4-7x that of normal blood flow.

*pathological condition

Question 5

What is active hyperemia?

Answer 5

When any tissue becomes active, rate of blood flow increases.

Question 6

What are the two types of blood flow control?

Answer 6

1) Acute Control

2) Long-term Control

Question 7

What affect does long-term control (blood flow control) have on angiogenesis? What is the duration of long-term control?

Answer 7

Long-term control increases in sizes/numbers of vessels and occurs over a period of days, weeks, or months.

Question 8

What are the two theories that regulate acute control of blood flow to tissues?

Answer 8

Vasodilator Theory

Oxygen (nutrient) Lack Theory

Question 9

When looking at the regulation of blood flow to tissues under-control by the vasodilator theory, what would have to happen to simulate the formation of vasodilators? Vasodilators like adenosine, CO2, Histamine, K, and H+ ions.

Answer 9

Metabolism would have to increase, thus decreasing oxygen availability, which stimulates the formation of vasodilators.

Question 10

In the oxygen (nutrient) lack theory that refers to blood flow control to tissues, what stimulates blood vessel relaxation, and thus vasodilation to increase blood flow to a specific tissue?

Answer 10

Decrease in Oxygen Concentration.

Question 11

Fill in the Blank:

The number of _______ _______ open at any given time is roughly proportional to nutritional requirements of tissues.

The assumption is that _____ _____ require oxygen to remain contracted.

Answer 11

pre-capillary sphincters

smooth muscles

Question 12

At 100% arterial oxygen saturation blood flow is normal. Once arterial oxygen saturation drops to 25%, how many times greater is the blood flow to that hypoxic tissue?

Answer 12

3 times great blood flow to that tissue.

Question 13

Does autoregulation have any affect on blood pressure, or is it just regulatory of blood flow to tissues?

Answer 13

Autoregulation does not return blood pressure back to normal. It just regulates blood flow to tissues.

*Within minutes, blood flow returns to normal even with elevated pressure.

Question 14

What are the two theories used to look at blood flow autoregulation?

Answer 14

Metabolic Theory

Myogenic Theory

Question 15

Explain the underlying mechanism behind the metabolic theory and how autoregulation of blood flow works.

Answer 15

Have an increase in blood flow to a region of tissue. This is sensed as too much oxygen or nutrients to a region of tissue, thus resulting in the wash out of vasodilators. Resulting in vasoconstriction and reduced blood flow to that region of tissue.

Question 16

Explain the mechanism of myogenic theory and how it’s involved in autoregulation of blood flow to a region of tissue.

Answer 16

The vessels in the region of tissue experiencing increased blood flow sensing stretching of the vessels. This in turn stimulates reactive vasculature constriction and the blood flow to that region of tissue is decreased.

Question 17

Why does the long-term control of blood flow through a muscle remain mostly constant after autoregulation than does acute control of blood flow through a muscle after autoregulation?

Answer 17

Due to increase in number and size of capillaries and arterioles in the long-term control mechanism.

Question 18

What is the special acute blood flow control mechanism in the kidneys? What does it involve?

Answer 18

Special acute blood flow mechanism is tubuloglomerular feedback

Involves the macula densa/juxtaglomerular apparatus

Question 19

What is the special acute blood flow control mechanism in the brain?

Answer 19

There is an initial increase in CO2 and/or H+ –>
(note: this increase can be caused by increase in metabolism or a blockage of blood flow to the brain)

This causes cerebral vessel dilation –>

Causes washing out of excess CO2 / H+

Question 20

What is the special acute blood flow control mechanism in the skin?

Answer 20

This is the system that controls body temperature by regulating blood flow.

Involves sympathetic nerves via CNS

3 ml/min/100 g tissue –> 7-8 L/min for entire body

Question 21

What is endothelin and what action does it have on damaged cells?

Answer 21

Endothelin is a 21 amino acid long peptide that causes vasoconstriction.

Question 22

What kind of cell produces nitric oxide (NO)?

Answer 22

Endothelial cells produce NO

Question 23

Nitric oxide, along with what enzyme, activates cGTP -> cGMP?

Answer 23

soluble guanylate cyclase

Question 24

In which cell type does cGTP get converted to cGMP?

Answer 24

Vascular Smooth Muscle Cells

Question 25

What does cGMP activate to cause vasodilation in the endothelial cell?

Answer 25

cGMP activates protein kinases

Question 26

Why is it so dangerous when there is damage to endothelial cells?

Answer 26

Hypertension can cause damage to endothelial cells, which in turn leads to the release of endothelin. Endothelin causes vasoconstriction and the damage of endothelial cells ceases the release of NO into the smooth muscle cells. Thus, cGTP is not converted to cGMP and vasodilation does not occur.

Question 27

Which enzyme mediates the conversion of oxygen + L-Arginine to NO + L-Citrulline?

Answer 27

eNOS (nitric oxide synthetase; NO has half-life of 6 seconds)

Question 28

Does norepinephrine and epinephrine control vasodilation or vasoconstriction?

Answer 28

Vasoconstriction

Question 29

Which vasoconstriction molecule normally acts to increase the total peripheral resistance?

Answer 29

Angiotensin II

Question 30

True or False:

Vasopressin is a very powerful vasoconstrictor and has a major function to control fluid volumes via the kidney.

Answer 30

True

aka = ADH

Question 31

Is histamine a vasodilator or a vasoconstrictor?

Answer 31

Vasodilator

Question 32

Which 2 cell types produce the powerful vasodilator, histamine?

Answer 32

Mast Cells and Basophils

Question 33

Which molecule that we have studied causes both vasodilation and increased capillary permeability?

Answer 33

Bradykinins

Question 34

What is the only vessel type that is not innervated by the sympathetic nervous system?

Answer 34

Capillaries

Question 35

Does the sympathetic nervous system, when activated, typically result in vasoconstriction or vasodilation?

Answer 35

Vasoconstriction

Question 36

True or False:

Sympathetic innervation causes vasoconstriction in arteries, arterioles, venules, veins, and capillaries.

Answer 36

False, causes vasoconstriction in all of the vessels except capillaries.

Question 37

What does the continual firing of sympathetic impulses from the anterolateral portion of the upper medulla (vasoconstrictor area) result in?

Answer 37

Sympathetic Vasoconstrictor Tone

Question 38

What is vasomotor tone created by the continuous signals to blood vessels from the vasoconstrictor area?

Answer 38

Partial state of contraction of blood vessels.

Question 39

What is the result when the anterolateral portion of the lower medulla (vasodilator area) is activated?

Answer 39

It inhibits activity in the vasoconstrictor area.

Question 40

The sensory area in the tractus solitarius found in the posterolateral portion of the medulla receives signals from which two cranial nerves?

Answer 40

Vagus Nerve (CN X)

Glossopharyngeal Nerve (CN IX)

Question 41

The vasomotor center in the brain is made up of three areas, sensory area, vasodilator area, and vasoconstrictor area; which portions of the higher nervous centers controls the vasomotor center?

Answer 41

Reticular Substance (RAS)
Hypothalamus
Cerebral Cortex

Question 42

At what pressure is the carotid body in the aortic arch stimulated at?

Answer 42

> 30 mmHg

Question 43

At what pressure are the carotid bodies in the carotid arteries stimulated at?

Answer 43

> 60 mmHg

Question 44

Which cranial nerve is stimulated by the baroreceptor in the aortic arch, and which vasomotor area is this impulse traveling to?

Answer 44

Vagus Nerve (CN X)

Impulse is traveling to the sensory area.

Question 45

The baroreceptor in the carotid artery stimulates which cranial nerve, and that impulse is traveling to which vasomotor area?

Answer 45

glossopharyngeal nerve (CN IX)

Sensory Area

Question 46

True or False:

The baroreceptor stimulates the vasoconstrictor center and inhibits the vasodilator center of the vasomotor center in the brain.

Answer 46

False - baroreceptors inhibit the vasoconstrictor center and stimulate the vasodilator center of the vasomotor center in the brain.

Question 47

Is the stimulation of the vasodilator area from the sensory area a positive or negative feedback system?

Answer 47

Positive Feedback System

Question 48

Is the stimulation of the vasoconstrictor area by the vasodilator area a positive or negative feedback system?

Answer 48

Negative Feedback System

Question 49

What is vasoconstrictor tone?

Answer 49

continual firing of the vasoconstrictor area that sends signals to blood vessels

Question 50

What is the partial state of blood vessel contraction that is the result of continuous signals being delivered to blood vessels from the vasoconstrictor area?

Answer 50

Vasomotor Tone

Question 51

Which two vasoconstrictor molecules are secreted from the adrenal medulla?

Answer 51

Epinephrine

Norepinephrine

Question 52

What simultaneous changes does epinephrine and norepinephrine have on rapid control of arterial pressure?

Answer 52

1) constriction of most systemic arteries
2) constriction of veins
3) increased heart rate

Question 53

When the carotid sinuses are stimulated by pressures greater than 60 mmHg, which nerve communicates this with the glossopharyngeal nerve?

Answer 53

Small Herring’s Nerves

Question 54

True or False:

Baroreceptors are stimulated by high arterial pressures.

Answer 54

False - stimulated by low arterial pressures.

Question 55

True or False:

Besides being stimulated by low arterial pressures, baroreceptors are also controlled by reticular substance (RAS), hypothalamus, and the cerebral cortex.

Answer 55

True

Question 56

What is the primary function of baroreceptors?

Answer 56

To reduce the minute-by-minute variation in arterial pressure.

Question 57

What affect does the signals from baroreceptors have on the vasoconstrictor center? Also, the vasodilator center?

Answer 57

Inhibits Vasoconstrictor Center

Excites Vasodilator Center

Question 58

Where are chemoreceptors located?

Answer 58

Located in carotid bodies in bifurcation of the common carotids and in aortic bodies.

Question 59

Through which nerves do signals from chemoreceptors pass?

Answer 59

Herring’s Nerves and Vagus Nerves

Question 60

What do chemoreceptors play an important role in?

Answer 60

Respiratory Control

Question 61

Which ion is the chemoreceptor most sensitive too?

Answer 61

H+ ion, but chemosensitive cells are also sensitive to the lack of oxygen, carbon dioxide excess, and hydrogen ion excess.

Question 62

True or False:

Low pressure receptors are located in the atria and pulmonary arteries and play an important role in minimizing arterial pressure changes in response to changes in blood volume.

Answer 62

True

Question 63

Does the increase in atrial stretch result in the decrease or increase of sodium reabsorption?

Answer 63

Decrease in Na+ reabsorption

Question 64

An increase in atrial stretch results in the release of atrial natriuretic peptide (ANP), which acts on the kidneys. Does this action result in the increase or decrease of GFR? Also, what effect does ANP have on sodium reabsorption?

Answer 64

Increases GFR and Decreases sodium reabsorption

Question 65

True or False:

The decrease in atrial stretch signals the hypothalamus to decrease ADH concentration it releases?

Answer 65

False - an increase in atrial stretch signals hypothalamus to decrease ADH concentration it releases.

Question 66

The increase in atrial stretch results in the reflex dilation of the kidney afferent arterioles. What affect does this have on kidney fluid loss and overall blood volume?

Answer 66

Increases Kidney Fluid Loss

Decreases Blood Volume