Lecture 11 - Blood flow control & Kidneys

Question 1

Describe the mechanism of acute control of blood flow

Answer 1

Vasoconstriction/dilation by means of changes to SNS tone

Question 2

Describe the mechanism behind long-term blood flow control

Answer 2

Tissue remodeling (any others???)

Question 3

Describe the theory of vasodilation in acute blood flow control.

Answer 3

Increased metabolic activity -> decreased [oxygen] -> formation of vasodilators

Question 4

Describe the theory of oxygen/nutrient lack in acute blood flow control.

Answer 4

Decr. [oxygen] causes a decrease in SNS tone -> blood vessel relaxation -> vasodilation

Question 5

Cyclical opening and closing of precapillary sphincters is known as ______.

Answer 5

vasomotion

Question 6

Why can pre-capillary sphincters remain contracted for only short times with decreased [oxygen]?

Answer 6

Long term contraction requires oxygen (oxydative phosphorylation to reconstitute ATP)

Question 7

Describe reactive hyperemia.

Answer 7

Due to blocked blood flow, tissues “react” when the blockage is removed; this increased blood flow 4-7x more than normal

Question 8

Describe active hyperemia

Answer 8

Increased metabolic activity in a tissue causes an increase in blood flow. This is to increased nutrient transport/removal of waste.

Question 9

Blood flow autoregulation show and increased blood flow and (an increase/a decrease) in BP.

Answer 9

decrease

Question 10

In autoregulation, blood pressure (is/is not) returned to normal.

Answer 10

Is not; autoregulation of flow has NOTHING to do with control of blood pressure

Question 11

What are the two theories of autoregulation of blood flow?

Answer 11

Metabolic:
increased metabolism -> increased blood flow -> too much O2/nutrients -> “wash out” of vasodilators

Myogenic:
Increased blood flow -> blood vessel dilation -> reactive vasoconstriction

Question 12

Myogenic autoregulation can occur without the presence of ______.

Answer 12

Vasosconstrictors (appears to be mediated by smooth m.)

Question 13

Monitors [NaCl] in the juxtaglomerular apparatus.

Answer 13

macula densa (part of DCT)

Question 14

Secretes renin

Answer 14

Juxtaglomerular cells

Question 15

Healthy endothelium secretes _____, which helps with maintaining vessel tone.

Answer 15

Nitric oxide (NO)

Question 16

Nitric oxide assists in the reaction of __ to ___.

Answer 16

cGTP to cGMP

Question 17

cGMP is important in the activation of _______, which promote vasodilation.

Answer 17

protein kinases

Question 18

cGTP is found in ______

Answer 18

vascular smooth muscle cells

Question 19

Damaged cells (either through HTN or trauma) secrete _____, which promotes vasoconstriction.

Answer 19

endothelin

Question 20

Damage to endothelium may cause hypertension by what mechanism?

Answer 20

Lack of NO production. This causes decreased [endothelin] -> [Nitric oxide] -> vasoconstriction; (+) feed back; essentially, the lack of nitric oxide from damaged endothelium produces HTN

Question 21

Circulation control is also mediated by humoral factors. What vasoconstriction mediators are present?

Answer 21

• NE
• Epi
• ANG II
• Vasopressin

Question 22

Released from SNS neurons, is a vasoconstrictor

Answer 22

norepinephrine

Question 23

Released from the adrenal glands, is a vasoconstrictor

Answer 23

epinephrine

Question 24

This hormone, also known as “ADH,” acts on the vessels to increase peripheral resistance

Answer 24

vasopressin

Question 25

Acts as a vasoconstrictor, controls body fluid volume; also prevents water loss

Answer 25

vasopressin (“vaso”-vessel; “-pressin” - increases pressure); AKA “ADH”

Question 26

Acts as a vasodilator by increasing capillary permeability

Answer 26

bradykinin

Question 27

Acts as a powerful vasodilator; is released from Mast cells/basophils

Answer 27

Histamine

Question 28

The SNS innervates all vessels except ______.

Answer 28

capillaries

Question 29

SNS innervation arises from _____ to _____.

Answer 29

T1-L2/L3

Question 30

Cervical sympathetic innervation arises from _____.

Answer 30

the level of T1

Question 31

What are two “phases” of local blood flow control?

Answer 31

• acute

- long-term

Question 32

The vasomotor segment of the brainstem is located in the (medulla/pons/hypothalamus).

Answer 32

Hypothalamus

Question 33

This region of the vasomotor center continually fires and acts to maintain normal vasomotor tone.

Answer 33

vasoconstrictor

Question 34

This region acts as an inhibitor to the medullary vasoconstrictor area.

Answer 34

vasodilator area

Question 35

The sensory area of the vasomotor region is located in the _____.

Answer 35

posterolateral portion of the medulla

Question 36

The sensory area of the vasomotor receives sensory input from what two Cranial Nerves?

Answer 36

Glossopharyngeal (CN IX) and vagus (CN X)

Question 37

BP less than ____ stimulates the carotid baro-R

Answer 37

60 mmHg

Question 38

BP less than ____ stimulates the aortic baro-R

Answer 38

30 mmHg

Question 39

What is the f(x) of the adrenal medulla?

Answer 39

Secretion of epinephrine and norepinephrine

Question 40

Neural control of arterial pressure occurs through severl simultaneous changes to cardiovascular f(x). What are they?

Answer 40

• constriction of systemic arteries
• constriction of veins
• increased heart rate

Question 41

Which of the following is NOT constricted by epinephrine/norepinephrine?

a) capillaries
b) veins
c) arterioles
d) arteries

Answer 41

a) capillaries

Question 42

What two receptors respond primarily to low blood pressure?

Answer 42

carotid and aortic sinuses

Question 43

These are _____

Answer 43

Herring’s nerves (carotid baro-R)

Question 44

Outline the formation of atheromas on the walls of arteries.

Answer 44

1) Injury to endothelium causes macrophage recruitment. These macrophages ingest LDL, forming “foam cells.”
2) Foam cells release chemotactic factors, which cause growth of tunica intima
3) CAMs recruit other cells (monocytes/Tcells), forming a deposit
4) Atheroma cap- smooth m., foam cells; atheroma “body”-cell debris, calcium, cholesterol, etc.

Question 45

Short connection between CN IX and the carotid baroreceptors.

Answer 45

Hering’s N.

Question 46

Connection between brainstem and the aortic baroreceptors

Answer 46

CN X (vagus nerve)

Question 47

BP = CO x _____
A. Total Peripheral Resistance
B. Flow
C. Vessel Diameter

Answer 47

A. TPR

Question 48

Which of the following is NOT a cause of primary hypertension?
A. Increased SNS stimulation
B. Inadequate salt/water loss
C. Decreased cardiac output
D. Increase in Renin-Angiogensin system

Answer 48

C. decreased cardiac output

Question 49

A patient with increased blood pressure is noted to have an increased urinary output. This is known as:
A. Pressure Natriuresis
B. Pressure Diuresis
C. Pressure controlled Renin-Angiotensin Activation

Answer 49

B. Pressure diuresis

Question 50

Causes of HTN can be “comparmentalized” into three main causes. What are they?

Answer 50

Endocrine, cardiovascular, and neurologic causes

Question 51

Which of the following is not a cardiovascular cause of hypertension?
A. Increased cardiac output
B. Coarcation of the Aorta
C. psychosis
D. Increased blood volume

Answer 51

C. psychosis

Question 52

Which of the following is not a neurologic cause of HTN.
A. sleep apnea
B. stress
C. increased intracranial pressure
D. Cushing's syndrome

Answer 52

D. Cushing’s syndrome

Question 53

Prostayclin is a potent vaso____.
A. -dilator
B. -constrictor

Answer 53

A. -dilator

Question 54

The major characteristic of of atherosclerosis is ____.

Answer 54

the projection of a lesion into the lumen of the blood vessel

Question 55

This is a major marker for inflammation, and is linked to atherosclerotic plaque formation.
A. C-reactive protein
B. Foam cells
C. Cholesterol
D. Cysteine

Answer 55

A. C-reactive protein (CRP)

Question 56

This is an inborn error of metabolism and is associated with early onset cardiovascular disease.
A. presence of C-reactive protein
B. presence of Foam cells
C. Hyperhomocystenemia
D. Familial Hypercholesterolemia

Answer 56

C. Hyperhomocystenemia

Question 57

This is associated with insulin resistance, and is characterized by obesity, fasting hyperglycemia, increased triglycerides, and HTN
A. Hyperhomocysteinemia
B. Juvenile Onset Diabetes
C. Metabolic Syndrome
D. Insulin Resistance Syndrome

Answer 57

C. Metabolic syndrome

Question 58

Short term control of arterial pressure is accomplished by:
A. SNS control
B. Nervous/Hormonal/Renal control

Answer 58

A. SNS control

Question 59

Long term arterial pressure is controlled by:
A. SNS control
B. Renal/Neural/Hormonal control

Answer 59

B. Renal/Neural/Hormonal control

Question 60

This occurs when one’s mean arterial pressure is greater than the upper range of the accepted normal pressure.

Answer 60

Chronic hypertension

Question 61

Destruction of functional kidney tissue is responsible for increased levels of blood ___.

Answer 61

Urea

Question 62

Renin is secreted by the \_\_\_\_ and acts produce \_\_\_\_\_.
A. Kidney; angiotensin I
B. Liver; angiotensinogen
C. Kidney; Angiotensin II
D. Liver; Angiotensin I

Answer 62

A. Kidney; angiotensin I

Question 63

Angiotensin I is converted to angiotensin II in the lungs by \_\_\_\_\_.
A. Renin
B. Angiotensin converting enzyme
C. Aldosterone
D. Angiotensiogenase

Answer 63

B. Angiotensin converting enzyme

Question 64

In addition to promoting renal retention of salt/water, angiotensin II also produces ______.

Answer 64

Vasoconstriction

Question 65

Atrial stretch produces atrial natriuretic peptide which results in vaso____.
A. -constriction
B. -dilation

Answer 65

B. -dilation

Question 66

One-Kidney Goldblatt Hypertension results in a decrease in distal renal arterial pressure. Why?

Answer 66

The renal artery is constricted in this procedure. As a result, there is decreased blood flow (distal renal pressure) from the clamp. However, systemic arterial pressure INCREASES due to an increase in resistance, during which the pressure is increased to overcome it.

Question 67

In addition to [ion] control, what are the other important functions of the kidney?

Answer 67

• acid-base control
• EPO secretion
• 1,25-dihhdroxy D3 production
• Gluconeogenesis