Regulation of Blood Flow

Question 1

Ohm’s Law

Answer 1

Flow between any two points is pressure difference divided by resistance

Question 2

Is it more advantageous to regulate blood flow by changing pressure or by changing resistance?

Answer 2

Resistance. Changing resistance allows you to regulate pressure in each organ individually. Changing pressure would have an affect on all organs.

Question 3

Small changes in radius yield —— changes in resistance?

Answer 3

Large. Resistance is related to the inverse of the 4th power of the radius

Question 4

Contributors to rapid regulation of vascular resistance at a local level are?

Answer 4

Regulation by local factors
Regulation by the sympathetic nervous system
Regulation by humoral factors.

Question 5

Slow regulation of vascular resistance involves what?

Answer 5

Reduction in blood vessel lumen size (hypertrophy) and/or change in number of blood vessels per tissue unit

Question 6

Hyperemia

Answer 6

increased blood flow

Question 7

Active hyperemia

Answer 7

increased blood flow due to increased function

Question 8

Reactive hyperemia

Answer 8

follows reduction of blood flow to a specific site

Question 9

More metabolism =

Answer 9

more blood flow

Question 10

Less oxygen saturation causes what effect on bloodflow?

Answer 10

less oxygen sat leads to more blood flow

Question 11

Products of metabolism may play an important role inregulation of blood flow.

Answer 11

Important vasodilator metabolites are ATP, Adenosine, ADP, AMP, Carbon Dioxide, Lactic Acid, Potassium

Question 11

Products of metabolism may play an important role inregulation of blood flow.

Answer 11

Important vasodilator metabolites are ATP, Adenosine, ADP, AMP, Carbon Dioxide, Lactic Acid, Potassium

Question 12

Describe how metabolites control blood flow in active hyperemia

Answer 12

Increased tissue activity leads to increased metabolism which leads to increased metabolite accumulation, vasodilation and increased blood flow.

Question 12

Describe how metabolites control blood flow in active hyperemia

Answer 12

Increased tissue activity leads to increased metabolism which leads to increased metabolite accumulation, vasodilation and increased blood flow.

Question 13

How do metabolites control blood flow in reactive hyperemia?

Answer 13

Decreased bllod flow leads to an increase in metabolite accumulation which leads to vasodilarion and increased blood flow

Question 13

How do metabolites control blood flow in reactive hyperemia?

Answer 13

Decreased bllod flow leads to an increase in metabolite accumulation which leads to vasodilarion and increased blood flow

Question 14

Mechanisms responsible for autoregulation?

Answer 14

Metabolic and Myogenic

Question 14

Mechanisms responsible for autoregulation?

Answer 14

Metabolic and Myogenic

Question 15

In the myogenic mechanism, Stretch induces what?

Answer 15

calcium channel activity

Question 15

In the myogenic mechanism, Stretch induces what?

Answer 15

calcium channel activity

Question 16

Major innervation of blood vessels?

Answer 16

Sympathetic fibers.

Major transmitter substance is norepinephrine

Question 16

Major innervation of blood vessels?

Answer 16

Sympathetic fibers.

Major transmitter substance is norepinephrine

Question 17

Where are blood vessels most heavily innervated?

Answer 17

Cutaneous, renal, splanchnic, skeletal muscle

Question 17

Where are blood vessels most heavily innervated?

Answer 17

Cutaneous, renal, splanchnic, skeletal muscle

Question 18

What areas are mores sparsely innervated?

Answer 18

Cerebral and Coronary vasculature

Question 18

What areas are mores sparsely innervated?

Answer 18

Cerebral and Coronary vasculature

Question 19

Sympathetic nerve stimulation impacts vascular resistance how?

Answer 19

Increases it

Question 19

Sympathetic nerve stimulation impacts vascular resistance how?

Answer 19

Increases it

Question 20

Norepinephrine and Epinephrine are released from where>

Answer 20

Adrenal Medulla via sympathetic stimulation

Question 20

Norepinephrine and Epinephrine are released from where>

Answer 20

Adrenal Medulla via sympathetic stimulation

Question 21

Alpha receptors mediate what?

Answer 21

Vasoconstriction

Question 21

Alpha receptors mediate what?

Answer 21

Vasoconstriction

Question 22

Beta receptors mediate what?

Answer 22

vasodilation

Question 22

Beta receptors mediate what?

Answer 22

vasodilation

Question 23

Norepinephrine mainly interacts with what receptors?

Answer 23

Alpha

Question 23

Norepinephrine mainly interacts with what receptors?

Answer 23

Alpha

Question 24

Epinephrine usually interacts with what receptors?

Answer 24

Beta

Question 24

Epinephrine usually interacts with what receptors?

Answer 24

Beta

Question 25

Angiotensin II does what>

Answer 25

constricts arteries and veins

Question 25

Angiotensin II does what>

Answer 25

constricts arteries and veins

Question 26

Vasopressin

Answer 26

regulates plasma volume by directing kidneys to decrease urine output

Question 26

Vasopressin

Answer 26

regulates plasma volume by directing kidneys to decrease urine output

Question 27

Brdykinin

Answer 27

a polypeptide whereas histamine is a biogenic amine. Both are vasodilators and increase capillary permeability.

Question 27

Brdykinin

Answer 27

a polypeptide whereas histamine is a biogenic amine. Both are vasodilators and increase capillary permeability.

Question 28

Prostaglandins

Answer 28

vasodilators

Question 28

Prostaglandins

Answer 28

vasodilators

Question 29

Atrial natriuretic peptide

Answer 29

Released from atrial myocytes and tells kidneys to make more urine

Question 29

Atrial natriuretic peptide

Answer 29

Released from atrial myocytes and tells kidneys to make more urine

Question 30

Nitric Oxide

Answer 30

Potent vasodilator

Question 30

Nitric Oxide

Answer 30

Potent vasodilator