Clin Phys Week 10 E

Question 1

What is the formula for blood pressure?

Answer 1

CO x TPR = Blood pressure

Question 2

What are the main factors that influence blood pressure?

Answer 2

Cardiac output (CO)

Total peripheral resistance (TPR)

Blood volume

Question 3

What does total peripheral resistance depend on? What does this mean in terms of vasodilation and vasoconstriction? Can TPR ever be truly calculated?

Answer 3

r to the power of 4 ( r = radius of vessels)

Vasodilation causes a drop in total peripheral resistance.

Vasoconstriction causes a rise in total peripheral resistance.

TPR cannot be completely calculated, we can estimate but never truly know the exact total peripheral resistance

Question 4

What causes an increase in the diameter of blood vessels (vasodilation)?

Answer 4

Decreased O2

Increased CO2 and other metabolites

Increased nitric oxide

Decreased sympathetic stimulation

Histamine release

Heat

Question 5

What causes a decrease in the diameter of blood vessels (vasoconstriction)?

Answer 5

Increased oxygen

Decreased carbon dioxide and other metabolites

Increased endothelin

Increased sympathetic nervous system, vasopressin, angiotensin II

Cold

Question 6

What blood vessels are affected by the sympathetic nervous system?

Answer 6

Most blood vessels with the exception of capillaries

Question 7

What is the vasomotor centre (what does it have control over, what can it be controlled by)? Where is it located?

Answer 7

It transmits impulses to all vessels of the body and is responsible for vascular tone (it keeps blood vessels in a partially contracted state to maintain normal blood pressure). It has control over the heart and peripheral vessels and can both control inhibition and excitation of these using higher brain function e.g. arousal, anger.It is located in the medulla, bilaterally in the reticular substance and the last 3rd of the pons

Question 8

What are baroreceptors? Where are they located?

Answer 8

Located in the carotid sinus and aortic arch

They comprised of spray type nerve endings located in the artery wall and are stimulated when they are stretched. The signals are sent to the vasomotor centre via CN 9 and vagus nerve and reflects the level of arterial pressure.

Question 9

What is BP maintained by?

Answer 9

Autonomic reflex negative feedback

Question 10

What part of the maintenance of BP controlled by autonomic reflex negative feedback? What does it not have control over?

Answer 10

TPR and CO. It does not have any influence over blood volume.

Question 11

What is orthostatic hypotension?

Answer 11

Failure of the autonomic reflex negative feedback causes a lack of blood supply to the head upon standing.

Question 12

List in order the autonomic reflex negative feedback loop

Answer 12

1. Baroreceptor
2. Afferent (CN IX and CN X)
3. Intergrating centre (vasomotor and cardiac centre in the medulla oblongata
4. Efferent (SNS nerves)
5. Effectors (arteries and vein walls)

Question 13

The rapid control of blood pressure integrates which 3 autonomic reflexes?

Answer 13

Baroreflexes

Chemoreflexes

Medullary ischemic reflex

Question 14

What is the result of sympathetic control on blood vessels?

Answer 14

Sympathetic control stimulates most vessels to constrict but causes dilates vessels in skeletal and cardiac muscle

Question 15

Explain the baroreflex and the impacts of increased and decreased BP

Answer 15

Baroreceptors are stretch receptors that monitor pressure in aortic arch and in carotid arteries, they send constant signals to the brainstem via afferent CN IX and CN X

An increase in BP: causes a stretch in the arterial wall and causes the rate in signals from the baroreceptors to rise.A higher rate of signals inhibits the vasomotor centre, which decreases sympathetic tone and vasodilation causes BP to drop.

A decrease in BP: causes a decreased stretch in the arteries and causes a drop in the rate of signals sent from the baroreceptors. A lower rate of signals excites the vasomotor centre which increases sympathetic tone and causes vasoconstriction to increase BP.

Question 16

What is caused by sympathetic stimulation and reciprocal inhibition of parasympathetic stimulation?

Answer 16

Almost all arterioles in the body constrict, increasing TPRVeins and other large vessels of circulation are strongly constricted (increasing circulating blood volume)

The heart is stimulated by sympathetic stimulation - increasing cardiac efficiency and increasing CO

Question 17

Stimulation of the SNS can increase arterial pressure by how much and how quickly once it is activated?

Answer 17

Can increase BP by 2-3 times in 5-15 seconds

Question 18

Inhibiting neural control of BP can reduce BP by how much and how quickly?

Answer 18

Can reduce it by 50% in 10-40 seconds

Question 19

What are the limitations of baroreceptors?

Answer 19

Stretch receptors: poorly control pressure below 50mmHg and above 170mmHg

Question 20

What happens to baroreceptors when:BP is under 50mmHgBP is over 170mmHg

Answer 20

BP under 50mmHg does not stimulate the receptor

BP over 170mmHg the receptor is overstretched

Question 21

Where are chemoreceptors found?

Answer 21

In the aortic body and carotid bodies (aortic arch, subclavian arteries, and external carotid arteries)

Question 22

What do chemoreceptors do? What are their primary and secondary roles?

Answer 22

Responds to changes in blood chemistry (e.g. pH, O2, CO2)

Primary role: adjusts respiration

Secondary role: vasomotor (hypoexmia, hypercapnia and acidosis stimulate chemoreceptors, instruct vasomotor centre to cause vasoconstriction, increased BP, increased lung perfusion and gas exchange

Question 23

What is the stimulus for the medullary ischemic reflex?

Answer 23

Inadequate perfusion of the brainstem.

Cardiac and vasomotor centres sends sympathetic signals to heart and blood vessels: Increases cardiac output and increases BP

Question 24

What is artrial control?

Answer 24

The atria and pulmonary artery have pressure receptors; a decrease in pressure causes as reflex increase in HR and BP.

• Artrial stretch causes:A dilation of arterioles in the kidneys
• Removal the fluid from the kidneys
• Secretion of atrial natriuretic peptide

Question 25

What does atrial natriuretic peptide do?

Answer 25

Promotes excretion of Na and H2O from the kidneys

Question 26

What factors of flight or fight response are seen in skeletal muscle?

Answer 26

The body must increase arterial pressure to increase muscle blood flow. Skeletal muscle vessels dilate via local factors and sympathetic control. An increase in arterial pressure assists in maintaining TPR and supplying the muscles with enough blood.

Question 27

What is blood volume regulated by? What is it controlled and monitored by?

Answer 27

Hormones. Controlled and monitored by the hypothalamus and pituitary gland

Question 28

Where are receptors for blood volume found?

Answer 28

Hypothalamus and kidneys

Question 29

In EFC, what ion does water tend to follow?

Answer 29

Na (sodium)

Question 30

What should the osmolarity of EFC be to maintain homeostasis?

Answer 30

300mOsm

Question 31

Where is the osmolarity of the of the blood monitored?

Answer 31

The hypothalamus

Question 32

What is ADH, where is it secreted from and why?

Answer 32

Anti-diuretic hormone. It helps to retain water in the kidneys. It is secreted from the posterior pituitary gland in response to hyperosmolar EFC

Question 33

In which part of the kidneys is the Na concentration in the filtrate monitored?

Answer 33

The distant tubule (macula densa)

Question 34

Where is the kidneys is BP monitored?

Answer 34

The arterial cells (juxtaglomerular cells)

Question 35

Where is renin secreted from in the kidneys and in response to what?

Answer 35

A drop in BP causes the juxtaglomerular cells to secrete the enzyme renin

Question 36

Describe the renin angiotensin aldosterone system:

Answer 36

Blood pressure is detected in receptors in the hypothalamus and kidneys, and BP is controlled by hormones and enzyme secreted from the kidneys, liver, lungs, posterior pituitary and adrenal cortex. Renin is produced from the kidneys as a result of low BP. The renin binds with angiotensinogen for the liver to make angiotensin I. Angiotensin converting enzyme from the lungs changes the angiotensin I into angiotensin II.

Angiotensin II acts on:

• The hypothalamus: to increase thirst and drinking
• The adrenal cortex: release of aldosterone from adrenal cortex caused the reabsorption of sodium from filtrate in the kidneys
• The CV system: vasoconstriction
• The posterior pituitary: ADH release

Results in increase blood volume therefore increase BP

Question 37

Describe what happens when there is a sudden drop in blood pressure

Answer 37

Baroreceptors in the aortic arch and carotid sinus detect a decrease in blood pressure because their stretch receptors are not adequately stretch and this causes a slow in the rate of signals sent along CN 9 and CN 10 to the vasomotor centre of the medulla. The medulla creates a sympathetic nervous system reaction, causing peripheral vessels to constrict. This increases TPR. The sympathetic system also stimulates the heart, causing a rise in HR. An increase in HR and an increase in TPR is going to cause a rapid increase in blood pressure.

Question 38

Describe what happens when there is a sudden rise in blood pressure.

Answer 38

The baroreceptors in the aortic arch and carotid sinus detect a rise in blood pressure, their stretch receptors are stretched more than optimal range and this causes a rise in signals sent along CN 9 and CN 10 to the vasomotor centre located in the medulla. The medulla send signals along sympathetic nervous system vasodilator fibres to dilate the peripheral blood vessels, reducing TPR. Simultaneously the parasympathetic nervous system acts on the heart, causing a drop in heart rate, decreasing CO and ultimately, with the assistance on a reduced TPR, a drop in blood pressure.

Question 39

What is an intermediate/long term system for addressing an increase in blood pressure?

Answer 39

Renin production is reduced in the kidneys. When stretch receptors in the vessels are stretched by the increase in blood pressure, granules in the atria are stimulated to secrete ANP (atrial natriuretic peptide) which promotes excretion of water and salt by the kidneys.The stretch reflex also causes an inhibition in the secreting of ADH from the posterior pituitary gland. This decreases blood volume and therefore causes a drop in blood pressure.

Question 40

What is the normal response of SV, HR and CO to exercise?

Answer 40

Increase in all

Question 41

With vigorous exercise, what happens to the myocardium of the left ventricle? Is it reversible?

Answer 41

It increases in size and becomes more efficient (not hypertrophic)

It is reversible, unlike hypertrophic which is irreversible

Question 42

What is approximate resting cardiac output?

Answer 42

5.0L/min

Question 43

What is cardiovascular drift? What causes it?

Answer 43

A gradual decrease in stroke volume and systemic and pulmonary arterial pressures and an increase in heart rate.

Occurs with steady-state prolonged exercise or exercise in a hot environment