Regulation of Arterial Resistance Flashcards

1
Q

what is used to vary total peripheral resistance?

A

radius of vessels

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2
Q

what does varying the radius of vessels affect?

A

mean arterial pressure (the difference in pressure)

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3
Q

increasing TPR does what to mean arterial pressure?

A

increases it

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4
Q

what is the function of intrinsic mechanisms of controlling arteriolar constriction?

A

they are concerned with meeting the selfish needs of each individual tissue

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5
Q

what is the function of extrinsic mechanisms of controlling arteriolar constriction?

A

they are concerned with ensuring that total peripheral resistance of the whole body stays in the right ball park

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6
Q

what are the extrinsic mechanisms for controlling arteriolar constriction

A

-sympathetic nerve innervation-hormonal control (adrenaline, ADH, angiotensin II, atrial natriuretic peptide and brain natriuretic petide)

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7
Q

describe how sympathetic innervation affects the constriction of arterioles

A
  1. they release noradrenaline 2. this binds to alpha-1 receptors 3. this causes smooth muscle contraction and arteriolar constriction.4. decreases flow through that tissue and increases TPR
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8
Q

does the parasympathetic system have an effect of arteriolar constriction?

A

no

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9
Q

how does adrenaline affect arteriolar radius?

A
  1. binds to alpa-1 receptors in most tissues causing a arteriolar constriction, decreased flow and increased TPR2. in some tissues like skeletal and cardiac muscle it binds to beta 2 receptors causing arteriolar dilation therefore increasing flow and decreasing TPR
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10
Q

how does angiotensin II affect arteriolar constriction?

A

produced in response to low blood volume it causes arteriolar constriction

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11
Q

how does antidiuretic hormone affect arteriolar radius?

A

released response to low blood volume it causes arteriolar constriction

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12
Q

how do atrial and brain natriuretic peptide affect arteriolar radius?

A

released in response to high blood volumecauses arteriolar dilation

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13
Q

what are the intrinsic contol mechanisms for arteriolar constriction?

A
  1. active (metabolic) hyperaemia2.pressure (flow) autoregulation3. reactive hyperaemia4. injury response
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14
Q

describe the process of metabolic hyperaemia?

A
  1. as metabolic activity increases the conc. of metabolits in the blood increases2. this triggers the release of EDRF3. this causes arteriolar dilation to wash out the metabolites
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15
Q

describe the process of pressure (flow) autoregulation?

A
  1. a decrease mean arterial pressure causes a decrease in flow through arterioles and capillaries2. this reduces the movement of metabolites away from tissues3. this causes metabolites to accumulate4. EDRF is released and causes vasedilation to wash out metabolites
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16
Q

describe the process of reactive hyperaemia?

A

occlusion of blood supply causes a subsequent increase in blood flow

17
Q

describe the process of injury response?

A

1 injury to an area sends a action potential up a C-fibre2. a branch of the C-fibre releases substance P3. this substance stimulates mast cells to release histamine which causes arteriolar dilation4. this aids the delivery of blood-borne leucocytes to the injured area

18
Q

when is blood supply to the heart interrupted?

A

during systole

19
Q

how does the heart deal with increased demand during exercise with its interrupted blood supply?

A

-it shows excellent active hyperaemia-also expresses many beta 2 receptors which swamp any arteriolar constriction

20
Q

what sort of arteriolar regulation do the arterioles in the brain show?

A

excellent pressure autoregulation in order to keep a stable circulation

21
Q

what happens to the arterioles in the lungs when oxygen conc. decreases?

A

they constrict (opposite to most other tissues to ensure blood gets to the best ventilated parts)

22
Q

what sort sort of arteriole constriction are the arterioles in the kidneys particularly good at?

A

pressure autoregulation, as changes in MAP would have big effects on blood volume