Perfussin and Hemodynamics D3

Question 1

CO =

Answer 1

HR x SV

Question 2

Example of resting CO:

Answer 2

60 beats/minute x 0.1 L/beat = 6 L/minute

Question 3

Define cardiac output (CO)?

Answer 3

is the amount of blood pumped by the ventricle in one minute

Question 4

Any factor affecting the heart rate or stroke volume will affect cardiac output: True or False

Answer 4

True

Question 5

HR is responsive to what systems and what controls the HR?

Answer 5

Heart rate is responsive to SNS and PSNS tone, and controlled by the cardiovascular control centre in the medulla, the hypothalamus, and to some degree by the motor cortex

Question 6

Define stroke volume?

Answer 6

Stroke volume is the amount of blood ejected from the ventricle with each contraction

Question 7

Stroke volume is determined by what?

Answer 7

It is determined by the amount of filling or venous return, and the force of ventricular contraction or contractility and blood volume.

Question 8

Preload is described as what and is determined by what?

Answer 8

Described as the filling force applied to the heart. Preload is largely determined by the venous return to the heart

Question 9

Describe the Frank-Starling mechanism?

Answer 9

When more blood is returned to the heart, the heart stretches and generates more force to effectively pump the increased load. The more tension or stretched the heart is the stronger the contraction (more oxygen efficient than increasing HR)

Question 10

What can be seen when our preload is excessive?

Answer 10

The jugular vein is engorged.

Question 11

What is the function of the Baroreceptors to the HR?

Answer 11

Stimulate the HR to increase when low using the SNS

Stimulate the HR to reduce when high using the PSNS

Question 12

Describe Afterload?

Answer 12

Described as the pressure the ventricle must overcome to eject blood into the arteries. The load or pressure which the heart has to overcome to push or overcome in order to move blood around the circuit and out of the heart.

Question 13

Describe the structure and function of arteries.

Answer 13

Arteries are muscular blood vessels that maintain blood pressure throughout the body.

Question 14

Larger arteries, such as the aorta contain large amounts of ______ which allows them to ________ and _______ the changes in________.

Answer 14

Larger arteries, such as the aorta contain large amounts of elastin which allows them to withstand and ‘smooth out’ the changes in pressure.

Question 15

Define pulse pressure?

Answer 15

Pulse pressure is the difference between systolic and diastolic pressures in the arteries.

Question 16

Arterioles can dramatically alter the blood pressure and control the local blood flow through an area of the bod by doing what and the often referred to as what?

Answer 16

. By vasoconstricting (ie. Contracting) and vasodilating (ie. Relaxing), arterioles can dramatically alter the blood pressure and control the local blood flow through an area of the body. Arterioles are often referred to as the resistance vessels.

Question 17

What are the three layers of the artery and describe their structure?

Answer 17

Tunica intima: innermost layer of the artery wall. Thin layer of endothelial cell
Tunica media: middle layer of the artery wall, composed of smooth muscle that can constrict and dilate to change the artery’s diameter, autonomic nerves (sympathetic & parasympathetic)
Tunica externa: outermost covering of artery wall, also called tunica adventitia, composed of connective tissue that provides support for the artery

Question 18

What blocks the arteries from constricting?

Answer 18

Calcium channel blocker (CCB) medications block vasoconstriction of arteries

Question 19

In the artery what happens when blood flows flows from an area of larger vessel diameter to an area of smaller vessel diameter?

Answer 19

When blood flows from a larger area of vessel diameter to a smaller are of vessel diameter, pressure increases in the vessel

Question 20

Define Peripheral Vascular resistance (PVR)

Answer 20

the resistance caused by the blood vessels within the circulatory system
mainly influenced by the diameter of arterial blood vessel, diameter regulate by autonomic nervous system

Question 21

What is the PVR mainly influenced by?

Answer 21

mainly influenced by the diameter of arterial blood vessel, diameter regulate by autonomic nervous system

Question 22

Describe Ejection fraction (EF%)

Answer 22

Ejection fraction is a measurement of the percentage of blood leaving your heart each time it contracts

Question 23

What is the normal percentage of the blood that is pumped out or ejected in every contraction?

Answer 23

60-65%

Question 24

Define Cardiac contractility?

Answer 24

Refer to the myocardium ability to stretch and contract in response to the filling of the heart with blood.

Question 25

Do veins carry high pressure Blood and what is the structure of the wall?

Answer 25

Veins do not carry high pressure blood so their walls tend to be thinner; although, they still contain smooth muscle and are capable of vasoconstriction.

Question 26

At rest, ____of our total blood volume is in the ________of the circulation

Answer 26

At rest, 65% of our total blood volume is in the venous half of the circulation

Question 27

Why are veins called capacitance vessels?

Answer 27

When veins constrict, they rapidly return blood to the heart, increasing venous return and cardiac output.

Question 28

What are the three body structures that assist the vein in taking blood back to the heart?

Answer 28

One-way valves, skeletal muscle contraction, and changes (decrease) in thoracic pressure due to respiration assist in venous return.

Question 29

Capillaries are ________ exchange vessel

Answer 29

Capillaries are low-pressure exchange vessel

Question 30

Capillary walls consist only of?

Answer 30

Their walls consist only of simple squamous epithelia and its basal membrane, and often their lumen diameter is only wide enough for a single RBC to pas

Question 31

Most capillary walls contain small pores called ___________and what does it allow for?

Answer 31

The capillary walls contain small pores called fenestrations. These fenestrations allow small molecules to diffuse through the wall. However, blood cells and larger molecule are not allowed.

Question 32

In the tissues, _______ and _______ are allowed to diffuse out of the capillary, through the _______, and into the cell

Answer 32

In the tissues, oxygen and nutrients are allowed to diffuse out of the capillary, through the interstitial fluid, and into the cell

Question 33

In the lungs, _______diffuses out of the capillaries and ______ diffuses in

Answer 33

In the lungs, carbon dioxide diffuses out of the capillaries and oxygen diffuses in

Question 34

Pressure in the cardiovascular system is measured in ?

Answer 34

millimetres of mercury (mmHg)

Question 35

Do we spend more time in Diastole or systole?

Answer 35

Diastole: we spend more time filling the heart than contracting.

Question 36

MAP = __ x ___

Answer 36

CO x TPR

Question 37

TPR is determined by the ________, where _________ increases TPR and __________decreases it.

Answer 37

TPR is determined by the arteriole diametre, where vasoconstriction increases TPR and vasodilation decreases it.

Question 38

An increase in blood viscosity (thickness) does what to TPR?

Answer 38

An increase in blood viscosity (thickness) also increases TPR

Question 39

Pulmonary HTN is what?

Answer 39

, which is high pressure within the pulmonary arteries, creates high afterload for the right ventricle.

Question 40

What system of the body controls HR and SV

Answer 40

HR- SNS and PSNS, SV: Antidiuretic hormone (ADH)

Question 41

An increased SVR can be caused by

Answer 41

An increased SVR can be caused by vasoconstrictors, hypovolemia, or late septic shock

Question 42

A decreased SVR can be caused by

Answer 42

early septic shock, vasodilators, morphine, nitrates, or hypercarbia(elevated C02 in the blood).

Question 43

How does the SNS control the HR, what neurotransmitters does it release?

Answer 43

The SNS releases the neurotransmitter norepinephrine (NE) from its postganglionic neurons, as well as, epinephrine (E) into the blood stream

Question 44

alpha a-adrenergic receptors are found primarily in the?

Answer 44

alpha a-adrenergic receptors that are primarily in blood vessel?

Question 45

B1-adrenergic receptors are in the?

Answer 45

B1-adrenergic receptors are in the heart and juxtaglomerular cells of the kidney

Question 46

B2-adrenergic receptors are found in?

Answer 46

B2-adrenergic receptors that are found in the vessels of the limbs and heart.

Question 47

Both NE and E bind to several plasma membrane receptors what are they?

Answer 47

Both NE and E bind to several plasma membrane receptors; 1) a-adrenergic receptors that found primarily in blood vessels, 2) B1-adrenergic receptors that are found in the heart and juxtaglomerular cells of the kidney, and 3) B2-adrenergic receptors that are found in the vessels of the limbs and heart.

Question 48

Stimulating the __________ receptors in the heart causes an increase in the rate and force of contraction, while stimulating the __________ receptors in the arterioles causes vasoconstriction. __________stimulation causes vasodilation

Answer 48

Stimulating the B1-adrenergic receptors in the heart causes an increase in the rate and force of contraction, while stimulating the a-adrenergic receptors in the arterioles causes vasoconstriction. B2-adrenergic stimulation causes vasodilation

Question 49

The PSNS releases what neurotransmitter and what receptor does it bind to? and what happens when that receptor is stimulated.

Answer 49

PSNS: The PSNS releases the neurotransmitter acetylcholine that binds to a plasma membrane receptor called the muscarinic receptor. . Stimulation of the muscarinic receptor causes a decrease in heart rate

Question 50

Acetylcholine also triggers the release of ______ causing vasodilation.

Answer 50

Acetylcholine also triggers the release of nitric oxide causing vasodilation.

Question 51

During Infusion of epinephrine what receptors are predominantly activated?

Answer 51

Infusion of epinephrine predominantly activates the B-receptors

Question 52

What is the mechanism of action for B1-receptors when activated?

Answer 52

B1 activation increases the heart rate and cardiac contractility resulting in a moderate increase in systolic pressure.

Question 53

What is the mechanism of action for B2-receptors when activated?

Answer 53

B2 activation causes vasodilation to the limbs reducing peripheral resistance and mildly decreasing diastolic pressure.

Question 54

When norepinephrine is infused what receptors are stimulated and what is the mechanism of action.

Answer 54

infusion of norepinephrine also activates the B1 receptors and increases cardiac output, but norepinephrine also activates the a- receptors in the systemic arteriole.. This results in large increases in peripheral resistance, systolic and diastolic pressure

Question 55

What are the stretch receptors called and where are they located? what do they also detect.

Answer 55

Stretch receptors in the carotid sinus and the aortic arch detect changes in blood pressure. These stretch receptors are called baroreceptors

Question 56

What is the mechanism of action of the neural control of blood pressure?

Answer 56

An elevation in blood pressure stretches the baroreceptors, which send sensory impulses to the cardiovascular center in the medulla. This decreases the SNS and increases the PSNS to lower the CO and TPR, returning the BP to normal.

Question 57

What system does the Renal Control of Blood Pressure use?

Answer 57

RAAS Renin-Angiotensin-Aldosterone System

Question 58

How does the kidney influence blood pressure?

Answer 58

The kidneys influence blood pressure by regulating blood volume and by producing the enzyme renin

Question 59

(Renal Control of Blood Pressure)How does the SNS respond to a large decrease in arterial blood pressure?

Answer 59

SNS stimulation in response to a large decrease in arterial blood pressure causes constriction of the afferent renal arteriole and reduces filtration and the production of urine

Question 60

(Renal Control of Blood Pressure) What does B1 stimulation increase the production of?

Answer 60

B1 stimulation increases the secretion of renin. Renin converts angiotensinogin to angiotensin I, which is activated by ACE to produce angiotensin II