The circulation of blood

Question 1

What are the core components of the cardiovascular system?

Answer 1

• Heart
• Blood Vessels
• Brain
• Kidneys
• Adrenal Glands

Question 2

What is the function of the cardiovascular system?

Answer 2

• to maintain an adaptable supply of blood to tissues in order to supply nutrients and signalling molecules and to remove waste products
• to establish pressure differentials across tissues for capillary exchange

Question 3

What is the physics of blood flow called?

Answer 3

Haemodynamics

Question 4

What is the flow of blood from point A to point B determined by?

Answer 4

• Resistance, R

- Pressure difference, P

Question 5

What is the equation to work out flow?

Answer 5

Flow = difference in pressure/ difference in resistance

Question 6

What is resistance determined by?

Answer 6

• Length of vessel (easier to flow through smaller vessel)
• Radius of vessel
• Fluid viscosity

Question 7

What is the flow of blood proportional to?

Answer 7

The radius of the vessel to the power of 4 (r^4)

Question 8

What is the rate of blood flow through the vessels proportional to?

Answer 8

The diameter of the vessel

Question 9

What do small changes in arteriole diameter do?

Answer 9

Drastically alter tissue blood flow

Question 10

What has the greatest impact on how we control the flow of blood through the body?

Answer 10

The diameter of the blood vessel

Question 11

How is a pressure gradient generated?

Answer 11

Through contraction of the heart muscle

Question 12

What is systole?

Answer 12

Contraction of the chambers of the heart

Question 13

What is diastole?

Answer 13

Relaxation of the chambers of the heart

Question 14

What units is cardiac pressure in?

Answer 14

mm of mercury (mmHg)

Question 15

Are cardiac pressures higher during systole or diastole?

Answer 15

Systole

Question 16

Why is systole in the left ventricle greater?

Answer 16

Because it needs to pump blood around the body

Question 17

How do the elastic vessels ensure that a pressure wave is continued as blood enters the circulation?

Answer 17

Bulges at high pressure because of the presence of blood and then undergoes a recoil in order to move the blood through the circulation and keep it at high pressure

Question 18

When do the large and medium elastic arteries need to act as ‘pressure reservoirs’? (maintain the pressure gradient)?

Answer 18

During the diastolic phase

Question 19

List the vessels in order of pressure gradient from highest to lowest

Answer 19

• left ventricle
• aorta
• large arteries
• small arteries
• arterioles
• capillaries
• veins (very low)

Question 20

What is a high blood pressure?

Answer 20

Over 140 systolic pressure and over 90 diastolic pressure

Question 21

What is pre-high blood pressure?

Answer 21

120-140 systolic pressure and 80-90 diastolic pressure

Question 22

What is ideal blood pressure?

Answer 22

90 – 120 systolic pressure and 60 – 80 diastolic pressure

Question 23

What is low blood pressure?

Answer 23

70-90 systolic pressure and 40-60 diastolic pressure

Question 24

What is low blood pressure called?

Answer 24

hypotension

Question 25

What is high blood pressure called?

Answer 25

Hypertension

Question 26

What happens to people’s blood pressure as they age?

Answer 26

Their blood pressure increases as their blood vessels become less elastic (doesn’t mean they are hypertensive)

Question 27

In a graph showing blood pressure where with you see the systolic pressure and the diastolic pressure?

Answer 27

the systolic pressure will be the higher value, the diastolic pressure will be the lower value

Question 28

When will the pressure gradient be interrupted in a blood pressure graph and what is this called?

Answer 28

When the valves open and close. This is called the dicrotic notch

Question 29

What is the pulse pressure?

Answer 29

the difference in values between the systolic and diastolic pressure

Question 30

What is the mean arterial pressure?

Answer 30

MAP is the average arterial pressure throughout one cardiac cycle. MAP value is considered to be a more accurate reflection of tissue perfusion in an individual that systolic pressure or diastolic pressure alone

Question 31

How do you work out the mean arterial pressure?

Answer 31

Diastolic pressure + 1/3 pulse pressure

Question 32

What does the cardiac cycle determine?

Answer 32

the force placed upon blood as it is ejected from the heart

Question 33

What are the three considerations in the cardiac cycle?

Answer 33

• Electrical events (drive mechanical events)
• Mechanical Events
• Electro-mechanical contraction coupling

Question 34

What is the timing of mechanical relaxation and contraction crucial for?

Answer 34

in order to maintain the right amount of blood in each chamber

Question 35

What is the electrical process of the cardiac cycle?

Answer 35

• SA node initiates electrical response
• Distribution of electrical signal to conduction system of the heart
• Electrical signal triggers cardiac contraction
• Followed by cardiac relaxation
• Followed by another cardiac cycle
• Contractions and relaxations of blood need to be perfectly timed for the ventricle of the blood to eject the maximum amount of blood possible into the circulatory system and then relax back

Question 36

What is the series of electrical events in the cardiac cycle?

Answer 36

• Initiated by pacemaker – the sinoatrial node
• Signal dissipated to atria which contracts - signal travels at 1 m/s to the atrioventricular node
• Signal received by atrioventricular node - delays the cycle by 0.1s to allow atrial contraction so that all the blood enters the ventricles (signal travels at 0.05 m/s)
• Passes signal to bundles of His and into the Purkije fibre - rapid signal to enable the ventricular cells to contract in unison – 5 m/s
• Out to the ventricular myocardium - about 1 m/s)
• Ventricles contract

Question 37

In addition to stimulation contraction what else does the conduction pathway do?

Answer 37

Control the speed of conduction through different parts of the heart

Question 38

What is the duration of the cardiac cycle?

Answer 38

800 ms

Question 39

How long are the period of systole and diastole?

Answer 39

 Ventricular systole: 270 ms
 Ventricular systole: 530 ms
 Atrial systole: 100 ms
 Atrial Diastole: 700 ms

Question 40

What is the order of mechanical events?

Answer 40

• Atrial Systole begins: atrial contraction forces a small amount of additional blood into relaxed ventricles
• Atrial systole ends’ atrial diastole begins
• Ventricular systole – first phase: Ventricular contraction pushes AV valves closed but does not create enough pressure to open semilunar valves
• Ventricular systole – second phase: As ventricular pressure rises and exceeds pressure in the arteries the semilunar valves open and blood is ejected. This is associated with isometric ventricular contraction (significant increase in pressure in chambers without change in volume) associated with significant contraction of the ventricular chambers.
• Ventricular diastole – Early: As ventricles relax, pressure in ventricles drop’ blood flows back against cusps of semilunar valves and forces them closed. Blood flows into the relaxed atria
• Ventricular diastole – late: all chambers are relaxed. Ventricles fill passively

Question 41

What does the ECG detect?

Answer 41

Electrical responses across the heart

Question 42

What is the ECG profile an amalgamation of?

Answer 42

Many action potentials across the heart

Question 43

How is an ECG carried out?

Answer 43

Surface electrodes are placed at strategic points across the chest

Question 44

What are the discrete stages of the cardiac cycle and ECG shows?

Answer 44

 Atrial contraction/ relaxation
 Ventricular contraction/ relaxation
 Conduction velocities of the electrical signals

Question 45

What is the P-wave in an ECG?

Answer 45

atrial depolarization and contraction

Question 46

What is the QRS complex in an ECG?

Answer 46

spread of the electrical signal causing ventricular myocyte depolarization and contraction (the atrial relaxation event happens here but is masked by the larger ventricle event)

Question 47

What is the T wave in an ECG?

Answer 47

ventricle repolarization and relaxation (it is an upward deflection too)

Question 48

What is the QT interval in an ECG?

Answer 48

; time from the initiation of ventricular contraction to the end of ventricular relaxation

Question 49

What is a single cardiac cycle?

Answer 49

he period between the start of one heartbeat and the beginning of the next

Question 50

What is always a fluid’s net movement and how does this relate to blood?

Answer 50

From an area of high pressure to an area of low pressure. Blood only flows from one chamber to another if the pressure in the first exceeds the second

Question 51

At the start of atrial contraction how much are the ventricles already filled and why?

Answer 51

They are filled to 70% of their volume due to the passive blood flow at the end of the previous cardiac cycle

Question 52

Why during atrial ejection can blood from the veins not enter the atria and why is there no backflow of blood into the veins?

Answer 52

Because atrial pressure exceeds venous pressure and there is no backflow of blood into the veins despite the lack of valves because the blood takes the path of least resistance?

Question 53

What is the end-diastolic volume?

Answer 53

At the end of the atrial systole when each ventricle contains the maximum amount of blood it will hold in that cardiac cycle

Question 54

What does it mean to say that isovolumetric ventricular contraction occurs?

Answer 54

tension and pressure rise inside the ventricles but blood does not flow out (the semilunar valves are not open)

Question 55

When does isotonic ventricular contraction occur?

Answer 55

Once the pressure in the ventricles exceeds that in the arterial trunks

Question 56

How does the dicrotic notch come about?

Answer 56

Blood in the aorta and pulmonary trunk now starts to flow back toward the ventricles and this movement closes the semilunar valves. As the backflow begins, pressure decreases in the aorta. When the semilunar valves close, pressure rises again as the elastic arterial walls recoil. This produces a valley in the aortic pressure tracing called a dicrotic notch

Question 57

What happens when ventricular pressure falls below atrial pressure?

Answer 57

the atrial pressure forces the AV valves open. Blood now flows from the atria into the ventricles

Question 58

How does passive filling occur?

Answer 58

Both the atria and ventricles are in diastole but the ventricular pressure continues to fall as the ventricular chambers expand. Throughout this period pressures in the ventricles are so far below those in the major veins that blood pours through the relaxed atria and on through the open AV valves into the ventricles. This passive flow of blood is the main method of ventricular filling.

Question 59

What is flow directly proportional and inversely proportional to?

Answer 59

• Directly proportional to pressure

- inversely proportional to resistance

Question 60

Where is the largest pressure gradient found?

Answer 60

between the base of the aorta and the proximal ends of peripheral capillary beds

Question 61

How does the cardiovascular system alter the largest pressure gradient and change the rate of capillary blood flow?

Answer 61

by adjusting cardiac output and peripheral resistance

Question 62

What does blood pressure refer to?

Answer 62

Arterial pressure

Question 63

What is hydrostatic pressure?

Answer 63

the force exerted by a fluid pressing against a wall

Question 64

What is capillary hydrostatic pressure (CHP)?

Answer 64

the pressure of blood within capillary walls

Question 65

What is Venous pressure?

Answer 65

the pressure of the blood within the venous system

Question 66

What must the circulatory pressure overcome in order for resistance to occur?

Answer 66

total peripheral resistance (the resistance of the entire cardiovascular system)

Question 67

What is vascular resistance?

Answer 67

the force that opposes blood flow in blood vessels. It’s most important factor is friction between blood an the vessel walls. The friction depends on vessel length and internal vessel diameter

Question 68

Is friction increased by increasing or decreasing the length of a blood vessel?

Answer 68

Increasing

Question 69

Do differences in diameter or length have more significant effects on resistance?

Answer 69

Diameter

Question 70

How can you control vessel diameter?

Answer 70

Through vasoconstriction or vasodilation