The Cardiac Cycle

Question 1

What is cardiac systole?

Answer 1

Contraction of the heart

Question 2

What is cardiac diastole?

Answer 2

Relaxation of the heart

Question 3

How long does diastole last?

Answer 3

2/3rds of each beat

Question 4

How long does systole last?

Answer 4

1/3 or each beat

Question 5

How many stages is diastole split into?

Answer 5

3

Question 6

How many stages is systole split into?

Answer 6

3

Question 7

How many distinct stages of the cardiac cycle are there?

Answer 7

7

Question 8

What are the names of the 7 distinct stages of the cardiac cycle?

Answer 8

Atrial Systole
Isovolumetric contraction
Rapid ejection
Reduced ejection
Isovolumetric relaxation
Rapid passive filling
Reduced passive filling

Question 9

What happens during ventricular relaxation?

Answer 9

The ventricles fill with blood

Question 10

What happens during ventricular contraction?

Answer 10

The ventricles generate pressure and then. Eject the blood into the arteries

Question 11

What is the end diastolic volume?

Answer 11

The volume of blood in the ventricles just before systole

Question 12

What is the end systolic volume?

Answer 12

The volume of blood that remains in the ventricles after systole has occurred?

Question 13

What is the stroke volume in relation to EDV and ESV?

Answer 13

The stroke volume is the EDV - ESV

This is because the stroke volume is the amount of blood which is ejected from the ventricles with each contraction of the heart

Question 14

What are the common figures for EDV, ESV and SV?

Answer 14

EDV = 120 ml
ESV = 50 ml
Therefore stroke volume = 70ml

Question 15

What is the ejection fraction?

Answer 15

The (SV / EDV ) x 100

Question 16

What is the normal range for the ejection fraction?

Answer 16

50-70%

Question 17

What happens to the ejection fraction during heart failure?

Answer 17

The ejection fraction decreases to about 30%

Question 18

How is the ejection fraction used clinically?

Answer 18

It is used to assess the degree of heart failure a patient may have

Question 19

Where is the tricuspid valve located?

Answer 19

Between the right atrium and right ventricle

Question 20

Where is the bicuspid or mitral valve located?

Answer 20

Between the left atrium and the left ventricle

Question 21

Where is the pulmonary valve located?

Answer 21

Between the right ventricle and the pulmonary artery

Question 22

Where is the aortic valve located?

Answer 22

Between the left ventricle and the aorta

Question 23

What is atrial systole?

Answer 23

Contraction of the atria to top up the volume of blood in the ventricle

Question 24

What wave on the ECG correlates with atrial systole?

Answer 24

P wave

Question 25

What might be heard during atrial systole?

Answer 25

An abnormal heart sound due to valve incompetence of the semilunar valves

Question 26

In what conditions might a sound be heard during atrial systole?

Answer 26

Congestive heart failure, pulmonary embolism or tricuspid incompetence

Question 27

What does the QRS complex symbolize?

Answer 27

Depolarization of the ventricular muscle

Question 28

What is isovolumetric contraction?

Answer 28

When there is contraction of the ventricles to build pressure (isometric contraction), but no change in the volume of blood in the ventricles

Question 29

What heart sound is heard during isovolumetric contraction?

Answer 29

Lub

Question 30

What is the status of the AV and SL valves during isovolumetric contraction?

Answer 30

They are all closed

Question 31

What causes the first heart sound, “lub”?

Answer 31

The closure of the AV valves

Question 32

What marks the star of the rapid ejection phase?

Answer 32

The opening of the SL valves

Question 33

What happens during the rapid ejection phase?

Answer 33

The ventricular pressure is larger than the aortic pressure, (overcomes the afterload) meaning the blood pushes against the aortic valve and pushes out the ventricle

Question 34

What type of muscle contraction occurs during rapid ejection stage of cardiac cycle?

Answer 34

Isotonic contractin

Question 35

What happens to the pressure in the ventricles during reduced ejection stage?

Answer 35

The ventricular pressure starts to fall

Question 36

What phase makes the end of systole?

Answer 36

Reduced ejection

Question 37

What causes the SL valves to start to close in the reduced ejection phase?

Answer 37

The reduced pressure gradient

Question 38

What happens to the calcium during the reduced ejection phase?

Answer 38

The calcium is being pumped back into the extracellular space, out the cell, causing the calcium levels to fall back to diastolic calcium levels

Question 39

What part of the ECG represents reduced ejection?

Answer 39

T wave

Question 40

What happens the ventricular pressure is less than aortic pressure?

Answer 40

The semilunar valves close to prevent the back flow of blood

Question 41

What happens to the ventricular pressure during isovolumetric relaxation?

Answer 41

Large decrease

Question 42

What happens to atrial pressure during isovolumetric relaxation?

Answer 42

It continues to rise

Question 43

What causes the dichrotic notch seen on the ECG?

Answer 43

Rebound pressure against the aortic valve as distended aortic wall relaxes

Question 44

What causes the second heat sound “dub”?

Answer 44

The complete closure of the SL valves

Question 45

What happens during the rapid passive filling phase?

Answer 45

The AV valves open and so blood from the atria flows into the ventricles, resulting in a large increase in ventricular volume

Question 46

What might a sound heard during rapid passive filling signify?

Answer 46

Turbulent ventricular filling, hypertension or mitral incompetance

Question 47

What is the abnormal S3 sound called?

Answer 47

Ventricular gallop

Question 48

What is diastasis?

Answer 48

Reduced passive filling phase

Question 49

What happens to ventricular volume during reduced passive filling?

Answer 49

The ventricles fill slowly with blood, without the contraction of the atria

Question 50

What is the relationship between the pressure change patterns in the right and the left of the heart?

Answer 50

They are identical

Question 51

Which side of the heart has quantitively a higher pressure?

Answer 51

The left side has a higher pressure

Question 52

Which side of the heart pumps more blood?

Answer 52

They pump the same amount

Question 53

What is the average blood pressure in the systemic circuit?

Answer 53

Let side of the heart pumps blood to body - 120/80

Question 54

What is the average blood pressure in the pulmonary circuit?

Answer 54

Right side of the body pumps deoxygenated blood to the lungs - 25/5 mmHg

Question 55

What is the pressure of the atria relative to the ventricle?

Answer 55

The pressure in the right atrium is significantly lower than the right ventricle

Question 56

How are pressure volume loops used clinically?

Answer 56

They are used to assess contractility

Question 57

What do the A,B,C AND D points on a pressure volume loop relate to?

Answer 57

A = End Diastolic volume, preload
B = when the ventricle encounters the Afterload
C = End systolic volume
D = ventricular pressure has dropped as blood is pumped out the heart

Question 58

What happens to the stroke volume is you increase the preload?

Answer 58

Increasing the stretch, means that the length of the muscle fibers increase, which increases the force (due to more Ca2+ sensitivity), so more blood can be expelled with each beat of the hear

Question 59

What happens to stroke volume when you increase the afterload?

Answer 59

If you increase the pressure which the ventricles face, the fibers cannot shorten as much as there is a heavy weight acting against them, so the stroke volume decreases

Question 60

If you increase the afterload, what happens to the amount of shortening the muscle fibres undergo?

Answer 60

They shorten less

Question 61

What is the End Systolic PV line show?

Answer 61

The maximal pressure that can be developed by the ventricle at any given volume

Question 62

What happens to the pressure volume loop when you increase preload?

Answer 62

Points A and B shift to the right, which increases the stroke volume due to an increase in venous return

Question 63

Why does an increase in preload also increase the SV?

Answer 63

More stretch on the muscle due to more venous return changes their sensitivity to Ca2+ so more cross bridges can form which increases the force of contraction, hence SV increases as more blood can then be expelled per beat

Question 64

Describe what happens to the pressure volume loop when there is an increase in afterload?

Answer 64

Points C and D shift to the right

Point C also rises

Question 65

How do you calculate cardiac output?

Answer 65

Cardiac output = stroke volume x heart rate

Question 66

What three factors does stroke volume depend on?

Answer 66

Preload, afterload and congractibility

Question 67

What is contractility?

Answer 67

The contractile capability of the heart

Question 68

What happens to the ESPVR line when contractility is increased?

Answer 68

It gets steeper = more Ca2+ is delivered to the myofilaments so for a smaller stretch there is more force produced

Question 69

What happens to the ESPVR line when there is a decrease in contractility?

Answer 69

Less Ca2+ to myofilaments, therefore less force is produced as fewer cross bridges are formed

Question 70

What increases the contractility?

Answer 70

Sympathetic stimulation

Question 71

What factors increase venous return?

Answer 71

Muscle and Respiratory pump

Question 72

What happens when the myocytes are sympathetically activated?

Answer 72

The ventricular contractility increases which decreases the end systolic volume so stroke volume increases

Question 73

What happens to atrial pressure during exercise? And what affect does this have on the afterload?

Answer 73

It increases, and increases afterload as well

Question 74

What happens if the HR increases to very high rates?

Answer 74

The diastolic filling time can be reduced, which increases EDV

Question 75

What is the end systolic volume?

Answer 75

The volume of blood that remains in the heart even after the ventricle has contracted fully

Question 76

What are the two mechanisms by which the SA node rate it increased sympathetically?

Answer 76

1. Hormonal - adrenaline

2. Neural - noradrenaline from nerves

Question 77

What affect does hardening of the aortic valve have on the afterload?

Answer 77

Increases the afterload