1.1 The Cardiovascular System

Question 1

Bradycardia (definition)

Answer 1

A decrease in resting heart rate to below 60 beats per minute.

Question 2

Heart Rate`(definition)

Answer 2

The number of times the heart beats per minute.

Question 3

Stroke Volume (definition)

Answer 3

The volume of blood pumped out by the left heart ventricle in each contraction.

Question 4

Cardiac Output (definition)

Answer 4

The volume of blood pumped out by the heart ventricles per minute.

Question 5

Cardiac Output (calculation)

Answer 5

Cardiac Output = Stroke Volume x Heart Rate.

Question 6

Ejection Fraction (definition)

Answer 6

The percentage of blood pumped out of the left ventricle each beat.

Question 7

Cardiac Hypertrophy (definition)

Answer 7

The thickening of the muscular wall of the heart so it becomes larger and stronger; can also lead to developing a larger ventricular cavity.

Question 8

Max Heart Rate (calculation)

Answer 8

220 - age (bpm)

Question 9

Resting Heart Rate (definition)

Answer 9

The average number of heart beats per minute at rest.

Question 10

What is the average resting heart rate?

Answer 10

72 beats per minute

Question 11

Starling’s Law (definition)

Answer 11

The greater the venous return, the greater the strength of contraction in the heart.

Question 12

Venous Return (definition)

Answer 12

The return of blood to the right side of the heart via the vena cava.

Question 13

The heart muscle is myogenic, state what this means:

Answer 13

Myogenic - The capacity of the heart to generate its own impulses.

Question 14

What do Chemoreceptors detect?

Answer 14

changes in Carbon Dioxide levels.

Question 15

What do Baroreceptors detect?

Answer 15

Changes in the blood pressure (baro = pressure)

Question 16

Suggest why the atria are smaller than the ventricles:

Answer 16

The atria only have to push blood down into the ventricles, whereas the ventricles have to push blood out of the heart and therefore have stronger muscle tissue surrounding it.

Question 17

Which side of the heart is larger, and suggest why it is:

Answer 17

The left side is larger as it contains more muscular tissue in order to pump blood all around the body as apposed to the lungs (which are in close proximity to the heart).

Question 18

What is the function of the Vena Cava?

Answer 18

Transporting de-oxygenated blood to the right atrium of the heart.

Question 19

What is the function of the pulmonary vein?

Answer 19

Delivering oxygenated blood to the left atrium.

Question 20

Wht is the function of the pulmonary artery?

Answer 20

Leaves the right ventricle with de-oxygenated blood to take to the lungs.

Question 21

What is the function of the aorta?

Answer 21

Leaves the left ventricle with oxygenated blood for the body.

Question 22

There are four main valves in the heart, what are their function?

Answer 22

Ensures blood flow is unidirectional, it does this by opening to allow blood to pass through and closes to prevent backflow.

Question 23

What valve is located between the right atrium and right ventricle?

Answer 23

Tricuspid valve.

Question 24

What valve is located between the left atrium and left ventricle?

Answer 24

Bicuspid valve.

Question 25

Where are the semi-lunar valves?

Answer 25

They are found between the right and left ventricles (and the pulmonary artery and aorta).

Question 26

Where does the electrical signal start in the cardiac conduction system?

Answer 26

In the sinoatrial node (SA node).

Question 27

Where is the Sinoatrial node found?

Answer 27

In the wall of the right atrium.

Question 28

Which component of the cardiac conduction system is commonly referred to as “the pacemaker”?

Answer 28

The SA node.

Question 29

Describe the consequences of an electrical impulse being sent out of the SA node:

Answer 29

The impulse spreads through the atrial walls, causing them to contract and forcing blood into the ventricles.

Question 30

What does the abbreviation AV node mean?

Answer 30

Atrioventricular node.

Question 31

What is the function of the AV node?

Answer 31

The node relays the impulse (created by the AV node) between the upper and lower sections of the heart.

Question 32

Approximately how long does the AV node delay the impulse, and what is the purpose of this delay?

Answer 32

0.1 seconds, it is to allow for full contraction of the atria before ventricular systole begins.

Question 33

Where is the bundle of his located?

Answer 33

In the interventricular septum, (between the left and right ventricles).

Question 34

State the function of the bundle of his:

Answer 34

It transmits the electrical impulses from the AV node to the ventricles in order to stimulate ventricular systole.

Question 35

As an electrical impulse goes down the bundle of his, it splits into two branches before reaching a group of smaller bundles, what is the name of these muscles?

Answer 35

Purkinje fibres.

Question 36

What is the function of purkinje fibres?

Answer 36

To conduct impulses in the walls of the ventricles in order to stimulate contractions.

Question 37

What is the scientific name for contraction?

Answer 37

Systole.

Question 38

What is the mnemonic used to summarise the cardiac conduction system?

Answer 38

S AN
A trial systole
A VN
B undle of his
P urkinje fibres
V entricuar systole.

Question 39

What is the sympathetic (nervous) system?

Answer 39

A part of the autonomic nervous system that speeds up heart rate.

Question 40

What is the parasympathetic (nervous) system?

Answer 40

A part of the autonomic nervous system that slows down heart rate (to resting levels).

Question 41

Which body parts make up the Central Nervous System?

Answer 41

The spinal cord and the brain.

Question 42

What is the peripheral nervous system?

Answer 42

Nerve cells which transmit information to and from the CNS.

Question 43

Both the Central and Peripheral nervous systems are controlled by the same part of the brain, what is the name of this?

Answer 43

Medulla Oblongarta.

Question 44

What are the 3 types of “detectors” that feedback to the medulla oblongarta.

Answer 44

Chemoreceptor
Baroreceptor
Proprioceptors

Question 45

What do chemoreceptors detect?

Answer 45

Changes in Carbon Dioxide levels.

Question 46

Where are chemoreceptors found?

Answer 46

Carotid arteries.

Aortic arch.

Question 47

Why is the chemoreceptor important during exercise?

Answer 47

Due to increased rate of respiration, CO2 levels increase. The chemoreceptors detect this and stimulate the sympathetic nervous system to increase heart rate and get rid of CO2.

Question 48

What do baroreceptors detect?

Answer 48

Changes in blood pressure.

Question 49

How do baroreceptors detect changes in blood pressure?

Answer 49

They have nerve endings that respond to the stretching of the arterial walls caused by pressure.

Question 50

Blood pressure naturally increases during exercise, how do baroreceptors deal with this without setting off a false alarm to the medulla oblongarta.

Answer 50

They set a point for natural blood pressure level during exercise when it begins so that changes are relative to activity levels.

Question 51

What do proprioceptors detect?

Answer 51

They detect and increase in muscle movement.

Question 52

When proprioceptors detect increased muscle movement at the start of exercise, what happens?

Answer 52

The receptors send an impulse through the sympathetic nervous system to the SAN to increase heart rate.

Question 53

What effect does the hormone adrenaline have on thee SA node?

Answer 53

It increases both the speed and force of impulses, increasing cardiac output as the heart rate increases. Resulting in more oxygen being supplied to the working muscles.

Question 54

What is the stroke volume?

Answer 54

The volume of blood being pumped out by the heart ventricles in each cardiac contraction.

Question 55

What is venous return?

Answer 55

The volume of blood returning to the heart through the veins.

Question 56

What is the relationship between venous return and stroke volume?

Answer 56

If venous return increases, so will stroke volume as more blood enters the heart meaning more blood leaves the heart.

Question 57

What is the diastole phase?

Answer 57

The phase in which the heart muscle relaxes to fill with blood.

Question 58

What is ejection fraction?

Answer 58

The percentage of blood pumped out by the left ventricle per beat.

Question 59

What is myocardium? (H)

Answer 59

The muscle tissue of the heart.

Question 60

What is the average stroke volume at rest? (H)

Answer 60

70 ml

Question 61

Explain the equation:

Q = SV x HR

Answer 61

Q  = Cardiac Output
SV = Stroke Volume
HR = Heart Rate

Cardiac Output = Stroke Volume x Heart Rate.

Question 62

What is Starling’s Law?

Answer 62

Increased venous return,
Greater diastolic filling,
Cardiac muscle stretches,
More contraction force,
Increased ejection fraction.

Question 63

Maximum heart rate calculation:

Answer 63

220 - age (bpm)

Question 64

Explain how an individual can undergo cardiac hypertrophy:

Answer 64

Regular aerobic training leads to the development of cardiac muscle, this is hypertrophy.

Question 65

Which of the body’s systems involve the heart and blood vessels?

Answer 65

The cardiovascular system.

Question 66

State the term used to describe the increase in heart rate before exercise and name the hormone that causes this increase:

Answer 66

Anticipatory rise caused by the fight or flight response due to release of adrenaline into the bloodstream.

Question 67

What is the function of the parasympathetic nervous system:

Answer 67

To slow the heart rate back to resting level.

Question 68

What is in the autonomous nervous system:

Answer 68

The sympathetic nervous system and the parasympathetic nervous system.

Question 69

Which nervous system causes a ‘fight or flight’ response?

Answer 69

The sympathetic nervous system.

Question 70

What is the function of the sympathetic nervous system?

Answer 70

Stimulates a flight, fright (or freeze) response by raising heart rate and releasing adrenaline.

Question 71

Which of the autonomic nervous systems uses the vagus nerve?

Answer 71

Parasympathetic nervous system.

Question 72

What is atrial systole?

Answer 72

The contraction of both the left and right atria at the same time, forcing blood into the ventricles due to increased blood pressure.

Question 73

What is ventricular systole?

Answer 73

The contraction of both the left and right ventricles at the same time forcing blood out of the heart due to increased blood pressure.

Question 74

What is cardiac diastole?

Answer 74

The period of time in which the heart relaxes after contraction in preparation for the refilling of blood.

Question 75

What is ventricular diastole?

Answer 75

When the ventricles relax to allow blood into them from the atria.

Question 76

What is atrial diastole?

Answer 76

When the atria relax to allow blood in.

Question 77

When ventricular diastole and atrial diastole occur together, what is this referred to as?

Answer 77

Complete cardiac diastole.

Question 78

Which gland releases adrenaline and where is it located?

Answer 78

The adrenal gland which is located on the top of the kidneys.

Question 79

Anticipatory rise results in the activation of which nervous system?

Answer 79

Sympathetic.

Question 80

Why would vasodilation occur during exercise?

Answer 80

The blood vessels would open to allow blood to get to the working muscles to provide oxygen.

Question 81

Why would vasoconstriction occur during exercise?

Answer 81

To reduce the amount of blood that travels to areas where it is not needed, such as the digestive system.

Question 82

Why does the brain always have a large blood flow?

Answer 82

To maintain brain function as this controls what we do.

Question 83

During which process would the lumen of a vein increase?

Answer 83

Vasodilation.

Question 84

During which process would the lumen of a vein decrease?

Answer 84

Vasoconstriction.

Question 85

Which type of receptor is located in the aortic arch?

Answer 85

Chemoreceptors.

Question 86

Which type of receptor is commonly found in muscles, tendons, joints and the inner ear?

Answer 86

Proprioceptors.

Question 87

Is bradycardia more likely to occur in a trained heart or an untrained heart?

Answer 87

A trained heart is more likely to have a lower heart beat.

Question 88

Is athletes heart more likely to occur in a trained heart or an untrained heart?

Answer 88

Trained heart (obviously)

Question 89

Which is more likely to have a greater ejection fraction during exercise, a trained heart or an untrained heart?

Answer 89

A trained heart.

Question 90

Explain a muscle pump mechanism in venous return:

Answer 90

The muscles contract and squeeze the blood in the veins which pushes it up towards the heart.

Question 91

Where is a muscle pump mechanism likely to be used in the body?

Answer 91

The legs and lower body where gravity acts negatively on the desired direction of blood flow.

Question 92

What is the respiratory mechanism in venous return?

Answer 92

The breathing muscles, such as abs and intercostal muscles contract and push blood up towards the heart.

Question 93

Where is the respiratory mechanism for venous return likely to happen?

Answer 93

In the torso / chest area.

Question 94

Explain the role of pocket valves in veins:

Answer 94

They open and close to allow blood to pass through the veins, but stop backflow through them to prevent clogging or build-up.

Question 95

Calculate the maximum heart rate for someone aged 57:

Answer 95

220 - age
220 - 57
= 163 beats per minute.

Question 96

Explain why a performer may reach a stroke volume plateau, (where stroke volume does not increase).

Answer 96

Because the heart rate is so great that ventricles do not have sufficient time to fill with blood and therefore less blood can be ejected from the heart.

Question 97

What is the name of the disease that is the leading cause of death in the UK and around the world, caused by a build up of fatty tissues in the veins?

Answer 97

CHD (Coronary Heart Disease)

Question 98

What is atherosclerosis?

Answer 98

The hardening and narrowing of arteries as they become clogged by fatty acids.

Question 99

What disease is caused by atherosclerosis?

Answer 99

Coronary Heart Disease (CHD).

Question 100

What are atheroma?

Answer 100

Fatty deposits found in the inner lining of an artery.

Question 101

What can atherosclerosis be caused by?

Answer 101

• High blood pressure,
• High level of cholesterol,
• Lack of exercise,
• Smoking.

Question 102

What is angina?

Answer 102

Chest pain that is caused when the blood supply through the coronary arteries is restricted.

Question 103

What effect would regular aerobic exercise have on blood pressure?

Answer 103

Regular aerobic exercise would reduce blood pressure.

Question 104

What are the two types of cholesterol?

Answer 104

LDL (Low density lipoproteins)

HDL (High density lipoproteins)

Question 105

What do Low density lipoproteins do?

Answer 105

They transport cholesterol in the blood to the tissues.

Question 106

Which type of cholesterol is linked to increased risk of heart disease?

Answer 106

Low density lipoproteins - LDL

Question 107

What do High density lipoproteins do?

Answer 107

They transport excess cholesterol in the blood back to the liver where it is broken down.

Question 108

Which type of cholesterol is linked to lowering the risk of heart disease?

Answer 108

High density lipoproteins - HDL

Question 109

Which type of cholesterol are known as ‘good’ cholesterol?

Answer 109

High density lipoproteins - HDL

Question 110

Which type of cholesterol are known as ‘bad’ cholesterol?

Answer 110

Low density lipoproteins - LDL

Question 111

What does regular physical exercise do to cholesterol levels?

Answer 111

Regular exercise lowers the ‘bad’ LDL cholesterol levels and significantly increases ‘good’ HDL cholesterol levels.

Question 112

When does a stroke occur?

Answer 112

When the blood supply to part of the brain is cut off causing damage to brain cells so they start to die.

Question 113

What are the two main types of stroke?

Answer 113

• Ischaemic strokes

- Haemorrhagic strokes

Question 114

Which type of strokes are more common?

Answer 114

Ischaemic strokes are more common.

Question 115

When does an ischaemic stroke occur?

Answer 115

When a blood clot stops the blood supply to the brain.

Question 116

When does a haemorrhagic stroke occur?

Answer 116

When a weakened blood vessel supplying the brain bursts.

Question 117

What effect does regular exercise have on the risk of a stroke?

Answer 117

Regular exercise helps lower blood pressure and reduce the risk of stroke.

Question 118

What is steady state?

Answer 118

Where the athlete is able to meet the oxygen demand with the oxygen supply.

Question 119

What is the function of the vascular system?

Answer 119

The series of blood vessels that carry blood through the body. They deliver oxygen and nutrients to the body tissues and take away waste products such as carbon dioxide.

Question 120

What are the two types of circulation?

Answer 120

Pulmonary

Systematic

Question 121

What is pulmonary circulation?

Answer 121

Deoxygenated blood from the heart to the lungs and oxygenated blood hack to the heart.

Question 122

What is systematic circulation?

Answer 122

Oxygenated blood to the body from the heart and then the return of deoxygenated blood from the body to the heart.

Question 123

Describe the route of oxygenated blood from the heart back into the heart as deoxygenated blood:

Answer 123

Heart,
Arteries,
Arterioles,
Capillaries,
Venules,
Veins,
Heart.

Question 124

What is the pressure of the blood in the veins?

Answer 124

Low pressure

Question 125

What is the pressure of the blood in the arteries?

Answer 125

High pressure

Question 126

What is the equation for blood pressure?

Answer 126

Blood pressure = blood flow x resistance

Question 127

What is systolic pressure?

Answer 127

The pressure in the arteries when the ventricles are contracting.

Question 128

What is diastolic pressure?

Answer 128

The pressure in the arteries when the ventricles are relaxing.

Question 129

In which artery is blood pressure usually measured out of?

Answer 129

The brachial artery (in the upper arm)

Question 130

How many oxygens can be carried by one haemoglobin molecule (and suggest why).

Answer 130

4 - there is one for each haem group.

Question 131

What is formed when oxygen combines with haemoglobin?

Answer 131

Oxyghaemoglobin.

Question 132

What is oxyhaemoglobin dissociation?

Answer 132

Where the oxygen in oxyhaemoglobin is released (to the working muscles).

Question 133

What is myoglobin?

Answer 133

An iron containing muscle pigment in slow-twitch muscle fibres that store oxygen to be used when exercise starts.

Question 134

Why does oxygen leave the oxyhaemoglobin and go the the myoglobin?

Answer 134

Myoglobin has a slightly higher affinity for oxygen than haemoglobin.

Question 135

Why do mitochondria require oxygen?

Answer 135

For aerobic respiration.

Question 136

Would an increase in carbon dioxide lead to a higher or lower pH value in the blood?

Answer 136

Lower as carbon dioxide is acidic and therefore has a pH below 7 (neutral)

Question 137

What is the vascular shunt mechanism?

Answer 137

The redistribution of cardiac output.

Question 138

What is the Aterio-venous difference?

Answer 138

The difference between the oxygen content of the arterial blood arriving at the muscles and the venous blood leaving the muscles.

Question 139

What does A-VO2 diff stand for?

Answer 139

Arterio-venous difference.

Question 140

What affect does exercise have on the A-VO2 diff?

Answer 140

It increases the difference as more oxygen is required by the muscles as they are working harder.

Question 141

State a time when you have noticed yourself having an anticipatory rise:

Answer 141

Before a boxing fight or rugby game.

Question 142

Which receptor is responsible for detecting a change in blood pressure?

Answer 142

Baroreceptor.

Question 143

What happens to the viscosity of blood during exercise?

Answer 143

The viscosity increases, making it harder to circulate around the body.

Question 144

What happens to the stroke volume during a cardiac drift?

Answer 144

It undergoes an initial fast increase then slowly decreases at a shallow gradient.

Question 145

Where is myoglobin found and what is its role during exercise?

Answer 145

It is found in the muscles, it recieves oxygen from the haemoglobin in RBC’s and distributed it across the muscle cell for respiration.

Question 146

Why does oxygen get released from the haemoglobin into the myoglobin?

Answer 146

Myoglobin has a higher affinity for oxygen.

Question 147

Put simply, what causes the Bohr shift to occur?

Answer 147

The bi-products of exercise.

Question 148

Which receptor is located in the carotid artery?

Answer 148

Chemoreceptors.

Question 149

Which receptor is located in the aortic arch?

Answer 149

Chemoreceptors.

Question 150

What is the cardiovascular drift?

Answer 150

The increase in heart rate caused by more viscous blood due prolonged exercise, despite the intensity of exercise staying the same.

Question 151

T / F - a cardiovascular drift occurs only when there is an increase in intensity of exercise.

Answer 151

False - it occurs when exercise is done at a steady intensity.

Question 152

What physiological change happens to cause the cardiovascular drift?

Answer 152

The viscosity of the blood increases due to fluid loss (sweating) and increased core temperature.

Question 153

What may occur due to fluid loss (sweating) and / or increased core body temperature?

Answer 153

Cardiovascular drift.

Question 154

What can be done to prevent a cardiovascular drift from occurring?

Answer 154

Taking in lots of fluids before and during exercise to prevent blood becoming viscous.

Question 155

What two systems work in unison to make the cardio-respiratory system?

Answer 155

Cardiovascular system.

Respiratory system.

Question 156

What is cardiac output?

Answer 156

The volume of blood leaving the left ventricle per minute.

Question 157

How is cardiac output calculated?

Answer 157

CO = SV x HR.

Cardiac Output = Stroke Volume x Heart Rate.

Question 158

What is Stroke Volume?

Answer 158

The volume of blood ejected from left ventricle per beat.

Question 159

What is Ejection Fraction?

Answer 159

The proportion of blood leaving the left ventricle per beat.

Question 160

What is Starling’s Law?

Answer 160

States that the greater the venous return, the greater the strength of contraction in the heart.

Question 161

How is Maximal Heart Rate calculated?

Answer 161

220 - age bpm.