Cardiovascular System

Question 1

What is 1?

Answer 1

Right atrium

Question 2

What is the function of the Right atrium?

Answer 2

collects deoxygenated blood from body via the vena cava and pumps it to the right ventricle

Question 3

What is 2?

Answer 3

Right ventricle

Question 4

What is the function of the Right ventricle?

Answer 4

collects deoxygenated blood from the right atrium and pumps it to the lungs via the pulmonary artery

Question 5

What is 4?

Answer 5

Left ventricle

Question 6

What is the function of the Left ventricle?

Answer 6

collects oxygenated blood from the left atrium and pumps it to the body via the aorta

Question 7

What is 3?

Answer 7

Left atrium

Question 8

What is the function of the Left atrium?

Answer 8

collects oxygenated blood from lungs via the pulmonary vein and pumps it to the left ventricle

Question 9

What is 5?

Answer 9

Pulmonary artery

Question 10

What is the function of the Pulmonary artery?

Answer 10

Transports deoxygenated blood from right ventricle to lungs

Question 11

What is 6?

Answer 11

Aorta

Question 12

What is the function of the Aorta?

Answer 12

Transports oxygenated blood from left ventricle to body

Question 13

What is 7?

Answer 13

Superior vena cava

Question 14

What is the function of the Superior vena cava?

Answer 14

Transports deoxygenated blood from the upper body to the right atrium

Question 15

What is 8?

Answer 15

Inferior vena cava

Question 16

What is the function of the Inferior vena cava?

Answer 16

transports deoxygenated blood from the lower body to the right atrium

Question 17

What is 9?

Answer 17

Pulmonary vein

Question 18

What is the function of the Pulmonary vein?

Answer 18

transports oxygenated blood from the lungs to the left atrium

Question 19

structure and function of arteries

Answer 19

S = small lumen, thick muscular walls
F = transport blood away from the heart to the body

Question 20

structure and function of arterioles

Answer 20

S= branch off arteries, small arteries

F= direct oxygenated blood from arteries into capillaries

Question 21

structure and function of capillaries

Answer 21

S = one cell think, thin walls,
F = to transport nutrients between cardiovascular system and tissues, transport blood from arterioles and venules.

Question 22

structure and function of venules

Answer 22

S= capillaries converge into venules which converge into a vein

F= direct deoxygenated blood from a capillary to a vein

Question 23

structure and function of veins

Answer 23

S= large lumen, floppy walls, have valves
F = to transport blood to the heart from the body

Question 24

open circulation

Answer 24

has a start and end point e.g. lymphatic system

Question 25

closed circulation

Answer 25

continuous circuit e.g. cardiovascular system

Question 26

Describe the 3 layers of the heart

Answer 26

Pericardium: fibrous sac surrounding the heart
Myocardium: cardiac muscle, involuntary and striated, transmits electrical stimuli
Endocardium: lines chambers and valves within the heart

Question 27

Pathway for deoxygenated blood through the heart

Answer 27

deoxygenated blood enters through superior and inferior vena cava > R atrium, tricuspid valve, R ventricle, pulmonary valve, pulmonary artery, to lungs for oxygenation

Question 28

Pathway for oxygenated blood through the heart

Answer 28

oxygenated blood enters through pulmonary veins, L atrium, bicuspid valve, L ventricle, aortic valve, aorta, to body organs/tissues

Question 29

Which artery pumps blood under the highest pressure

Answer 29

Aorta

Question 30

Which ventricle has a larger wall and why?

Answer 30

L ventricular wall is thicker than R b/c needs more pressure from contractions to distribute oxygenated blood around body

Question 31

Where is the pulmonary valve located compared to the aortic valve?

Answer 31

anterior

Question 32

Why do ventricles have thicker walls than the atria?

Answer 32

ventricles pump blood out of heart to body whereas atria just receive blood and transport blood to ventricles

Question 33

function of coronary blood vessels

Answer 33

coronary arteries transport oxygenated blood to the heart muscle to supply the heart with nutrients e.g. O2 for contractions

coronary veins transport blood away from the heart muscle to remove waste from contractions e.g CO2

Question 34

what is the cardiac conduction system and name the 4 components in order

Answer 34

electrical signals from nervous system to contract
- SA node, AV node, bundle of His, Purkinje fibres

Question 35

What is A and what is its structure and function?

Answer 35

Sinoatrial (SA) node
S= collection of specialised pacemaker cells, located in upper wall of R atrium
F= spontaneously generates electrical impulses (depolarisation) which triggers atrial contraction

Question 36

What is B and what is its structure and function?

Answer 36

Atrioventricular (AV) node
S= collection of specialised pacemaker cells, located on the lower interatrial septum
F= Delays electrical impulses to the ventricles. The delay is to ensure that the atria have ejected all the blood into the ventricles before the ventricles contract.

Question 37

What is C and what is its structure and function?

Answer 37

Bundle of His
S= specialised conductive cells, connects AV node to L and R bundle branches of the septum
F= transmits electrical signals from AV node to bundle branches

Question 38

What is D and what is its structure and function?

Answer 38

Purkinje fibres
S= specialised conductive cells, myocardium of ventricular walls
F= ventricular contraction

Question 39

What are E and F + function?

Answer 39

E= left bundle branch
F= right bundle branch
Conducts signal from AV node along the interventricular septum to the heart apex

Question 40

state the order of the cardiac cycle

Answer 40

atrial diastole, atrial systole, ventricular systole, ventricular diastole

Question 41

describe the atrial diastole

Answer 41

all heart muscles in relaxation
all valves are closed
blood returning to atria

Question 42

describe the atrial systole

Answer 42

atria in contraction
all valves are open
blood to ventricles

Question 43

describe the ventricular systole

Answer 43

ventricles in contraction
semilunar valves are open
blood passing to arteries

Question 44

describe ventricular diastole

Answer 44

all heart muscles in relaxation
all heart valves are closed
blood returning to atria

Question 45

what is blood pressure and what is WNL?

Answer 45

pressure exerted against the artery walls by blood on contraction and relaxation of the heart

WNL= 120/80mmHg

Question 46

systolic BP

Answer 46

The pressure exerted on the arterial walls when the heart is contracting.

Question 47

diastolic BP

Answer 47

The pressure exerted on the arterial walls when the heart is relaxing.

Question 48

Mean arterial pressure (MAP)

Answer 48

average arterial blood pressure during a single cardiac cycle.

MAP is calculated using: Systolic, and Diastolic Pressure. For example, 120 (systolic) over 80 (diastolic)

Question 49

Equation of Mean Arterial Pressure (MAP)

Answer 49

Mean Arterial Pressure = Diastolic BP + 1⁄3 (Systolic BP - Diastolic BP)

1⁄3 of the way there because the heart spends more time resting then contracting

Question 50

Why MAP must be maintained

Answer 50

• Too high = damage to blood vessels
• Too low = not adequate “flow” of blood through peripheral and central tissue.

Question 51

Factors Affecting MAP

Answer 51

1. Total Peripheral Resistance (TPR)
   - Vasodilation reduces TPR.
   - Vasoconstriction increases TPR.
2. Cardiac Output (Dependent on Heart Rate, Stroke Volume, and Contractility)
   - The amount of blood pumped per minute by each ventricle. The higher the cardiac output, the higher the MAP, as there is more blood being pumped through the vessels.

Question 52

describe how the baroreceptor reflex responds to high BP

Answer 52

1. Increased blood pressure stretches the aortic arch and carotid bodies sensed by baroreceptors
2. Baroreceptors fire action potentials at higher rates than normal through vagus and glossopharyngeal nerves to the cardiovascular and vasomotor regulatory centres in medulla oblongata in brain stem
3. Cardiovascular Centres:
   - Activate parasympathetic system (increase):
   - Decreases heart rate.
   - Inhibits sympathetic system (decrease):
   - Stimulates heart to decrease heart rate and stroke volume
   - Vasodilation of blood vessels
4. Decreases blood pressure

Question 53

describe how the baroreceptor reflex responds to low bp

Answer 53

1. Decreased blood pressure sensed by baroreceptor as a decrease in tension.
2. Baroreceptors fire at a lower rate than normal. Information is transmitted to cardio regulatory and vasomotor
   centres in medulla oblongata
3. Cardiovascular Centres:
   - Inhibit Parasympathetic System (Decrease) - Increases heart rate
   - Activate Sympathetic System (Increase)
   - Acts on cells in the sinoatrial node to increase heart rate
   - Acts on cardiac muscles to increase stroke volume
   - Acts on smooth muscle to cause vasoconstriction
4. Increase in blood pressure

Question 54

which part of the heart pumps oxygenated blood to the body?

Answer 54

L ventricle NOT AORTA
(aorta transports, not pumps)

Question 55

which part of the heart collects deoxygenated blood from the body?

Answer 55

R atrium, NOT VENAE CAVAE
(venae cavae transport not collect)

Question 56

Heart rate

Answer 56

Number of times the heart beats per minute

Question 57

Semilunar valves

Answer 57

Aortic and pulmonary valves

Question 58

Septum

Answer 58

muscular wall between L and R side

Question 59

What is A and what is it’s function?

Answer 59

Tricuspid valve
Stop backflow of blood from R ventricle to R Atrium

Question 60

What is B and what is it’s function?

Answer 60

Pulmonary valve
Stop backflow of blood from pulmonary artery to R ventricle

Question 61

What is C and what is it’s function?

Answer 61

Aortic valve
Stop backflow of blood from aorta to L ventricle

Question 62

What is D and what is it’s function?

Answer 62

Mitral valve/bicuspid valve
Stop backflow of blood from L ventricle to L atrium

Question 63

Haemoglobin

Answer 63

Protein found in RBC which O2 binds to and transports it around the body

Question 64

what is an ECG?

Answer 64

Composite recording of all action potentials produced by the nodes and cells of cardiac myocardium

Question 65

ECG - Depolarisation (+ve)

Answer 65

contraction of the atrium or ventricle.

Question 66

ECG - Repolarization (-ve)

Answer 66

relaxation of the atrium or ventricle

Question 67

P Wave

Answer 67

Contraction of blood-filled atria (atrium) signalled by SA node (Atrial Depolarization).

Question 68

PQ Segment

Answer 68

When atrial depolarization is complete, Signal slows at atrioventricular node (AV), while left and right ventricles fill with blood

Question 69

Q

Answer 69

signal moves from bundle of his, divides into left and right branches, spreads through purkinje fibres across the ventricles

Question 70

R

Answer 70

peak of ventricular depolarisation
Contraction of left ventricle

Question 71

S

Answer 71

completion of ventricular depolarisation
Contraction of right ventricle

Question 72

QRS complex

Answer 72

ventricle depolarisation–> ventricular contraction (systole)

atrial depolarisation –> atrial relaxation

Question 73

T Wave

Answer 73

Ventricular Repolarization –> ventricular relaxation (diastole)

Question 74

Renin-Angiotensin-Aldosterone System

Answer 74

1. A decrease in blood pressure, will decrease in the “stretch” of the wall of the aorta, and carotid bodies.
2. Baroreceptor Reflex will detect this change, and release an enzyme called renin in the juxtaglomerular cells of the
   nephron in the kidneys.
3. Once renin is in the bloodstream, it will cleave angiotensinogen into angiotensin I.
4. Angiotensin I is converted to angiotensin II through the enzyme angiotensin-converting enzyme (ACE) in the lungs
   a. Angiotensin II will do two things . . .
   i. Vasoconstriction of blood vessels, increasing blood pressure.
   ii. Increase antidiuretic hormone release by the posterior pituitary gland, this increases thirst, water reabsorption by the kidneys, and an increase in blood volume.
5. Angiotensin II increases the release of aldosterone by the adrenal glands.
   a. aldosterone will promote sodium reabsorption in the kidneys which, together with the ADH release from the angiotensin II, iresults in an increased water reabsorption

Question 75

Cardiac output

Answer 75

The amount of blood pumped by each ventricle each minute.