Cardiac Cycle and Special Circulations

Question 1

when do heart valves produce a sound

Answer 1

when they shut

Question 2

what is the blood flow across the heart

Answer 2

SVC-RA-TV-RV-PV-PA-PV-LA-MV-LV-AV-A

Question 3

what triggers the recurring cardiac cycleof atrial and ventricular contractions and relaxations

Answer 3

the orderly depolarisation/ repolarisation sequence

Question 4

what is the cardiac cycle composed of

Answer 4

all events from one heart beat to the next

Question 5

describe heart in diastole

Answer 5

heart ventricle are relaxed and fill with blood

Question 6

describe the heart in systole

Answer 6

heart ventricles contract and pump blood into the aorta (LV) and pulmonary artery (RV)

Question 7

which side of the heart has a lower pressure

Answer 7

left

Question 8

what are the 5 main events during the cardiac cycle

Answer 8

passive filling, atrial contraction, isovolumetric contraction, ventricular ejection, isovolumetric ventricular relaxation

Question 9

after what does the valve close and why

Answer 9

Isovolumetric ventricular Contraction- so volume of blood stays the same

Question 10

what happens to the mitral valves during ventricular ejection

Answer 10

stays closed as blood is ejected into aorta

Question 11

what happens to the valves during isovolumetric relaxation

Answer 11

both closed and ventricle relaxes around volume of blood

Question 12

what allows passive filling

Answer 12

pressure gradient between artia and ventricle (both close to 0)

Question 13

what fills majority of ventricle

Answer 13

80% passive filling, 20% contraction

Question 14

what does the P wave in the ECG signal

Answer 14

atrial depolarisation

Question 15

when does the artria contract in the ECG

Answer 15

between the P wave and QRS

Question 16

what completes the end diastolic volume

Answer 16

atrial contraction

Question 17

when does ventricular contraction start in the ECG

Answer 17

after the QRS (signals ventricular depolarisation)

Question 18

what causes the AV valves to shut

Answer 18

when the ventricular pressure exceeds the atrial pressure

Question 19

what causes the LUB sound

Answer 19

AV valve shutting

Question 20

describe isovolumetric contraction

Answer 20

tension rises around a closed volume

Question 21

when does the aortic/pulmonary valve open causing ventricular ejection

Answer 21

when ventricular pressure exceeds aorta/pulmonary artery pressure

Question 22

what does the T wave on the ECG signal

Answer 22

ventricular repolarisation

Question 23

what happens to the ventricles after the T wave

Answer 23

relax and the ventricular pressure starts to fall

Question 24

when do the aortic/ pulmonary valves shut after ventricular ejection

Answer 24

when ventricular pressure falls below aortic / pulmonary pressure

Question 25

what produces the secondary heart sound (DUB)

Answer 25

closure of aortic/ pulmonary valves after ventricular ejection

Question 26

what does the valve vibration produce in the aortic pressure curve

Answer 26

dicrotic notch

Question 27

what does closure of aortic/and pulmonary valves signals the start of

Answer 27

isovolumetric ventricular relaxation

Question 28

describe the AV valves during isovolumetric ventricular relaxation

Answer 28

shur, tension falls around a closed volume

Question 29

when do AV valves reopen after isovolumetric ventricular relaxation

Answer 29

When the ventricular pressure falls below atrial pressure

Question 30

what does the first heart sound signal the beginning of

Answer 30

systole

Question 31

what does the second heart sound signal the beginning of

Answer 31

diastole

Question 32

why does arterial pressure never fall to zero

Answer 32

as arteries stretch and recoil

Question 33

when does the JVP occur

Answer 33

after right atrial pressure waves

Question 34

what type of pulse is JVP

Answer 34

wave pulse

Question 35

where do the coronary arteries arise from

Answer 35

the base of the aorta

Question 36

where does the majority of the venous blood drain from the heart into and via what

Answer 36

goes into right atrium via coronary sinus

Question 37

what are the special adaptations of the coronary circulation

Answer 37

high capillary density
high basal blood flow
high oxygen extraction under resting conditions

Question 38

what does the high level of oxygen extraction by the myocardium mean for changes in oxygen requirements

Answer 38

only way to increase oxygen supply to heart is to increase coronary blood flow

Question 39

what controls coronary blood flow

Answer 39

intrinsic and extrinsic mechanisms

Question 40

how do intrinsic mechanisms control coronary blood flow

Answer 40

decrease PO2 causes vasodilatation of coronary arterioles in attempt to supply heart with more blood

metabolic hyperaemia

adenosine (produced from breakdown of ATP) is a potent vasodilator

Question 41

what intrinsic mechanisms control coronary blood flow

Answer 41

supplied by sympathetic vasoconstrictors
BUT
over ridden by metabolic hyperaemia (as a result of increase HR and SV)

symp stim results in coronary vasodilatation

adrenaline activates beta 2 adrenergic receptors cause vasodilatation and increased blood supply

Question 42

what does stimulation of alpha receptors do

Answer 42

vasoconstriction

Question 43

what what stimulation of beta 2 receptors do

Answer 43

vasodilatation

Question 44

what stimulates beta 2 receptors

Answer 44

circulating adrenaline

Question 45

how does decreased PO2 affect adenonsine and therefore coronary blood flow

Answer 45

increases adenosine and increases blood flow

Question 46

how does an increase of metabolites affect coronary blood flow (K+, PCO2, H+)

Answer 46

increases blood flow

Question 47

when does peak left coronary flow occurs and why

Answer 47

diastole

During contraction of the ventricular myocardium (systole), the subendocardial coronary vessels (the vessels that enter the myocardium) are compressed due to the high ventricular pressures. This compression results in momentary retrograde blood flow (i.e., blood flows backward toward the aorta) which further inhibits perfusion of myocardium during systole

Question 48

what happens to blood supply to the heart if you shorten diastole

Answer 48

decreases, coronary blood flow highest in diastole

Question 49

why are the right coronary arteries less affected by contractions of the ventricles/ atrium

Answer 49

as right side doesn’t contract as much

Question 50

when does most myocardial perfusion occur

Answer 50

in diastole when the subendocardial vessels from the left coronary artery are not compressed

Question 51

what arteries supply the brain

Answer 51

internal carotids and vertebral arteries

Question 52

what happens if the grey matter of the brain is starved of oxygen

Answer 52

consciousness lost after few seconds of ischaemia, irreversible cell damage within ~ 3 minutes

Question 53

what is the circle of willis

Answer 53

basilar (2 vertebral arteries) and carotid arteries anastomose to form circle of willis (vessel ring at base of brain)

Question 54

what arises from the circle of willis

Answer 54

major cerebral arteries

Question 55

do brain arteries respond to the barorecptor reflex

Answer 55

not necessarily

Question 56

what causes a stroke

Answer 56

interruption/ cut off of blood supply to a region of the brian

Question 57

what do auto regulation do and in what ranges does it work

Answer 57

autoregulation of cerebral blood flow guards against changes in blood flow if mean arterial blood pressure changes (between 60-160mmHg)

Question 58

does sympathetic stimulation have a big effect on cerebral blood flow

Answer 58

no has little effect

Question 59

due to autoregulation what happens to resistance vessels if MABP rises

Answer 59

constrict to limit blood flow

Question 60

due to autoregulation what happens to resistance vessels if MABP fall

Answer 60

dilate to maintain bloodflow

Question 61

what does a MABP below 50 mmHg cause

Answer 61

confusion, fainting and brain damage

Question 62

what effect does increased PCO2 have on the cerebral vessels

Answer 62

causes vasodilatation

Question 63

what effect does decreased PCO2 have on the cerebral vessels

Answer 63

causes vasoconstriction

Question 64

what is regional hyperaemia

Answer 64

blood flow increases to active parts of the brain

Question 65

what is ICP and its normal values

Answer 65

intracranial pressure 8-13 mmHg

Question 66

what is CPP and how is it calculated

Answer 66

cerebral perfusion pressure (MAP - ICP)

Question 67

what effects does an increasing ICP have on CPP and cerebral blood flow

Answer 67

decreases CPP and cerebral blood flow

Question 68

what can increase ICP

Answer 68

head injury or brain tumour

Question 69

what is the blood brain barriers

Answer 69

cerebral capillaries which have very tight intercellular junctions

Question 70

what are cerebral capillaries highly permeable to

Answer 70

O2 and CO2

Question 71

how does glucose pass the BBB

Answer 71

by facilitated diffusion using specific carrier molecules

Question 72

what is the BBB exceptionally impermeable to , what does this allow

Answer 72

hydrophilic substances such as ions, catecholamines, proteins etc

helps protect brain neurones from fluctuating levels of ions etc in blood

Question 73

how much of cardiac output travels into pulmonary circulation from the right ventricle

Answer 73

all of it

Question 74

what meets the metabolic needs to the airways

Answer 74

systemic bronchial circulation

Question 75

how much of systemic circulation resistance is pulmonary

Answer 75

about 10%

Question 76

how does pulmonary capillary resistance compare to systemic capillary resistance

Answer 76

low

Question 77

what adaptation of the pulmonary circulation helps to protect against pulmonary oedema

Answer 77

absorptive forces

Question 78

what effect does hypoxia have on pulmonary arterioles

Answer 78

vasoconstriction- opposite so that blood is diverted away from poorly ventilated areas of lung

Question 79

what is resting blood flow low

Answer 79

because of sympathetic vasoconstrictor tone

Question 80

what overcomes sympathetic vasoconstrictor activity during activity

Answer 80

metabolic hyperaemia

Question 81

what changes in the vasculature occur during exercise

Answer 81

blood flow to skeletal muscle increases

Metabolic hyperaemia overcomes sympathetic vasoconstrictor activity

Circulating adrenaline causes vasodilatation (beta2 adrenergic receptors)

Plus increased cardiac output during exercise, these could increase skeletal muscle blood flow many folds

Question 82

where do large veins in limbs lie

Answer 82

between skeletal muscle

Question 83

what causes varicose veins

Answer 83

blood pooling in the lower limbs if venous valves become incompetent

Question 84

why do varicose veins lead to reduce cardiac output

Answer 84

because of chronic compensatory increase in blood volume