*Physiology 3 (lecture 3)

Question 1

What are the events during the cardiac cycle?

Answer 1

1. Passive Filling
2. Atrial Contraction
3. Isovolumetric ventricular Contraction
4. Ventricular Ejection
5. Isovolumetric ventricular relaxation

Question 2

What happens during passive filling?

Answer 2

The pressure in the atria and ventricles is close to 0.

AV valves open so that venous return flows into the ventricles.

Question 3

What causes the flow of blood during passive filling?

Answer 3

A small pressure gradient.

Question 4

What is the pressure in the aorta during passive filling?

Is the aortic valve open?

Answer 4

80mmHg

No

Question 5

How full, roughly, do the ventricles become during passive filling?

Answer 5

About 80% full.

Question 6

What happens during atrial contraction?

Answer 6

The atrias contract completing the end diastolic volume

Question 7

What does the P wave in the ECG signal?

Answer 7

Atrial depolarisation

Question 8

What happens between the P wave and the QRS complex?

Answer 8

Atrial contraction

Question 9

What is the end diastolic volume in a resting normal adult?

Answer 9

approx .130ml

Question 10

When does ventricular contraction start?

Answer 10

After the QRS complex

Question 11

When do the AV valves shut?

What does this produce

Answer 11

When ventricular pressure exceeds atrial pressure

S1

Question 12

Why is phase 3 called isovolumetric ventricular contraction?

Answer 12

The tension rises around a closed volume

Question 13

When does the aortic/ pulmonary valves open?

Answer 13

When the ventricular pressure exceeds the aortic/ pulmonary pressure

Question 14

What is ejected during ventricular ejection?

Answer 14

Stroke volume

Question 15

SV=? (equation + values)

Answer 15

SV = EDV - ESV = 135 - 65 = 70ml

Question 16

T wave represents?

Answer 16

Ventricular repolarisation

Question 17

When does the aortic/ pulmonary valves shut?

What does the produce?

Answer 17

When the ventricular pressure falls below aortic/ pulmonary pressure
S2

Question 18

What signals the start of isovolumetric ventricular relaxation?

Answer 18

Closure of the aortic/ and pulmonary valves

Question 19

Why is stage 5 called isovolumetric ventricular relaxation/

Answer 19

The tension falls around a closed box

Question 20

When does the heart start a new cycle?

Answer 20

When the ventricular pressure falls below atrial pressure causing the AV valve to open

Question 21

What does S1 signal?

Answer 21

The start of systole (closure of mitral and tricuspid valves)

Question 22

What does S2 signal?

Answer 22

The end of systole and beginning of diastole (closure of aortic and pulmonary valves)

Question 23

What is the JVP an indirect measure of?

How does this work?

Answer 23

The pressure in the right atrium
The jugular vein becomes the SVC which connects to the right atrium meaning any changes in the RA will be reflected in the JVP

Question 24

What is the SA node made of?

Answer 24

Specialised pacemaker cells

Question 25

Sinus rhythm?

Answer 25

Heart is controlled by the SA node

Question 26

How is an action potential generated?

Answer 26

Cells in the SA node exhibit spontaneous pacemaker potential meaning the membrane potential gradually drifts until it reaches threshold which causes the cell to fire

Question 27

Pacemaker potential?

Answer 27

Gradual drift of the membrane potential towards depolarisation

Question 28

What is the ionic basis of the pacemaker potential?

Answer 28

There is a decrease in K efflux whilst there is slow Na influx

Question 29

What causes depolarisation of the SA node cells?

Answer 29

At threshold, activation of voltage-gated Ca channels occur resulting in Ca influx

Question 30

What is the ionic basis of repolarisation?

Answer 30

Activation of K channels results in K efflux

Question 31

Passage of excitation through the heart path?

Answer 31

SA node -> cell-to-cell conduction -> AV node -> bundle of his -> left and right branches -> purkinje fibres

Question 32

What does cell-to-cell conduction occur via?

Answer 32

Gap junctions

Question 33

What are gap junctions part of?

Answer 33

Intercalated disc which are specialised intracellular attachment between cardiac muscle cells - they are made up of gap junctions, ask adherents and desmosomes

Question 34

Location of the AV node?

Answer 34

Base of the right atria just above the junction of the atria and ventricles

Question 35

How fast is the AV bode conduction velocity?

Answer 35

Fast

Question 36

Resting membrane potential of of contractile muscle cells?

Answer 36

-90mV

Question 37

What causes the rising phase (depolarisation) of the action potential in contractile muscle cells?
What does this reverse the membrane potential to?
What phase is this?

Answer 37

Fast Na+ influx
+30
Phase 0

Question 38

What causes phase 1 of ventricular muscle action potential?

Answer 38

Closure of Na+ channels and transient K+ efflux

Question 39

What causes phase 2 of ventricular muscle action potential?

what is another name for this phase?

Answer 39

Mainly the influx of Ca through voltage-gated Ca channels

Plateau phase

Question 40

What causes phase 3 of ventricular muscle action potential?

Answer 40

Closure of Ca channels and K efflux

Question 41

What is phase 4?

Answer 41

Resting membrane potential

Question 42

What is the main influence of heart rate/

Answer 42

Autonomic nervous system

Question 43

What is the parasympathetic supply to the hear?

Answer 43

The vagus nerve

Question 44

What type of nerve supply to the SA node dominates under resting conditions

Answer 44

The vagal tone - slows the intrinsic heart rate from approx. 100 to 70bpm

Question 45

Where in the heart does the vagus supply?

Answer 45

The AV and SA nodes

Question 46

What does the vagal nerve stimulation do?

Answer 46

Increases AV nodal delay

Decreases heart rate

Question 47

What neurotransmitter does the vagus nerve use to slow the heart?
What is a competitive inhibitor of this and can be therefore used to treat extreme bradycardia?

Answer 47

acetlycholine acting through M2 receptors

Atropine

Question 48

How does vagal stimulation affect the pacemaker potential?
What happens to the slope of the pacemaker potential?
What is the name for this effect

Answer 48

The cell hyper polarises meaning it takes longer to reach threshold, frequency of AP decreases
Slope decreases
Negative chronotropic effect

Question 49

Where do cardiac sympathetic nerves supply

Answer 49

AV node
SA node
Myocardium

Question 50

What effects does sympathetic stimulation of the heart have?

Answer 50

Increases heart rate
Decreases AV nodal delay
Increases force of contraction

Question 51

Neurotransmitter for sympathetic supply to heart

Answer 51

Noradrenaline acting through B1-adrenoceptors

Question 52

What effect does noradrenaline have on the slope of the pacemaker potential?
Speed at which pacemaker potential reaches threshold?
Frequency of action potentials?
Effect?

Answer 52

Increases slope
Increases
Increases
Positive chronotropic effect

Question 53

P wave?

Answer 53

Atrial depolarisation

Question 54

QRS complex

Answer 54

Ventricular depolarisation

Question 55

T wave

Answer 55

Ventricular repolarisation

Question 56

PR interval

Answer 56

Largely AV nodal delay

Question 57

ST segment

Answer 57

Ventricular systole

Question 58

TP interbal

Answer 58

Diastole