Mechanics 2

Question 1

What are the in vivo correlates of Frank Starling relationship?

Answer 1

force –> pressure

length –> volume

Question 2

How are PV loops used clinically?

Answer 2

show contractility

give idea of filling pressure of ventricles

Question 3

What does the cardiac cycle consist of?

Answer 3

diastole
2/3 ventricular relaxation - 4 subphases

systole
1/3 ventricular contraction - 2 subphases

Question 4

What is isovolumetric ventricular contraction?

Answer 4

pressure builds up in ventricles in early systole until pressure exceeds pressure of afterload

increase tension, no change in volume

Question 5

What is EDV?

Answer 5

volume of blood in ventricle at end of ventricular filling just before contraction

approx 130ml
ESV = 60ml, 40ml added in atrial diastole, 30ml added in atrial systole

Question 6

What is ESV?

Answer 6

volume left in ventricle at end of contraction

approx 60ml

Question 7

What is stroke volume?

Answer 7

volume of blood ejected by ventricular contraction
approx 70ml
SV = EDV - ESV
= 130-60

Question 8

What is ejection fraction %?

Answer 8

proportion of EDV pumped out of heart

= SV/EDV x 100%

Question 9

What is normal heart rate?

Answer 9

72bpm or 0.8s per beat of heart

Question 10

What is cardiac output?

Answer 10

HR x SV

Question 11

What is MAP?

Answer 11

DBP + 1/3PP

Question 12

What is pulse pressure?

Answer 12

DBP - SBP

Question 13

What affects stroke volume?

Answer 13

preload (venous return)
afterload (arterial pressure)
contractility (influenced by autonomic NS and adrenaline - sympathetic branch)

Question 14

What is contractility?

Answer 14

strength of contraction of heart
measured by ejection fraction
increased by sympathetic stimulation (exercise)

Question 15

What is the last stage of diastole?

Answer 15

Atrial systole
P wave
atrial depolarisation
initiated by pacemaker potential emanating from the SAN

Question 16

Describe the process of atrial systole?

Answer 16

final phase of diastole
atria contract to fill the ventricles (EDV)
AV valves open
atrial pressure increases

Question 17

Why are atria almost full before atrial systole?

Answer 17

passive filling of atria driven by pressure gradient

Question 18

What happens as the atria contract?

Answer 18

jugular pulse as blood is pushes back up the jugular vein

Question 19

What can be heard abnormally during atrial systole? What are the causes?

Answer 19

S4 heart sound - lub lub dub
due to valve incompetency (bad shutting)
1. pulmonary embolism
2. congestive heart failure
3. tricuspid incompetence

Question 20

Step 1 of systole?

Answer 20

isovolumic contraction
QRS is the start - ventricular depolarisation
AV valves shut

Question 21

Describe isovolumic contraction?

Answer 21

GOAL: to reach pressure that exceeds arterial pressure

• contraction of ventricles with no change in volume
• no change in fibre length
• SI sound heart ‘lub’ which is the AV valve shutting

Question 22

Step 2 of systole?

Answer 22

rapid ejection

start marked by opening of aortic/pulmonary valves

Question 23

Describe rapid ejection?

Answer 23

ventricles contract isotonically
ventricular pressure rapidly rises to exceed aortic pressure (afterload) so SL valves open
ventricular volume decreases
no ECG or heart sounds

Question 24

What is the a wave?

Answer 24

increase atrial pressure due to passive filling

Question 25

What is the c wave?

Answer 25

pushing of tricuspid valve into atrium which increases pressure in the jugular vein due to ventricular contraction

Question 26

Step 3 of systole?

Answer 26

Reduced ejection
Marks the end of systole
T wave - ventricular repolarisation (positive to negative potential)

Question 27

Describe reduced ejection?

Answer 27

Aortic and pulmonary valves begin to close - pressure gradient causes backflow from arteries
Blood flow from ventricles decreases because blood has left ventricles so ventricular volume and pressure decrease more slowly

Question 28

Stage 1 of diastole?

Answer 28

isovolumic relaxation
aortic and pulmonary valves close
S2 heard when valves close - ‘dub’

Question 29

What is the dichrotic notch?

Answer 29

small sharp increase in aortic pressure due to rebound pressure against aortic valve as distended aortic wall relaxes

Question 30

Describe isovolumic relaxation

Answer 30

atria are filled with blood
AV valve shuts
atrial pressure increases

Question 31

What is the v wave?

Answer 31

second jugular pulse

blood pushes back on tricuspid valve

Question 32

Stage 2 of diastole?

Answer 32

Rapid/passive ventricular filling

AV valves open

Question 33

Describe rapid/passive ventricular filling

Answer 33

atrial pressure falls as ventricular volume increases 
passive 
during flat (isoelectric) ECG between cycles

Question 34

What might be heart during rapid/passive ventricular filling?

Answer 34

abnormal S3
due to turbulent ventricular filling
= ventricular gallop lub dub dub
Caused by severe hypertension/mitral incompetence

Question 35

Stage 3 of diastole?

Answer 35

Reduced ventricular filling

= diastasis

Question 36

Describe reduced ventricular filling?

Answer 36

ventricular volume increases more slowly

aortic pressure gradually decreasing

Question 37

What defines the preload?

Answer 37

how much ventricles fill

the stretch in turn defined contractility on-top of the heart own intrinsic control of contraction

Question 38

Where is there shorter insulation?

Answer 38

L than R

Question 39

Why must the ventricular septum depolarise first?

Answer 39

to allow heart to have an anchor to contract around and eject blood

Question 40

What is normal systemic BP?

Answer 40

120/80

Question 41

What is normal pulmonary BP?

Answer 41

25/5

Question 42

What is pulmonary wedge pressure?

Answer 42

measure pressure in pulmonary artery (RHS) to measure the preload on the left as sides are linked by the pulmonary circuit

an increase in PAWP is indicative of LEFT heart failure

Question 43

What does pulmonary circuit pressure do?

Answer 43

changes

Question 44

Describe extrinsic heart stimulation

Answer 44

PNS at rest slows HR from SAN from 110 to 70 bpm
SNS increases HR by
- hormonal control (adrenaline from adrenal gland)
- neural control (noradrenaline released from nerves)