Module 4 - Cardiac system

Question 1

how is the heart held in place in the cavity

Answer 1

its protective covering - the pericardial sac - is joined to the sternum via a line of fat called the mediastinal fat

Question 2

where is the point of attachment of the pericardium and the heart

Answer 2

at the base of the heart - where the great vessels enter and exit

Question 3

when viewing the heart anteriorly will the pulmonary trunk lie in front or behind the aorta

Answer 3

in front

Question 4

which chamber of the heart makes up the apex

Answer 4

left ventricle

Question 5

which artery lies in the right atrioventricular sulcus

Answer 5

right coronary artery

Question 6

which artery lies in the left atrioventricular sulcus

Answer 6

the circumflex artery ( a branch of the left coronary artery)

Question 7

in which groove could you find the anterior interventricular coronary artery

Answer 7

anterior interventricular sulcus

Question 8

where can you find the great, middle and small cardiac veins

Answer 8

great cardiac vein and small cardiac vein are both on the anterior side (small on the right and is shorter, great on the left and is longer superiorly)

middle cardiac vein is on the posterior aspect of the heart and projects down form the coronary sinus

Question 9

Which chamber of the heart does the coronary sinus drain into

Answer 9

right atrium

Question 10

why does the heart need a blood supply instead of getting it from inside the chambers ?

Answer 10

the blood moves too fast for sufficient exchange of nutrients and the walls are much too thick

Question 11

what is a heart attack and what can be the effect of it on the heart

Answer 11

it is when a coronary artery becomes occluded (blocked)
- this means the muscle cells in the heart aren’t getting oxygen and can be damaged or die

Question 12

what areas do the superior and inferior vena cava drain blood from

Answer 12

superior - head, neck, upper limbs (arms) and thorax
inferior - abdominopelvic cavity and lower limbs (legs)

Question 13

what are the 4 functions of the heart

Answer 13

• generating blood pressure
• routing blood (systemic and pulmonary)
• ensuring one way flow
• regulating blood supply to match changing metabolic needs

Question 14

what is the location of the heart in the body

Answer 14

centrally in the mediastinum but angled to the left

Question 15

what is in the mediastinum

Answer 15

heart,
trachea,
oesophagus,
thymus,
blood vessels,
nerves

Question 16

what is the structure of the heart coverings and what are their roles

Answer 16

from outermost to innermost:
* fibrous pericardium (anchoring and protection)
* parietal layer of serous pericardium (adheres to fibrous pericardium)
* pericardial cavity (between serous layers)
* visceral layer of serous pericardium (outer layer of the heart/ epicardium)

Question 17

what are the 3 layers of the wall of the heart

Answer 17

epicardium (visceral pericardium)
myocardium (muscle for contraction)
endocardium (lines chambers + vessels, simple squamous and extends into blood vessels)

Question 18

what are the 2 first branches off the ascending aorta

Answer 18

left and right coronary arteries

Question 19

where on the heart do you find large and small coronary arteries

Answer 19

large arteries travel in sulci on the surface of the heart
small arteries penetrate into the myocardium

Question 20

describe the fibrous skeleton of the heart (structure and 4 functions)

Answer 20

• dense CT ring around 4 valves
• provides anchorage, structural stability, electrical insulation between atria and ventricles.

Question 21

what does it mean to “have properties of a functional syncytium” and what is the benefit

Answer 21

• behaves as a single cell mass
• allows very fast electrical conduction from one fibre to another

Question 22

what is the role of the non-contractile fibres in the heart

Answer 22

• they form the specialised pacemaker and conduction system which regulates heart beat

Question 23

what are the components of the pacemaker/conduction system

Answer 23

• sinoatrial node - initiates electrical signal to cause contraction
• atrioventricular node - sends conduction + results in spontaneous polarisation
• atrioventricular bundle and purkinje fibres - carry rapid electrical impulse which results in contraction

Question 24

what must happen to the cardiac muscle before it can contract and relax

Answer 24

it must depolarise before it can contract
and it must repolarise before it can relax

Question 25

When does atrial repolarization occur

Answer 25

during ventricular depolarisation

Question 26

when can the next cardiac cycle start

Answer 26

AFTER the ventricles have compeletely repolarised

Question 27

what is the depolarisation sequence in the heart

Answer 27

• Sinoatrial node
• Atrial muscle
• atrioventricular node (slight delay here before moving down)
• right and left bundle branches
• purkinje fibres
• ventricular muscle

Question 28

what part of the body does not have a stable resting membrane potential and what is the polarisation sequence like

Answer 28

Sinoatrial node
- it slowly depolarises until it reaches threshold where an action potential is triggered
- the membrane then repolarizes and immediately starts to depolarise again

Question 29

what does ECG stand for and what does it measure

Answer 29

Electrocardiogram - sum of all electrical events during the cardiac cycle as measured on the body surface

Question 30

what are the 5 letters used to label the ECG and what do they mean

Answer 30

P - first bump = Atrial depolarisation

Q - dip
R - big spike
S second dip
QRS - ventricular depolarisation

T - second bump = ventricular repolarization

Question 31

name the 3 phases of the cardiac cycle

Answer 31

1. atrial depolarisation (electric) followed by atrial systole (mechanic)
2. Ventricular depolarisation (e) followed by ventricular systole (m)
3. ventricular repolarisation followed by ventricular diastole

Question 32

what happens during atrial systole

Answer 32

• atrial systole adds the final 20% of blood to the ventricular vol (most blood just flows through - called passive ventricular filling)

Question 33

what happens during ventricular systole

Answer 33

• AV valve closes as Ventricular pressure increases
• isovolumetric ventricular contraction
• semilunar valves open
• ventricular ejection - blood leaves ventricles

Question 34

what happens during ventricular diastole

Answer 34

• semilunar valves close
• isovolumetric ventricular relaxation
• AV valves open
• ## rapid ventricular filling (80% - passive filling directly from vena cava through A to V)

Question 35

what does systole and diastole mean and what polarisation do they correlate with

Answer 35

systole - contraction - depolarisation
diastole - relaxation - repolarisation

Question 36

what is average heart rate and how long are the cycles.

Answer 36

resting is average 75 bpm
cardiac cycle is 0.8 sec
systole is 0.3 sec and diastole is 0.5 sec

Question 37

what influences heart rate

Answer 37

*Neural factors - because SA and AV nodes are innervated by SNS and ParaNS nerves

• Hormones - adrenaline, noradrenaline, thyroid hormone
• other: body temp, drugs, sleep, psychological factors

Question 38

what are the 3 cardiac volumes, when are they measured and how many ml are they

Answer 38

EDV (end diastolic vol.) = 120-130 ml
(end of filling ventricles)

ESV (end systolic vol.) = 50-60 ml
(vol. in ventricles after emptying)

SV (stroke vol.) = EDV-ESV = avg. 70ml

Question 39

what is cardiac output and what is a n average CO

Answer 39

volume ejected per ventricle per minute
CO = HR x SV
usually around 5250ml/min

Question 40

what is cardiac reserve

Answer 40

the difference between CO at resting and the max CO

Question 41

how does the parasympathetic NS innervate the heart

Answer 41

• innervates SA and AV nodes via Vagus nerve
• transmitter acetylcholine slows HR, is dominant at rest

Question 42

how does the sympathetic NS affect the heart

Answer 42

• innervates SA node only
• originates from the thoracic SC
• transmitter is noradrenaline which increases HR

Question 43

what are the 3 factors that affect stroke volume

Answer 43

• preload
• contractility
• afterload

Question 44

what is preload

Answer 44

the force/ load on the ventricular muscle just prior to contraction, which is determined by the volume in the ventricles after filling (EDV)

Question 45

what is starlings law of the heart and what does this affect

Answer 45

the greater the filling of the ventricles the greater the emptying
preload
stroke vol.

Question 46

which of the factors affecting the heart are intrinsic and extrinsic

Answer 46

preload is intrinsic - within the heart
contractility is extrinsic - external to the heart (dependent on calcium concentration)

Question 47

what is the main determinant of end diastolic volume (and of preload as well)

Answer 47

Venous return

Question 48

what is venous return and what should it be equal to

Answer 48

• it is the flow of venous blood back to the heart per unit time
• it should equal cardiac output

Question 49

what are the 5 factors affecting venous return

Answer 49

• blood volume
• central venous pressure / right atrial pressure
• venous tone + capacity of veins
• skeletal muscle pump
• respiratory pump

Question 50

define contractility

Answer 50

the inotropic state of the heart (how much the ventricle can contract)

Question 51

what is the relationship between Ca++ and heart contraction

Answer 51

increased Ca++ = increased contractility

Question 52

what 3 things increase myocardial contractility (positive inotropic effect)

Answer 52

• sympathetic stimulation (innervate ventricular muscle)
• adrenaline + noradrenaline (act on B1 receptors)
• digoxin (drugs)

Question 53

what 3 things decrease myocardial contractility (negative inotropic effect)

Answer 53

• decreased sympathetic stimulation
• decreased adrenaline + noradrenaline
• B blockers

Question 54

what is afterload

Answer 54

the force AGAINST which the ventricles eject blood

Question 55

why do arteries have pressure

Answer 55

to maintain structure and flow

Question 56

what is the pulmonary arterial pressure (for right ventricle) - afterload

Answer 56

15-20mmHg

Question 57

what is the aortic pressure (for left ventricle) - after load

Answer 57

100mmHg

Question 58

what is the pulmonary arterial pressure and aortic pressure

Answer 58

pulmonary arterial pressure is the pressure that the RIGHT ventricle must overcome to pump blood

aortic pressure is the pressure that the LEFT ventricle must overcome to pump blood

Question 59

which ventricle has a greater O2 consumption

Answer 59

left - has a greater muscle mass due to higher workload - cardiac muscle contraction generates energy aerobically

Question 60

where are myocardial infarcts more common

Answer 60

in the left ventricle (due to its higher need for O2 for aerobic metabolism)

Question 61

what is left ventricular hypertrophy and what does it indicate

Answer 61

• enlargement of the left ventricle
• sign of an overworked heart usually due to high blood pressure ( ventricle is forced to work against an afterload >100 mmHg)

Question 62

what are the ridges in the pectinate muscle for

Answer 62

to increase surface area of the atria to accommodate changing volume

Question 63

where is the opening of the coronary sinus and what is it’s role

Answer 63

just below the opening of the vena cava, it returns the blood of the coronary circulation

Question 64

what is the fossa ovalis

Answer 64

• small oval depression where where the foramen ovale used to be (hole in the heart of babies)

Question 65

what is the structure and function of the trabeculae carnae

Answer 65

• they are columns of muscle on the inside of the ventricle to create turbulence to promote proper mixing of the blood to stop pooling

Question 66

what are papillary muscles and chordae tendineae

Answer 66

strings and joining muscles connecting the valves to the ventricles to prevent them from opening backwards and hence preventing the backflow of blood

Question 67

what is the name for the placement of any 2 electrodes for ECG recordings

Answer 67

a lead