Cardiovascular System: Lecture 4 - Electrical conducting systems of the heart

Question 1

How does contraction work in cardiac myocytes?

Answer 1

It is spontaenous / intrinsic

Question 2

Explain the pathway of cardiac conduction in the heart

Answer 2

1. SAN sends impulses that travel through internodal pathways to AV node
2. Cells of the AV node transmit AP more slowly and delay the impulse
3. Impulses spread down ventricles along the bundle of His
4. impulses travel down the left and right bundle branch to the apex of the heart
5. Impulses travel back up the purkinje fibres

Question 3

What are the two main types of cardiac action potential?

Answer 3

Non-pacemaker and pacemaker action potentials

Question 4

Describe how a non-pacemaker (myofibril contractile cell) action potential works (5 phases)

Answer 4

Phase 0- Na+ channels open

Phase 1- Na+ channels close - initial repolarisation

Phase 2- Ca2+ channels open; fast K+ channels close - flattening due to decrease in K+ permeability, and increase in CA2+ permeability

Phase 3- Ca2+ channels close; fast K+ channels open - rapid repolarisation

Phase 4 - Resting potential

Question 5

What does pacemaker activity refer too?

Answer 5

the intrinsic, spontaneous time dependant depolarisation of a cell membrane that leads to an action potential

Question 6

What is the primary pacemaker defined as?

Answer 6

The Primary Pacemaker is defined as the tissue with the highest ‘firing’ frequency, in other words the fastest pacemaker sets heart rate and overrides all slower pacemaker tissues.

Question 7

Explain the 3 types of pacemaker and their hierarcy?

Answer 7

SAN node is fastest

Question 8

Explain the decay of a pacemaker potential and why is it important?

Answer 8

-important as it determines the heart rate

Question 9

What are the differences between pacemaker and nonpacemaker cells?

Answer 9

pacemaker - left

non pacemaker -right

Question 10

Which class of drugs affect phase 0 of a cardiac action potential? give an example

Answer 10

class 1 - Na+ channel blockers

e.g lidocaine

prevents Na+ entering

Question 11

Which class of drugs affect phase 2 of a cardiac action potential?

Answer 11

Class 4 - Ca2+ channel blockers

e.g verapamil

prevents Ca2+ entering

Question 12

Which class of drugs affect phase 3 of a cardiac action potential? give example

Answer 12

Class 3 - K+ channel blocker e.g sotalol

prevents K+ leaving

Question 13

Which class of drugs affect phase 4 of a cardiac action potential? (the resting potential)

Answer 13

Class 2 - beta blockers e.g propanalol

Question 14

What do depolarising currents pass through?

Answer 14

Gap junctions located at intercalated discs

Question 15

Why do we have a delay when electrical impulses reach the AVN?

Answer 15

otherwise the top of the ventricles would contract and push the blood to the bottom, so the blood wouldn’t come back up

Question 16

What is the order of conduction speed at the different points that impulses travel through?

Answer 16

Question 17

How many leads and electrodes are there in an ECG?

Answer 17

Leads - 12

Electrodes - 10

Question 18

What is the order of the first 6 lead placements on the chest when carrying out an ECG?

Answer 18

Order and location:

V1 - Fourth intercostal space at the right border of the sternum
» V2 - Fourth intercostal space at the left border of the sternum
» V3 - Midway between placement of V2 and V4
» V4 - Fifth intercostal space at the midclavicular line
» V5 - Anterior axillary line on the same horizontal level as V4
» V6 - Mid-axillary line on the same horizontal level as V4 and V5

Question 19

What is the Einthoven triangle?

Answer 19

Lead placement for the limbs

works by vectors

Question 20

What does this mean on an ECG?

Answer 20

Electrical activity towards an electrode results in a positive deflection on ECG

Question 21

What does this mean on an ECG?

Answer 21

Electrical activity away from an electrode results in a negative deflection on ECG

Question 22

how is the diagnosis of a normal ECG made?

Answer 22

By excluding any recognised abnormality

We ignore the bit at the top that says ‘normal/abnormal’ as ECG’s are operator dependent so they must be analysed further

Question 23

What do each of these components of an ECG represent?

Answer 23

P wave - represents atrial depolarisation / AV node delay

PR segment - conduction through AV node and AV bundle - delay

QRS complex - depolarisation of ventricles

T wave - repolarisation of ventricles

ST segment - full ventricular depolarisation

Question 24

What type of rythm is this?

Answer 24

Normal sinus rhythm

Question 25

What type of rhythm is this?

Answer 25

Atrial fibrillation

Question 26

What type of rhythm is this?

Answer 26

Atrial flutter

Question 27

What type of rhythm is this?

Answer 27

Ventricular fibrillation

Question 28

What type of rhythm is this?

Answer 28

Ventricular tachycardia: too many ventricular contractions, too fast

blood dosent have time to fill before contraction, so blood isn’t pumping

Question 29

What type of rythm is this?

Answer 29

1st degree heart block

Prolonged PR interval

not uncommon

Question 30

What are the 3 types of heart block showing on an ECG?

What is the treatment for 3rd degree AV block?

Answer 30

A pace maker