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Flashcards in ECG theory and Practice Deck (78)
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1
Q

What happens in sinus rhythm?

A

SA node conducts generates AP automatically that conduct rapidly through the atria causing atrial contraction
Relatively slowly through the AV node
-Rapidly through the bundle of His and the left and right bundle branches
- Rapidly through the purkinje fibers causing ventricular contraction

2
Q

What is an ECG?

A

Recording of potential changes detected by electrodes
positioned in the body surface that allows the electrical activity of the heart to be monitored in a simple manner which is non invasive

3
Q

How do potentials at the body surface occur?

A

Arise from currents that flow when the membrane potential of the myocardial tissue is changing (depolarization or repolarization)

4
Q

What info can an ECG provide?

A
Rate 
Rhythm 
Chamber size 
Electrical axis of heart 
Assess for myocardial ischaemia and infarction
5
Q

What does electrical activity within and between cardiac muscle cells cause?

A

Current flow within the heart
Current flow within the surrounding tissues
Potential differences between different sites on the body surface

6
Q

What is a recording between potential differences at different sites of the body called?

A

Electrocardiogram (ECG) or EKG

7
Q

Simplified physics of an ECG?

A

The AP propagating in sequence through the conducting system and muscle of the heart causes separation of charge or differences in potential between cardiac regions
Charges that are separate are called an electrical dipole which is a vector with components of magnitude and direction (eg atria to ventricle)

8
Q

What does a dipole represent?

A

Electrical vector

9
Q

Why is an electrical vector important in an ECG?

A

Clinically important as it allows the electrical axis of the heart to be estimated
Has components of magnitude and direction (orientation of arrow)

10
Q

What is magnitude of an electrical dipole?

A

Determined by mass of cardiac muscle that is involved in generation of signal

11
Q

What is direction of an electrical dipole determined by?

A

Overall activity of the heart at any instant in time and varies during cardiac cycle

12
Q

What is an ECG lead?

A

Imaginary line (not the wire) between 2 or more electrodes

13
Q

In a lead what do the two electrodes act as?

A
Recording electrode (red) 
Referencing electrode ( green)
14
Q

What happens on the ECG when depolarization moves toward the recording electrode?

A

Generates an upward deflection

15
Q

What happens on ECG when depolarization moves away from recording electrode?

A

Generates a downwards deflection

16
Q

What is a flat line on ECG referred to as?

A

Isopotential

17
Q

What do you call it when there is no movement on an ECG?

A

Isopotential

No movement towards or away from recording electrode

18
Q

What does a 12 lead ECG comprise of?

A

3 standard limb leads - 1,2 and 3- termed bipolar
3 augmented voltage leads (aV) - aVR right, aVL left and aVF foot - termed unipolar
6 Chest leads V1-V6 (precordial leads)

19
Q

What do the 12 leads provide?

A

Comprehensive picture of the heart on different planes and from different directions

20
Q

What leads show the vertical (frontal) plane?

A

Leads 1, 2 and 3

aVR, aVL, and aVF

21
Q

What leads show the horizontal plane?

A

V1- V6

22
Q

Where is Lead 1?

A

RA (-ve)to LA (+ve)

23
Q

Where is lead 2?

A

RA (-ve) to LL (+ve)

24
Q

Where is lead 3?

A

LA (-ve) to RL (+ve)

25
Q

What direction does lead 2 see the heart from?

A

Inferior

26
Q

Describe what is seen for lead 2 and why?

A

Normally upward deflection (P wave)
Atrial depolarization spreads from the SA node inferiorly and to the left (depolarization is moving towards the recording electrode in lead 2

27
Q

Which type of electrode is +ve?

A

Recording

28
Q

How long should a P wave last?

A

0.12 seconds or less

29
Q

What is the downward deflection preceeding an R wave called?

A

Q wave

30
Q

What is an R wave?

A

A deflection upwards whether or not its following a Q wave

31
Q

What is an S wave?

A

Downward deflection following an R wave

32
Q

What does a QRS complex represent?

A

Ventricular activation or depolarization

33
Q

Duration of a QRS complex?

A

0.1 s or less

34
Q

What causes a small and narrow Q wave?

A

Ventricular depolarization starting in the interventricular septum and spreading from reft to right

35
Q

What causes a tall and narrow R wave?

A

Free walls of ventricles depolarizing

36
Q

What produces a small and narrow S wave?

A

Ventricles at the base of the heart depolarize

37
Q

What does a T wave represent?

A

Ventricular repolarization

38
Q

What is a T wave?

A

Upward deflection because the wave of REpolarization is spreading away from the recording electrode (-ve charge moving away from the recording electrode)

39
Q

Full explanation and summary of lead 2?

A

P wave – atrial depolarization moving towards the recording electrode

Q wave – left to right depolarization of the interventricular septum moving slightly away from the recording electrode

R wave –depolarization of the main ventricular mass moving towards the recording electrode

S wave – depolarization of ventricles at the base of the heart moving away from the recording electrode

T wave – ventricular repolarization moving in a direction opposite to that of depolarization accounts for the usually observed upward deflection

40
Q

When is the PR interval?

A

Start of the P wave to the start of the QRS complex

41
Q

What does the PR interval show?

A

Reflects the time for the SA node impulse to reach the ventricles

42
Q

What is the usual length of the PR interval?

A

0.12-0.2s

43
Q

What is the PR interval strongly influenced by?

A

Delay in conduction through the AV node- diagnostically important

44
Q

When is the ST segment?

A

End of the QRS complex to the start of the T wave

45
Q

What does the ST interval look like?

A

Normally isoelectric

46
Q

When is the QT interval?

A

Start of the QRS complex to the end of the T wave

47
Q

What does the QT interval reflect?

A

The time taken for ventricular de and repolarization

48
Q

Usual QT interval length?

A
  1. 44s in males

0. 46s in females

49
Q

What does a prolongation of the QT interval indicate?

A

Predisposal to distrubances of cardiac rhythm

50
Q

What is Goldbergers method?

A

One recording electrode, 2 others linked as referencing

- effectively positions the reference electrode in the center of the heart to which the recording electrodes ‘look’

51
Q

What is hexaxial reference system?

A

6 views in total

views of the heart in frontal plane provided by standard and augmented leads

52
Q

Describe the waves on the aVR lead?

A

Waves are negative

predominant vector is depolarization moving away from recording electrode

53
Q

Describe the waves on lead 2?

A

Waves are positive

Predominant vector is depolarization moving towards the recording electrode

54
Q

What type of leads are leads 1 and aVL?

A

Lateral leads

55
Q

Which leads are inferior?

A

Lead 2, 3 and aVF

56
Q

What do V1 & V2 look at?

A

Interventricular septum

57
Q

What do leads V3 and V4 look at?

A

Anterior of the heart

58
Q

What do V5& V6 look at?

A

Lateral aspect of heart (Left v)

59
Q

What does an R wave look like on V1?

A

The first positive deflection in the QRS complex, the negative deflection immediately after in an S wave

60
Q

What happens to R and S waves from V1-V6?

A

R wave gets progressively increased

S wave progressively decreases

61
Q

Placement of V1?

A

4th ICS

Immediately right of sternum

62
Q

Placement of V2?

A

4th ICS

Immediately left of sternum

63
Q

Placement of V3?

A

Midway between V2 & V4

64
Q

Placement of V4?

A

5th ICS

Mid-clavicular line

65
Q

Placement of V5?

A

Same horizontal level as V4

Anterior axillary line

66
Q

Placement of V6?

A

Same horizontal level as V4

Mid-axillary line

67
Q

What does P wave represent?

A

Atrial depolarization

68
Q

Length of P wave?

A

0.08-0,10 secs

69
Q

QRS complex length and represents?

A

less than 0.1s

Ventricular depolarization

70
Q

T wave represents?

A

Ventricular repolarization

71
Q

What does ST segment represent?

A

Ventricles contracting (systole)

72
Q

What represents diastole (ventricles relaxing)?

A

TP segment

73
Q

What does PR interval represent?

A

Largely AV nodal delay

74
Q

QT interval represents?

A

Depolarization and repolarization of ventricles - lengths needs to be corrected to heart rate

75
Q

What is an ECG rhythm strip?

A

prolonged recording of one lead
usually lead 2
Allows you to determine HR and identify cardiac rhythm

76
Q

Why do we need 12 leads?

A

12 leads look at heart from different directions which allows-
Determine the axis of the heart
Look for any ST segment or T wave changes across different areas of the heart - IHD
Look for any voltage criteria changes - crucial in diagnosing chamber hypertrophy

77
Q

6 key steps for analyzing an ECG?

A

1) Confirm patients name and DOB
2) Check date and time ECG was taken
3) Check callibration of ECG paper
4) Determine axis
5) Workout rate and rhythm -
- electrical activity present
- Rhythm regular or irregular
- Heart rate
- P waves present
- PR interval
- Each P wave followed by QRS complex
- QRS duration normal?

6) Look at individual leads for voltage criteria changes or any ST segment r T wave changes

78
Q

What does a normal ECG not exclude?

A

MI (can cause ST elevation though sometimes)
Intermittent rhythm disturbance - ABPM
Stable angina - if suspected do exercise ECG