ECG Signs and differentials

Question 1

Ecg changes in cor pulmonale?

Reminder: copd - reflex vasoconstriction/loss of pulmonary capillaries - pulmonary hypertension - right ventricular hypertrophy - right atrial enlargement

Answer 1

P. Pulmonale -Peaked p waves greater than 2.5mm amplitude (=right atrial enlargement)

PR and ST segments sagging - should normally be flat baseline between P-QRS-T (=Exaggerated atrial depolarisation)

Question 2

Signs of severe hyperkalemia on an ecg?

Answer 2

No discernible p waves
Wide QRS complexes (>120ms)
Peaked t waves

Question 3

Normal ECG: what needs to be normal? 8 things to look at

Answer 3

1. Rate: 60-100bpm (300/no of large squares R-R)
2. Rhythm: regular sinus rhythm, p waves starting 120-200ms before a QRS complex (see only 2 waves? Must be QRS and T, can’t have a lone P)
3. Axis: QRS has positive deflection in leads 1 and 2 means normal axis
4. QRS: less than 120ms
5. Q: deeper in leads 3 and aVR is normal
6. ST interval: should be isoelectric (flat/in line with) the baseline
7. T: higher in chest leads, lower in limb leads, down turned in aVR and V1
8. QT interval: varies depending on HR

Question 4

Does a normal ECG exclude ACS?

Answer 4

No -

Question 5

Two things required to diagnose STEMI?

Answer 5

ST elevation >/=1mm in leads 2 and 3

New left bundle branch block
(WiLLiaM: W in V1+V2, M in V3+V4, wide QRS, no Q waves in 1, V5 and V6)

Changes in ECG:
Initially = normal ecg in 20% of cases
Within hours = Tall tented T waves, new LBBB and ST elevation
Within days = T wave inversion and pathological Q waves

Question 6

Causes of Left bundle branch block?

(“Where the left bundle Is blocked in the interventricular septum so the depolarisation starts in the right and moves to left, normal heart has left to right depolarisation”)

Answer 6

Aortic stenosis
Ischemic heart disease
HTN
Dilated cardiomyopathy 
Anterior MI
Hyperkalemia
Digoxin poisoning

Question 7

What event does the Q wave represent?

Answer 7

The normal left to right depolarisation of the interventricular septum

Hence we lose the Q waves in Lateral leads V5/V6 in left bundle branch block

Not normally seen in V1-3

Question 8

Signs of MI in CAD (aka IHD/CHD) on ECG?

Answer 8

1. pathological Q waves:
   * > 40 ms (1 mm) wide
   * > 2 mm deep
   * > 25% of depth of QRS complex
   * Seen in leads V1-3
2. left bundle branch block
   * Broad QRS (>3small square/0.12sec) and
   * Deep S wave in V1 and
   * No Q wave in V5/V6
3. ST-segment and T wave abnormalities (for example, flattening or inversion).

(- indicate ischemia or previous MI)

Question 9

Signs of left bundle branch block?

Answer 9

Broad QRS (>3small square/0.12sec)

Deep S wave in V1

No Q wave in V5/V6

Question 10

What does ST elevation mean is happening in the heart?

Answer 10

Infarction of the myocardium

Or Transmural ischemia

Question 11

What does ST depression mean is happening to the heart?

Answer 11

Ischemia of the endocardium

All to do with where the isoelectric baseline is:
Ischemic part of heart is ACTIVE, and generates its own currents before QRS, these move TOWARD the electrode.
Towards = positive deflection
Away = negative deflection
This makes the isoelectric baseline seem to be above 0mV [normally it is 0mV]
When total depolarisation occurs at ST interval, the baseline is finally at 0mV -> Depressed below baseline.

Question 12

What are the ECG changes associated with pulmonary embolism?

Answer 12

Sinus tachycardia (HR >100)- most common change

Atrial fibrillation (caused by the PE)

S1Q3T3 - sign of acute cor pulmonale (pulmonary hypertension), so we have: S wave in lead 1, Q wave in lead 3 and T wave inversion in lead 3

RBBB - sign of delayed ventricular depolarisation, so we have: broad QRS, (MaRRoW) M-shaped QRS in V1-3 and W-shaped QRS in V5-6

(Reminder: the first part of the QRS is the left ventricle depolarising)

Question 13

What are the differentials for a wide QRS complex?

Answer 13

LBBB

RBBB

Ventricular tachycardia

Ventricular fibrillation

Complete heart block (This is 3rd degree: impulses don’t reach from Atria to ventricles AT ALL)

Hyperkalemia

Tricyclics antidepressants

Question 14

What is an early after depolarisation? (EAD)

Answer 14

A decrease in the efflux potassium currents in the heart, or an increase in the sodium channels. (Both of which will keep the cell depolarised for longer)

MOA:

1. This slows the repolarisation of the myocyte when it is in phase 3 (depolarised - plateau).
2. This can keep going long enough to reactivate L-type calcium channels.
3. This will cause the release of calcium from the SR and cause a long depolarisation.

This is the cause of LONG-QT syndrome: too few potassium channels, since it takes longer for the heart to repolarise.

Question 15

What is a delayed after depolarisation?

Answer 15

A very small action potential occurring just after a normal action potential, if they are big enough then they can trigger another contraction.

Classically caused by digoxin toxicity, but also MI

A normal cell releases calcium at the same time all over itself.
A DAD cell has spontaneous, chaotic release of calcium in random places on the call.

MOA:

1. The SR of a myocyte is overloaded with calcium.
2. Calcium is spontaneously released from the SR within the cell.
3. This activates depolarising currents, if these currents are big enough then the impulse will be generated and the cell will contract.

Question 16

What kind of heart block increase the P-R interval

Answer 16

First degree, mobitz type 1 and mobitz type 2

Question 17

What’s a tall tented P wave, and what is a tall tented T wave?

Answer 17

Tall tented P wave = p pulmonale (enlarged right atrium)

Tall tented T wave = hyperkalemia

Question 18

What pathophysiologial processes cause a broad QRS?

Answer 18

1. The normal electrical conduction system is blocked and the impulse has to find another route.
2. The impulse originates in the ventricles.

Question 19

What does a sawtooth p-wave mean?

Answer 19

Atrial flutter

MOA: The SAN is firing at a beat of 300 per minute, the AVN wants to control the ventricular rhythm so only lets every other, or second, or third impulse through.

This means that atrial flutter gives predictable rates of 75, 100 or 150 bpm.

Question 20

How long should a normal P-R interval be?

Answer 20

0.12-0.2 seconds = 3-5 small squares

Question 21

A PR interval longer than 5 small squares is which cardiac arrhythmia?

Answer 21

Lengthened PR interval means the first degree heart block, the AV node is holding on to the impulse for a little too long.

Question 22

What is the arrhythmia that causes progressively lengthening PR intervals that reset themselves after a few complexes?

Answer 22

This is second degree heart block mobitz type 1 also known as wenckebach.

The PR interval lengthens progressively before it drops a P wave entirely and then resets.

Question 23

What is the arrhythmia that causes a normal PR interval but then occasional dropped QRS complexes? I.e. the p waves continue at the same rate but the QRS doesn’t follow it

Answer 23

This is second degree heart block Mobitz type 2.

This is the one which requires a long ECG strip taken, in order to catch these dropped QRS complexes.

Question 24

What is third degree heartblock?

Answer 24

This is where the PR interval changes all the time because the P wave is occurring at its own rhythm and the QRS wave is occurring at its own respective rhythm.

So R-R interval is regular = Ventricular rhythm
P-P interval is whatever it wants (SAN is still modulated by the ANS) = atrial rhythm

This means that sometimes the P seems to be in the right place, sometimes it’s far away, and sometimes it’s under the QRS or the T.