ECG

Question 1

The instrument used for recording electric activity of heart is …., paper obtained is ….. & speed of paper moving is …..

Answer 1

Electrocardiograph
Electricardiogram
25 mm/sec

Question 2

Uses & importance of ECG

Answer 2

1. Anatomical orientation of heart
2. Relative sizes of atria & ventricles
3. Heart rate & regularity
4. The pacemaker & path taken by AP
5. Mscle status esp ventricles.

Question 3

Mention abnormalities diagnosed by ECG

Answer 3

Dysrhythmias, myocardial ischemia & infarction, electrolyte disturnbance & influence of drugs (digitalis)

Question 4

P wave represents ….., the ascending limb is for ….., while the descending is for …… , its duration is …..

Answer 4

Atrial depolarization
Right atrial depolarization
Left atrial depolarization
0.1 sec

Question 5

Q wave represents ….. from …to….

Answer 5

Depolarization of ventricular septum , left to right

Question 6

R wave represents ………, while S wave represents ……

Answer 6

Activation of ventricular mycodium (mainly left) from endocardial to epicardial surfaces.
Depolarization of the posterior & posterobasal portion of left ventricle & pulmonary conus

Question 7

The start of isoelectric line after QRS is called …..

Answer 7

J point

Question 8

T wave represents ….., its duration is …..

Answer 8

Ventricular repolarization

0.16-0.25 sec

Question 9

GR: In ventricles, epicardium is repolarized before endocardium

Answer 9

Because the high intraventricular pressure presses on subendocardial blood vessels leading to partial ischemia, which delays repolarization in the endocardiak myocardial cells.

Question 10

GR: Venticular re & depolarization are both upwardly deflected

Answer 10

Because de. is from endocardium to epicardium, while re. is from epicardium to endocardium.

Question 11

U wave may represent ……., it is promininet in …

Answer 11

Slow repolarization of papillary & Purkinje fibers

Hypokalemia

Question 12

GR: QRS amplitude is greater than P amplitude

Answer 12

Due to larger & thicker ventricular wall compared to atrial

Question 13

GR: Duration of QRS is shorter than P complex

Answer 13

Due to presence of rapidly conducting Purkinje fibers in the ventricles.

Question 14

GR: Atrial repoalrization is not recorded by ECG

Answer 14

It is buried in the QRS complex

Question 15

PR interval respresents ….
Its duration is ….
Prolongation indicates …..

Answer 15

The time for atrial depolarization (plateau) plus the time for conduction through the AV node
0.12-0.21 sec
An abnormality of the conduction pathway through the AV node

Question 16

QRS duration represents ….
Its duration is …..
Its prolongation indicates ….

Answer 16

Intraventricular conduction
0.04-0.08 sec
Ventricular hypertrophy and ventricular ectopic focus de. depends on cell-to-cell conduction

Question 17

Q-T interval indicates …..

Its duration is ……

Answer 17

Ventricular electrical systole, measure for ARP

0.34 TO 0.43 sec

Question 18

GR: ST segment is isoelectric

Answer 18

Because it represents a time when the entire ventricular myocardium is depolarized

Question 19

ST interval is elevated in cases of …..

Answer 19

Myocardial ischemia

Question 20

…… represents the true isoelectric line of ECG

Answer 20

T-P segment

Question 21

The right leg is connected to …. Because …..

Answer 21

Ground

It acts as an electrical earth to discount other electric currents not produced by the heart preventing interference

Question 22

A negative electrode is always placed on ….., a positive electrode is always placed on …..

Answer 22

Right arm

Left leg

Question 23

State Einthoven’s law

Answer 23

The magnitude of any deflection in lead II is equal to the summation of the magnitude of the same deflection in lead I and in lead III.

Question 24

Einthoven’s law detects …..

Answer 24

Abnormal physical connection

Question 25

Mention the role of augmented limb leads

Answer 25

They record the potential difference between an exploring electrode on RA, LA or LL respectively and an electrode obtained by connecting the other two limbs
aVR = VR - (VL+VF)/2

Question 26

Mention the position of precordial leads

Answer 26

V1 : 4th intercistal space left of sternum
V2 : 4th intercistal space right of sternum
V3: between V2 & V4
V4: 5th intercostal space left midclavicular
V5: 5th intercostal space left ant axillary line
V6: 5th intercostal space midaxillary line

Question 27

The normal direction of vector is ….

Average is …..

Answer 27

-30 to +110 degrees

+60 degrees

Question 28

Mention causes of left & right axis deviation.

Answer 28

L:
1. Short obese individuals, anatomical shift to left
2. Left ventricular hyoertrophy
3. Left bundle branch block
4. Right ventricular extrasystole
R: opposite

Question 29

Enumerate mechanisms of arrhythmias

Answer 29

1. Disorders of impulse formation
   a. Altered normal automaticity
   b. Triggered activity
2. Disorders of impulse conduction (eg, reentry)

Question 30

Mention factors determining firing rate

Answer 30

Maximum diastolic potential
Threshold potential
Slope of phase 4 depolarization

Question 31

Mention conditions in which myocardial cells can exhibit automaticity properties

Answer 31

Conditions that drive the maximum diastolic potential towards the threshold potential (i.e. increased excitability such as hyperkalemia & catecholamine excess).

Question 32

Define afterpolarization

Answer 32

Membrane potential oscillation that occur during or immediately following a preceding AP which acts as a trigger.

Question 33

Mention the cause of afterdepolarization and its effect if exaggerated

Answer 33

Caused by a variety of conditions that raise diastolic intracellular IC Ca conc which can trigger a new AP if they reach the stimulation threshold.
(eg, in ischemia due to decreased activity of active Ca uptake)

Question 34

Describe acceleration-induced block.

Answer 34

Impulses are blocked at high rates of incomplete recovery of refractoriness. When an impulse arrives & tissue that is still refractory , it will not be conducted (blocked).

Question 35

Mention proposed reasons for deceleration-dependant block

Answer 35

• The reduced excitability and reduced AP amplitude due to calcium channels blockers, beta blocker or digitalis.
• Degenerative processes (ischemia, infarction or mechanical injury)

Question 36

Describe anatomic reentry

Answer 36

When the impulse arrives to an area of unidirectional block (area of obtacle) it will stimulate it but connot pass. Slow (necessary) conduction of the de. wave on the other side will reach the the area of obstacle and can re-excite it, it has recovered. Therefore, this area will stimulate other areas and act as ectopic focus.

Question 37

Mention causes & characteristics of AF

Answer 37

C: multiple ectopic foci in atrium, reentry in atrium
CCC: atrial rate: 350-500 bpm, vr: 100-150 bpm, completely irregular due to physiologic AV block, so some of the pulse waves are not transmitted to the peripheral arteries with large variation CO & BP. Atrial pumping power is lost with no contribution of atrial systole, the atrial contraction appears as bag of worms.

Question 38

Describe ECG picture of AF

Answer 38

P wave is absent repaced by F waves
P-R interval is irregular
Normal QRS & T wave
QRS are irregularly spaced with variable RR interval, this is because the impulses are transmitted to ventricles whenever the AV node can conduct the depolarization process, so ventricular contraction shows irregular irregularity.

Question 39

Treatment of atrial fibrillation

Answer 39

1. Cardioversion
2. Digoxin to increase AV refractory period
3. Anticoagulant

Question 40

PAT, Af & AF can cause symptoms of ……

Answer 40

Heart failure

Question 41

Causes & characteristics of PVT

Answer 41

C: ectopic focus in ventricle, circus movement in ventricle. Can be cause by ischemic damage or touching endocardium by intracardiac catheter
CCC: Atrial rate is normal, vr = 150-250 bpm, v filling & v pumping & cardiac output are decreased

Question 42

Describe ECG picture of PVT

Answer 42

Absent P wave, QRS is slurred, notched & wide bec of aberrant conduction in ven, direction of T wave is opposite QRS complex.

Question 43

Mention treatment of PVT

Answer 43

Cardioversion, treatment affecting vagal tone in ineffective.

Question 44

Mention causes of ventricular fibrillation

Answer 44

Ventricular ectopic foci
Ventricular circus movement
These may be caused by
Myocardial ischemia
Electric shock
Ectopic focus during vulnerable period, a diseased heart is particulary susceptible to develop this arrhythmiabif stimulated in the vulnerable period which correspnds to the last part of repolarization from middle of T wave when some fiber are still depolarized, some partially repolarized & some completely repolarized.

Question 45

Mention CCC of ventricular fibrillation & ECG

Answer 45

Absent coordination of heart beat
Ventricular contraction is totally ineffective, twitching movements, bag if worms
Peripheral pulse disappears
Cardiac output falls to zero
ECG: low voltage, very irregular, undulating waves of varying frequency and amplitude, without any distinguishable rhythm

Question 46

Treatment of ventricular fibrillation

Answer 46

Electric defibrillaltion (cardioversion)
The heart is exposed to an electric current with a very high voltage, aiming to make the whole ventricle muscle fibers depolarize & repolarize together.

Question 47

Mention the name of accessory bundle in WPW syndrome & describe conduction of impulse in it.

Answer 47

Accessory bundle or bundle of Kent
Accessory bundle: anomalous conduction with no delay thus causes early ventricular depolarization, in ECG, gives short PR segment & delta wave.
AV conduction, normal conducation with AV nodal delay responsible for remainder of QRS

Question 48

Describe the ECG of WPW

Answer 48

Normal P wave, short PR, slurred upstroke of QRS

Question 49

Mention cause & ECG of SA block

Answer 49

Increased vagal tone

Absent P, QRS & T waves

Question 50

Causes of AV block

Answer 50

1. AV node ischemia
2. AV node compression by scar tissue
3. Septal infarction
4. Injury of bundle of His during surgical correction of septal defect
5. Myocarditis due to diphtheria or rheumatic fever

Question 51

ECG picture of first degree heart block

Answer 51

Abnormally Proplonged PR interval, normal QRS & T waves, ratio of P:QRS is 1:1

Question 52

ECG picture of 2nd degree heart block

Answer 52

PR interval maybe normal, P:QRS may be 2:1 or 3:1, normal QRS & T wave

Question 53

Describe Wenckebach phenomemon

Answer 53

Type of 2nd degree heart block, there is progressive lengthening of PR interval till a beat is dropped, then followed by a beat with normal PR interval.

Question 54

In complete heart block the ventricles follow …..

Answer 54

A focus developed in the bundle of His

Question 55

ECG picture of complete heart block

Answer 55

P waves at 70 bmp, QRS at 40 bpm, P waves & QRS complexes are not related to each other.

Question 56

Write a short note on Stock-Adams syndrome

Answer 56

Sometimes the idioventricular rhythm is very slow 15-20 bpm, so there are periods of Asystole for minute or more leading to cerebral ischemia causing dizziness & fainting.

Question 57

Describe ECG picture of bundle branch block

Answer 57

Wide prolonged QRS with two peaks, axis deviation towards affected side, T wave us opposite to main QRS deflection.

Question 58

Enumerate abnormalities of ECG IN MI

Answer 58

1. ST segment elevation
2. T wave inversion
3. Deep Q wave

Question 59

Write a short note on ST elevation in MI

Answer 59

Heart damage causes part of the tissue to be always partially or completely depolarized which causes flow of current between pathological & normal tissue, current of injury. This appears as ST elevation which is actually depression which represents the true isoelectric line. It subsides in few days.

Question 60

Write a short note on T wave inversion in MI

Answer 60

Mild ischemia/acute infarction
Repolarization is particularly sensitive in epicardium in case of ischemia, leading to reversal of direction of repolarization.
Reversible with regain of blood flow.

Question 61

Write a short note on deep Q wave in MI

Answer 61

The dead muscle is replaced by fibrous tissue which acts as an electrical window, being itself electrically silent. Thus the electrodes pick up the negativity of ventricular septum & Q wave will appear much larger in size. It will remain for life as a sign of old MI.

Question 62

ECG picture of hypokalemia

Answer 62

Prolongation of PR interval, low voltage T wave (T wave inversion), prominent U wave.

Question 63

ECG picture of hyperkalemia & CCC

Answer 63

Tall peaked T wave

AV nodal block, reentry phenomenon, inc ectopic activity, ventricular fibrillation.

Question 64

GR: In PAN, QRS & T wave are normal while in PVN QRS is bizzare & T wave is inverted.

Answer 64

In PAN, the impulse is conducted to ventricles via normal pathway
In PVN, impulse is conducted to ventricles slowly & abnormally from cell to cell, also the depolarization occurs in one direction so waves of the ventricles do not neutralize each other, T wave is inverted because the slow conduction of impulse causes the first area depolarzied to be the first area repolarized.

Question 65

GR: PR interval is shoretend in PAN

Answer 65

Beacuse usually the beat originates near to AV node

Question 66

Compare P wave in in PAN & PVN

Answer 66

A: abnormal, inverted or absent
V: absent

Question 67

Mention underlying cause of extrasystoles

Answer 67

Due to development of ectopic focus that results in a beat that occuts before expected normal sinus beat.

Question 68

Describe ECG picture of AV nodal rhythm

Answer 68

1. Bradycardia
2. Inverted P wave & may be absent
3. Short PR interval as AV is closer to ventricles
4. Normal QRS & T wave as ventricles are stimulated by normal pathway

Question 69

Mention cases in which fever is associated with bradycardia & why?

Answer 69

Typhoid & diphtheria

Effect of toxins on the heart

Question 70

Mention causes & ECG picture of respiratory sinus rhythm

Answer 70

C: during inspiration, the stretch receptors of lung send impulses via vagus which inhibit cardio-inhibitory center, leading to rising of HR, while during expiration vagal tone is restored.
ECG: RR interval is shortened during inspiration & lengthened during ex
Normal QRS & T wave

Question 71

Diagnosis criteria of normal sinus rhythm

Answer 71

1. Positive P wave in lead II
2. Negative P wave in aVR
3. HR = 60-100 bmp at rest

Question 72

Mention causes & ECG picture of sinus tachycardia

Answer 72

C: increased symp activity, fever & hyperthyroidism (^metablosim of SAN)
ECG: inc HR, short RR interval, normal P, QRS & T waves

Question 73

Causes & characteristics of atrial flutter

Answer 73

Causes: single ectopic focus in heart or circus movement in atrium
CCC:
atrial rate = 250-350 bpm, vr= 125-175 as a result of physiological AV block
Atrial pumping is still efficient
ECG: abnormal closely packed and repeated P waves giving rise to P wave pattern
Normal QRS & T wave
QRS:P = 1:2 OR 1:3

Question 74

Mention lines of treatment if PSVT

Answer 74

1. Increasing vagal tone (carotid sinus massage, occulo-cardiac reflex, induction of vomitting, valsalva maneuver)
2. Cardioversion
3. Antiarrhythmic drugs
4. Radiofrequency catheter ablation

Question 75

Describe characteristics of paroxysmal nodal tachy.

Answer 75

Atrial & vent rate = 140-220 bpm, atrial pumping is efficient
ECG: abnormal or inverted P wave, normal QRS & T wave, short PR interval

Question 76

Mention causes of paroxysmal nodal tachy

Answer 76

1. Ectopic focus in AV node

2. Circus movement AV bypass tract

Question 77

Causes of Paroxysmal atrial tachycardia

Answer 77

1. An single ectopic focus in atrium

2. Circus movement in atrium

Question 78

Mention causes of ectopic tachycardias

Answer 78

1. An abnormal ectopic focus that discharges at a rate higher than SAN thus supressing it.
2. Reentry phenomenon (more common)

Question 79

Compare complete & incomplete compensatory pause with respect to duration

Answer 79

C: the duration of the two PP intervals around PVC are equal to the duration of two normal sinus PP intervals
IC: the duration of the two PP intervals around PAC are less than the duration of two normal sinus PP intervals

Question 80

GR: Premature beat can cause pulsus deficit

Answer 80

As it arises earlier thatvthe normal SA node beat, thus decreasing the ventricular filling & consequently the stroke volume.

Question 81

GR: Occurence of post-extrasystolic potentiation

Answer 81

Because of long diastolic period and increased ventricular filling

Question 82

GR: SAN rhythm is reset in PAN but not PVN

Answer 82

In PAN, because the ectopic focus in the atrium can depolarize the SAN itself, suppressing SAN rhythm.
In PVN, the ectopic focus in the ventricle cannot depolarize the SAN, as there is no retrograde conduction

Question 83

Compensatory pause in PVN is ……, while in PAN it is …..

Answer 83

Complete

Inomplete

Question 84

Mention causes & ECG picture of sinus bradycardia

Answer 84

C: increased vagal tone, regulation of high BP, hypothyroidism & BB
ECG: Dec HR, prolonged RR, Normal P & QRS waves

Question 85

Mention characteristics of paroxysmal atrial tachy.

Answer 85

Atrial & vent rate = 140-220 bpm, atrial pumping is efficient
ECG: abnormal or inverted P wave, normal QRS & T wave