interpretation of ECG

Question 1

what are 5 things to consider when looking at an ECG recording

Answer 1

1. is the ECG of good quality such that you can use it to make a diagnosis (artifact?)
2. what is the rate and rhythm
3. are the QRS-t complexes normal(ish) or wide and bizarre
4. is ther chamber enlargement or hypertrophy
5. electircal axis

Question 2

what type of artefact is this?

Answer 2

electromagentic interference caused by interferences of other electrical devices.
- remove or turn off electrical devices in the environment

Question 3

what kind of artefact is this

Answer 3

wandering baseline –> loose electrode or pood skin preparation or patient moving

Question 4

what is rate

Answer 4

how often the le impulses go through the heart

Question 5

what is rhythm

Answer 5

the pattern of the electrical impulses travel across the heart

Question 6

what artefacts are present? calculate the heart rat. is the rhytm regular or irregular

Answer 6

artefact: wandering baseline

Question 7

calculate the rate. is the rhythm regular or irregular

Answer 7

rate: 1500 x13 = 115 bpm
rhythm = regular

Question 8

what questions should you ask yourself when interpreting rhythm

Answer 8

• is it regular or irregular
• if its irregular is it irregularly irregular or regularly irregular
• is there a P for every QRS
• is there a QRS for every P
• are there Ps and the QRSs consistently and similarly related
• are all the Ps alike
• are all the QRSs alike
• are the QRSs narrow and upright in leads 2/3/avf
• are the QRSs wide and bizarre

Question 9

describe normal sinus rhythm

Answer 9

• normal impulse originates in the SA node
• The SA node has an inherent pacemaker rate of 70-160 bpm in the dog and 160-240 bpm in the cat
• P waves are usually positive in lead 2
• the PR interval is usually consistent from beat to beat
• the QRS complex is usually “normal”
• the rhythm may be regular or irregular

Question 10

describe sinus arrythmia

Answer 10

• as normal sinus rhythm except greater variation in P-P or R-R interval
• then rhythm is irregular but regularly so
• if related to the respiratory cycle = respiratory sinus arrhythmia (normal in the dog, abnormal in the cat) mediated by fluctuations in vagal tone, abolished by giving atropine, accentuated by vagal manoeuvres

Question 11

what is bradydysrhythmia

Answer 11

heart rate lower than normal

Question 12

what is sinus arrest

Answer 12

• failure of pacemaker to discharge
• pause with no P-QRS-T complex
• heart does not stop!
• next fastest pacemaker takes over

Question 13

what is persistent atrial standstill

Answer 13

• a type of bradydysrhythmia
• there is a complete absence of P waves
• next fastest pacemaker takes over
• the heart rate is usually slow but regular
• QRST - normal - junctional escape rhythm

Question 14

what is a first degree AV block

Answer 14

• a type of bradydysrhythmia
• P wave and QRS complex are normal
• the P-R interval is prolonged

Question 15

what is a second degree AV block

Answer 15

• a type of bradydyrythmia
• P wave not conducted through the AV node = p without QRS

Question 16

what is a complete (third) AV block

Answer 16

• a type of bradydysrhythmia
• persistent failure of conduction through AV node
• ventricles usually paced (depolarisation originating) from ventricular focus
• wide, bizarre escape complexes at approx 30-40 min (dog)

Question 17

what is tachydysrhythmia

Answer 17

• heart rate is higher than “normal”
• ectopic activity
• key part of interpretation is to establish origin of abnormal activity

Question 18

what is seen in supraventricular prematuer complexes

Answer 18

• premature P wave (P’ wave) interrupts normal P wave rhythm
• P’ wave is early I compared with a normal p-p interval)
• P’ wave configuration differs from the normal P waves
• QRST usually normal

Question 19

describe what happes in a normal ECG wave at each point

Answer 19

Question 20

what is seen in supraventricular tachycardia

Answer 20

• runs of more than three consecutive supraventricular premature complexes
• heart rate during tachycardia is greater than upper normal limit
• rhythm during tachycardia is usually regular
• site of origin is within atria/junction outside of SA node
• P’ waves differ from the “normal” sinus P wave (if availible)
• maybe sustained (>30s) or non-sustained (paroxysmal, <30s)
• P’-P’ interval is normally regular
• P’-R interval is normally constant IF every P’ wave is conducted
• QRS is usually “normal” - narrow and upright in lead 2

Question 21

describe what occurs in atrial fibrillation

Answer 21

• heart rate may or may not be within normal limits
• rhythm is irregularly irregular (very obvious on auscultation)
• no isoelectircal baseline
• No P waves
• irregular, variable amplitude fibrillation waves may be evident
• QRS complex is usually “normal” - narrow, upright in lead 2
• usually sustained, maybe non-sustained (paroxysmal)

Question 22

what happens during ventricular premature complexes

Answer 22

• AKA ventricular ectopics
• site of origin is within ventricles
• rhythm is irregular
• wide and bizarre QRST complex interrupts rhythm
• spread through myocardium, NOT conducting tissue
• usually the underlying NSR is undisturbed
• VPC QRST unrelated to P waves
• VPS QRST complex voltage is usually large

Question 23

What is bundle branch block wide and bizarre complex

Answer 23

passive spread, conducting system damaged

Question 24

describe ventricular tachycardia

Answer 24

• a run of 3 or more ventricular premature complexes
• rhythm usually regular during tachycardia
• rate low but > intrinsic rate of the ventricles (>40 bpm in the dog, >60 bpm in the cat)
• may be sustained or not sustained

SA node still firing

Question 25

describe ventricular fibrillation

Answer 25

• usually terminal
• rhythm associated with cardiopulmonary arrest
• heart rate rapid and irregular
• no isoelectric baseline
• ECG is irregular and chaotic
• no recognisable PQRST complexes
• course or fine depending on the degree of baseline oscillation