ECG

Question 1

Name X indications for ECG analysis

Answer 1

1. evaluation of arrhythmias + HR abnormalities
2. history of syncope or weakness
3. cardiac monitoring (GA/ICU)
4. Electrolyte abnormalities

Question 2

How does an ECG work?

Answer 2

The heart generates an electrical field during depolarization and repolarization of the myocardium that can be detected by a surface ECG. The ECG records the sum of all the elctrical impulses generated by the individual myocates during heart cardiac cycle. These impulses are then plotted over time.

Question 3

What represents a positive deflection in ECG?

Answer 3

The sum of the heart’s electrical impulses was moving toward the positive electrode

Question 4

What represents a negative deflection in ECG?

Answer 4

The sum of the heart’s electrical impulses was moving away from the positive electrode

Question 5

What happens to impulses that are traveling perpendicular to the electrode?

Answer 5

Do not cause a deflection in the tracing

Question 6

What are the standard leads used in veterinary medicine?

Answer 6

Biploar: lead I, II and III - record electrical activity between two limb electrodes
unipolar: augmented leads aVR, aVL, aVF - electrical activitiy between electrode and common terminal

Question 7

In which lead should measurements be done?

Answer 7

lead II

Question 8

Explain the leads I, II and III?

Answer 8

lead I: R amr to L arm
lead II: R arm to L hind
lead III: L arm to L hind

Question 9

Explain the leads aVR, aVL and aVF

Answer 9

aVR: R arm to common terminal
aVL: L arm to common terminal
aVF: L hind to common terminal

Question 10

Explain the ECG tracing

Answer 10

• P wave = atrial depolarization
• PQ intercal = beginning of P wave to start of QRS = time it took to travel from SN to ventricular myocardium (via AV node)
• QRS = ventricular deplolarization
  *T wave = ventricular repolarization
  QT interval = start of QRS to end of T-wave –> time required for ventricular deploarization and reploarization

Question 11

Discuss normal canine and felines lead II ECG values

Answer 11

Question 12

What ECG tracing is often altered in electrolyte abnormalities?

Answer 12

QT interval

BUT also strongly affected by HR

Question 13

How much RR variation can you usually have in a regular rhythm?

Answer 13

<10%

Question 14

How can you determine the mean electrical axis (MEA) when using the isoelectric lead method?

Answer 14

1. identify the iso-electric lead:
   –> This is the lead where the QRS complex is neither strongly positive nor strongly negative (as if they cancel eachother out)
2. find the perpendicular leads
3. Check the polarity of the perpendicular lead –> If aVF is positive (R wave is up) –> heart’s electrical signal is moving towards the positive pole of aVF –> MEA is +90°

Question 15

What are the two methods for determining mean electrical axis (MEA)?

Answer 15

1. isoelectric lead method
   2 pie method

Question 16

What is the mean electrical axis?

Answer 16

= average of all the instatntaneous mean electrical vectors occuring sequentially during depolarization od the ventricles.

It normally points towards the caudal half of the body in the dog

Question 17

What is a normal MEA in a dog and a cat?

Answer 17

dog: +40 to +100
cat: 0 to +160

Question 18

How can you determine the mean electrical axis (MEA) when using the pie method?

Answer 18

Think of the heart’s electrical field as a pie divided into 4 slices, based on the polarity (positive or negative) of those 2 leads.

–> Look at the QRS polarity in:

Lead I: -
Lead aVF: -

Question 19

Name 5 common causes of a right axis deviation?

Answer 19

–> Right ventricular hypertrophy

1. Pulmonic stenosis
2. Tetralogy of Fallot
3. Pulmonary hypertension
4. Tricuspid valve dysplasia
5. RBBB (cardiomyopathy, myocarditis, hyperkalemia, neoplasia)

Question 20

Name 5 common causes of a lieft axis deviation?

Answer 20

1. Partial left BBB
2. left anterior fascicular block
3. Cardiomyopathy
4. Hyperthyroidism
5. Hyperkalemia

Question 21

What makes Magnesium unique regarding its confirmation?

Answer 21

has a double shell of hydrating water molecules that require a large amount of free energy to be shed –> Magnesium must shed this shell before entering divalent cation channel

–> acts as endogenous calcium channel blocker

Question 22

Which electrolyte can act as an endogenous calcium channel blocker and why?

Answer 22

Magenesium:

has a double shell of hydrating water molecules that require a large amount of free energy to be shed –> Magnesium must shed this shell before entering divalent cation channel

Question 23

How does progressive hyperkalemia affect the ECG tracing?

Answer 23

Question 24

What electrophysiological changes occur in hyperkalemia?

Answer 24

Decreases resting membrane potential and moves it closer to threshhold potential –> cell is easier to excite

BUT: it also reduces the number of Na+ channels available for activation –> less excitable

Question 25

What electrophysiological changes occur in hypokalemia?

Answer 25

makes resting membrane potential more negative --> greater distance between resting and threshhold potential --> less excitable BUT: all Na+ channels are able to be activated, if an action potential develops

Question 26

What are common ECG changes seen in hypokalemia and hypomagnesemia?

Answer 26

* QT prolongation * reduced T wave amplitude * ST depression * bradyarrhythmias * tachyarrhythmias

Question 27

What is the electrophysiological effect of hypercalcaemia and therefore its main ECG change?

Answer 27

--> shortens action potential * mainly via QT interval shortening * arrhythmias secondary to Ca2+ overload

Question 28

What are two ECG changes that can be seen with hypocalcaemia?

Answer 28

* QT prolongation * nonspecific changes in the T-wave shape

Question 29

What ECG change can be seen in hypermagnesemia?

Answer 29

PR Inteval prolongation

Question 30

What ECG changes may be appreciated in hypoxaemia?

Answer 30

* ST depression or elevation * large T-wave

Question 31

Name 2 reasons for dampening of the ECG waveform

Answer 31

1. Pleural effusion 2. Pericardial effusion