Chapter 10: Miscellaneous

Question 1

What 3 important life-threatening syndromes can be detected from the EKG in relatively asymptomatic patients?

Answer 1

Brugada Syndrome
Wellens Syndrome
Long QT Syndrome
(p. 310)

Question 2

What are the key EKG features of Brugada syndrome?

Answer 2

RBBB with ST elevation in V1, V2, and V3

p. 310

Question 3

What are the key EKG features of Wellens syndrome and what do they suggest?

Answer 3

Marked T wave inversion in V2 and V3, suggest [left] anterior descending coronary stenosis
(p. 310)

Question 4

What are the key EKG features of Long QT Syndrome? Implications?

Answer 4

QT interval longer than 1/2 of the cardiac cycle; this predisposes the patient to ventricular arrhythmias
(p. 310)

Question 5

What treatment is indicated for Brugada Syndrome?

Answer 5

a pacer (AICD)
(p. 310)

Question 6

What treatment is indicated for Wellens syndrome?

Answer 6

angioplasty with stenting, or CABG

p. 310

Question 7

How many forms of (hereditary) Long QT Syndrome are there?

Answer 7

6

p. 310

Question 8

On EKG, COPD often produces…

What other conditions appear with the first feature?

Answer 8

…low voltage amplitude in all leads, and there is usually right axis deviation. Multifocal atrial tachycardia is also seen with COPD.

Low voltage in all leads appears in hypothyroidism and chronic constrictive pericarditis.
(p. 311)

Question 9

With COPD, the right ventricle works against considerable __________, so there is usually some degree of _____ ___________ ___________ and therefore, associated _____ axis deviation. The example shows negative QRS’s in lead I.

Answer 9

resistance
right ventricular hypertrophy
right
(p. 311)

Question 10

With pulmonary embolus, we usually see…

Answer 10

…a large S wave in lead I, ST depression in lead II, and a Q wave with inverted T wave in lead III. Remember: S1, Q3, T3

Pulmonary embolus also causes T wave inversion in V1 - V4, and frequently a RBBB.
(p. 312-313)

Question 11

S1Q3T3 syndrome characterizes acute ___ _________ resulting from pulmonary embolus.

Answer 11

cor pulmonale

p. 312

Question 12

Pulmonary embolus typically has a tendency toward…

Answer 12

…right axis deviation.

p. 312

Question 13

With elevated serum potassium, the P wave ________ ____, the QRS complex ______, and the T wave becomes ______.

Answer 13

flattens down, widens, peaked

p. 314

Question 14

In hyperkalemia, the P wave widens and flattens, and with extreme hyperkalemia, the P wave ______ __________.

Answer 14

nearly disappears.

p. 314

Question 15

The QRS in hyperkalemia widens because…

Answer 15

…ventricular depolarization takes longer.

p. 314

Question 16

In HYPOkalemia, the T wave becomes ____ or ________ and a _ ____ appears.

Answer 16

flat, inverted, U wave

p. 315

Question 17

The U wave in hypokalemia becomes more…

Answer 17

…pronounced as the loss of K becomes more severe.

p. 315

Question 18

Hypokalemia makes ventricular foci…

…and enhances the toxic effects of…

Answer 18

…extremely irritable,

…digitalis excess.
p. 315

Question 19

Hypercalcemia ________ the QT interval, and hypocalcemia _______ it.

Answer 19

shortens
prolongs
(p. 316)

Question 20

The reason you see a shorter QT interval in hypercalcemia is…

Answer 20

…because more calcium accelerates both ventricular depolarization and ventricular repolarization.
(p. 316)

Question 21

Digitalis excess causes changes to the ST segment to give it the appearance of…

Answer 21

…Salvador Dali’s mustache.

p. 317

Question 22

Digitalis produces a unique…

To best see this effect, look in lead that has…

Answer 22

…gradual, downward curving ST depression.

…no demonstrable S wave.
p. 317

Question 23

Digitalis in therapeutic doses has a _______________ effect. With a sinus rhythm, it slows conduction, inhibits the AV Node’s receptiveness to multiple stimuli, and causes a more efficient ___________ ________.

Answer 23

parasympathetic
ventricular response.
(p. 317)

Question 24

What type of foci are exceptionally sensitive to digitalis?

As a result, _________ ______ _____ are often the earliest warning sign that the digitalis level is elevated.

Answer 24

supraventricular foci, particularly atrial
premature atrial beats
(p. 318)

Question 25

The 4 common EKG changes seen with excess digitalis are…

Answer 25

...atrial and junctional premature beats
PAT with block
sinus block
AV blocks
(p. 318)

Question 26

Digitalis excess that continues to the point of toxicity can cause…

Answer 26

…tachy-arrhythmias and ventricular irritability.

p. 319

Question 27

Quinidine causes widening of the _ ____ and it is often _______, and widening of the ___. There is often __ __________ with a _________ __. _ _____ may appear as well.

Answer 27

P wave, notched, QRS
ST depression, prolonged QT
U waves
(p. 320)

Question 28

Most of the effects of quinidine that we see on EKG relate to its pharmacological effects on…

Answer 28

…sodium and potassium ion channels.

p. 320

Question 29

Since quinidine can prolong the QT interval, worst case scenario would be…

Answer 29

…Torsades de pointes.

p. 320

Question 30

In most cases of artificial pacemakers, the electrode lead wire is passed…

OR, sometimes the stimulating electrode is surgically attached to…

Answer 30

…transvenously into the right side of the heart…

epicardial surface of the heart.
p. 321

Question 31

A demand pacer is programmed to be _________-__________ by normal sinus pacing.

Answer 31

overdrive-suppressed

p. 322

Question 32

The ideal location of the tip electrode of a R ventricular pacemaker, is in the…

The resultant QRS complex has a…

Answer 32

…apex of the right ventricle.

…LBBB pattern with left axis deviation.
p. 324

Question 33

The 3 possible pacemaker electrode positions in the right ventricle and their axes…

Answer 33

1. ) below the pulmonic valve (right axis deviation)
2. ) mid inflow tract (normal axis)
3. ) right ventricular apex (left axis deviation)
   (p. 324)

Question 34

A heart transplant procedures leaves portions of the recipient patient’s “native” _____ in place.

Answer 34

atria

p. 327

Question 35

Name the 4 classes of Antiarrhythmics according to the Vaughn Williams Classification System.

Answer 35

Class Ia, Ib, and Ic are all sodium channel blockers.

Class II is the beta-adrenergic blockers

Class III are the potassium channel blockers

Class IV are calcium channel blockers

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 36

Tricky one… which class of antiarrhythmics does sotalol belong to?

Answer 36

Barkley and Myers books says Class III, but it also has class II properties according to drugs.com

Question 37

What are the common Class I drugs?

Answer 37

Ia: procainamide, quinidine
Ib: lidocaine
Ic: flecainide, propafenone (Rhythmol)

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 38

What are the common Class II drugs?

Answer 38

metoprolol, propranolol, esmolol, all the -lol’s

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 39

What are the common Class III drugs?

Answer 39

amiodarone, sotalol, dofetilide (Tikosyn), dronedarone (Multaq)
[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 40

What are the common Class IV drugs?

Answer 40

diltiazem (Cardizem), verapamil

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 41

Which classes of antiarrhythmics can cause QT prolongation?

Answer 41

Ia, Ic, and III
They all delay repolarization… ST to T wave
[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 42

T waves normally measure < _____ tall in limb leads, and < ____ tall in precordial leads.

Answer 42

6 mm
12 mm
[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 43

Which leads NORMALLY have negative T waves?

Answer 43

AVR

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 44

What is the normal QTc?

Answer 44

< 0.42 sec

Question 45

Which leads would show that a RBBB is present, and what would you see?

Answer 45

QRS > or = to 0.12
R,R’ in V1 and/or V2, slurred S wave in I & V6
[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 46

If you see a Q,R’ in V1, this is indicative of…

Answer 46

…an old or new anteroseptal infarct in a patient with a RBBB. They need a heart cath!
[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]

Question 47

Which leads would show that a LBBB is present, and what would they show?

Answer 47

QRS > or = to 0.12
Broad monomorphic R wave in I & V6 that are either both positive or both negative.
Broad monomorphic S wave in V1
May also see R, R’ in V5 or V6

[Powerpoint presentation by Dr. Miller, “Demystifying the 12 Lead EKG”]