Midterm

Question 1

What type of dysrhythmia speeds up and slows down in a cyclic manner that usually corresponds with the respiratory cycle?

Answer 1

Sinus dysrhythmia

HR increases during inspiration and decreases during expiration

Question 2

What is it called when 1-2 beats are dropped?

Answer 2

Sinus pause

Question 3

What is it called when 3+ beats are dropped?

Answer 3

Sinus arrest

Question 4

What type of dysrhythmia has P waves that continuously change in appearance, with a normal HR?

Answer 4

Wandering Atrial Pacemaker

Question 5

What type of dysrhythmia has a single differing P wave followed by a non-compensatory pause?

Answer 5

Premature Atrial Complexes

Question 6

What is it called when there are less than two full R-R intervals between the R wave of the normal beat which precedes the PAC and the R waves of the first normal beat which follows it?

Answer 6

Non-compensatory pause

Question 7

What is it called when a PAC occurs every other beat?

Answer 7

Bigeminal

Question 8

What is it called when a PAC occurs after two normal beats?

Answer 8

Tigeminal

Question 9

What is it called when a PAC occurs after three normal beats?

Answer 9

Quadrigeminal

Question 10

What type of dysrhythmia has a HR of 150-250bpm with P waves that may be hidden in the preceding T wave?

Answer 10

Atrial tachycardia

Question 11

What type of dysrhythmia has a HR of 120-150bpm and P waves continuously change in appearance?

Answer 11

Multifocal atrial tachycardia (MAT)

Question 12

What type of dysrhythmia arises from above the ventricles, but cannot be definitively identified as atrial tachycardia because the P waves cannot be seen sufficiently?

Answer 12

Supraventricular tachycardia SVT

Question 13

What type of dysrhythmia has a HR of 250-350bpm with absent P waves and saw-tooth flutter waves (F waves)

Answer 13

Atrial flutter

Question 14

What type of dysrhythmia has a HR of >350 bpm, with a rhythm is irregularly irregular, absent P waves, chaotic-looking baseline of fibrillatory waves (f waves)?

Answer 14

Atrial fibrillation

Question 15

What type of dysrhythmia has a single inverted P wave, followed by a non-compensatory pause?

Answer 15

Premature Junctional Complexes (PJC)

Question 16

What type of dysrhythmia has a HR of 40-60bpm, regular rhythm and inverted P waves?

Answer 16

Junctional Escape Rhythm

Question 17

What type of dysrhythmia has a HR of 60-110bpm, regular rhythm and inverted P waves?

Answer 17

Accelerated Junctional Rhythm

Question 18

What type of dysrhythmia has a HR of 100-180bpm, regular rhythm and inverted P waves?

Answer 18

Junctional Tachycardia

Question 19

What type of dysrhythmia has QRS complexes that are wide and bizarre, T waves go in opposite direction of the R wave, followed by a compensatory pause?

Answer 19

Premature Ventricular Complexes (PVC)

Question 20

What is a pause following a premature complex that allows the original rhythm to begin at its normal rate?

Answer 20

Compensatory pause

Question 21

What is it called when the PVCs look the same?

Answer 21

Unifocal

Question 22

What is it called when the PVCs look different from each other?

Answer 22

Multifocal

Question 23

What is it called when there are 2 PVCs in a row?

Answer 23

Couplet

Question 24

What is it called when PVCs fall between 2 regular complexes and do not disrupt the normal cardiac cycles (no compensatory pause)?

Answer 24

Interpolated PVCs

Question 25

What is it called when PVC occurs on/near the previous T wave?

Answer 25

R-on-T PVC

Question 26

What type of dysrhythmia has a HR of 20-40bpm with QRS complexes that are wide and bizarre, and T waves go in opposite direction of R wave?

Answer 26

Idioventricular rhythm

Question 27

What type of dysrhythmia has a HR of 40-100bpm with QRS complexes that are wide and bizarre, and T waves go in opposite direction of R wave?

Answer 27

Accelerated Idioventricular Rhythm

Question 28

What type of dysrhythmia has a HR of 100-250bpm with QRS complexes that are wide and bizarre, and T waves go in opposite direction of R wave?

Answer 28

Ventricular Tachycardia (VT)

Question 29

What type of dysrhythmia is a unique variant of polymorphic ventricular tachycardia?

Answer 29

Torsades de Pointes (TdP)

Question 30

What type of dysrhythmia has a HR of 300-500bpm with a totally chaotic rhythm, that appears as a wavy line? No discernible P waves, QRS complexes, or PR intervals?

Answer 30

Ventricular Fibrillation (VF)

Question 31

What type of dysrhythmia appears as a flat line?

Answer 31

Asystole

Question 32

What type of condition has an organized electrical rhythm on the EKG monitor (which should produce a pulse), but pt is pulseless and apneic?

Answer 32

Pulseless Electrical Activity

Question 33

What type of dysrhythmia has PR intervals longer than 0.20s and constant?

Answer 33

1st degree AV Block

Question 34

What type of dysrhythmia has PR intervals that progressively increase until a QRS complex is dropped?

Answer 34

2nd degree AV Block Type I

Wenckebach/Mobitiz I

Question 35

What type of dysrhythmia has PR intervals that are prolonged and constant with intermittent P waves that are not followed by a QRS complex?

Answer 35

2nd degree AV Block Type II

Mobitiz II

Question 36

What type of dysrhythmia has no association between the P waves and QRS complexes

Answer 36

3rd degree AV Block

Question 37

What is the best way to approximate the mean axis?

Answer 37

Looking at the QRS complexes in Leads I and aVF

Question 38

What is a normal axis?

Answer 38

Positive QRS complexes in leads I and aVF

Between 0-90+

Question 39

What type of mean QRS axis is between 0 and -90 (pointing towards left shoulder)?

Answer 39

Left Axis Deviation

Question 40

What type of mean QRS axis is between +90 and +180 (pointing toward right foot)?

Answer 40

Right Axis Deviation

Question 41

What is the equiphasic method to determine the QRS axis?

Answer 41

Find a lead with an equiphasic QRS complex, the axis will be perpendicular to that lead
Equiphasic: positive component = negative component

Question 42

What indicates a strong LAD?

Answer 42

R wave in aVL > R wave in Lead I

Question 43

What indicates a strong RAD?

Answer 43

R wave in Lead III > R wave in aVF

Question 44

What type of individuals may have a more “vertical” heart, with a shift in the QRS axis toward +90?

Answer 44

Tall, thin (vertical heart)

Question 45

What type of individuals may have have a more horizontal heart with the mean QRS axis shifting more leftwards?

Answer 45

Obese or pregnant (horizontal heart)

Question 46

What is the best way to assess for ventricular hypertrophy?

Answer 46

Look at QRS complexes in leads V1/2 and V5/6

Question 47

What is the criteria for RVH?

Answer 47

Right axis deviation (>+90) OR
R > S wave in V1 OR
S > R wave in V6

Question 48

What is the criteria for LVH?

Answer 48

S in V1/V2 + R in V5/V6 > 35 mm OR
R in aVL > 11mm OR
R in Lead I + S in Lead III > 25 mm

Question 49

What is the best way to assess for atrial enlargement?

Answer 49

Look at P waves in leads II and V1

Question 50

What is the criteria for RAE?

Answer 50

P wave amplitude > 2.5 mm in Lead II (2 1/2 blocks) = P pulmonale
Or biphasic P wave in V1 with initial > terminal portion

Question 51

What is the criteria for LAE?

Answer 51

P wave duration > 0.10s in Lead II (2 1/2 blocks) = P mitrale
Or if the terminal portion of the P wave in V1 is negative with a
-Duration of ≥ 0.04s (1 small block) AND
-Depth of ≥ 1 mm (1 small block)

Question 52

What indicates bilateral atrial enlargement?

Answer 52

Increased amplitude and duration of P wave