ECG

Question 1

Limb lead reversal

Answer 1

negative p-wave, qrs and twave in lead 1

Question 2

Low voltage

Answer 2

def
<5mm Limb leads
<10mm in ALL precordial leads

Question 3

Hypocalcemia

Answer 3

prolonged QT

because of lengthened flat ST segment without change in duration or morphology of T wave

Question 4

Prolonged QT

Answer 4

> 1/2 RR interval

not reliable with tachycardia (>100bpm)

Question 5

Aflutter with pause

Answer 5

can see aflutter which spontaneously breaks -> sinus pause and suddenly a junctiona escape beat followed by sinus node recover (ie sinus bradycardia etc) - sinus node dysfunction has prolonged sinus node recovery time

Question 6

Digitalis toxicity

Answer 6

Regularized afib
aflutter with 3rd deg AVB and junctional tachycardia
prominent U-waves

Question 7

Junctional rhythm

Answer 7

40-60bpm

Question 8

Jnc Tach

Answer 8

> 60bpm

more likely to occur with inferior MI

Question 9

Normally conducted beat after paced beat

Answer 9

can have twave inversion and not sensitive for ischemia so do not code ischemia changes

Question 10

Failure to sense

Answer 10

look for premature v-pace beat (

Question 11

T wave memory

Answer 11

T wave changes looking like ischemia persist for several days after patietn returns to normal AV conduction and v activation after prolonged 100% pacing time (or after WPW with pathway ablation now conducting through normal AV conduction system

Question 12

RVH with pulm HTN/PE

Answer 12

Tall R wave V1

Question 13

Acute PE

Answer 13

S wave in I (RAD from LPFB)
Q wave III
inverted T in III

Question 14

Accessory pathway localization

Answer 14

Step 1: QRS Transition
-R/S transition before V1 (Tall R wave V1)/RBBB pattern = left sided pathway
-later than V2 (>V2) S wave in V1, LBBB = right sided pathway
-Transition V1-V2=septal
Step 2: Delta wave polarity
-positive in 2/3 leads = anterior
-negative in 2/3 lead= posterior/inferior

Question 15

Brugada pattern

Answer 15

h/o syncope
Type I pattern (dx of brugada): J-point elevation >2mm with COVED donwloping ST segments
Type 2: J-point nelevation >2mm and saddleback shaped ST segment elevation >1mm
SCN5A
a/w threating VT arrythmias and SCD
Resemble RBBB but lacks QRS morphology c/w RBBB in other leads ie wide slurred S waves in I and V6

Question 16

Electrical alternans in patient with cancer

Answer 16

code electrical alternans
pericardial effusion,
SR

Question 17

LPFB

Answer 17

RAD
small r wave in I, aVL
small q in lead III

Question 18

RBBB

Answer 18

QRS>120ms
rsR’ complex V1
wide slurred S waves I, V6

Question 19

RBBB

Answer 19

QRS>120ms
rsR’ complex V1
wide slurred S waves I, V6
T wave inversion opposite to terminal deflection of QRS in V1, V2 - not case with V3-6 - suggests ischemia
does not interfere with ECG dx LVH or Q wave MI

Question 20

LBBB

Answer 20

QRS >120ms
V1 - rS (tiny R, big S - wide) with ST elev and discordant twave ie upright while S is down)
or deep QS (no r)
R waves in lateral leads (I, V5,6) M shaped, notched, monophasic or RS)

Question 21

Dextrocardia vs limb lead reversal

Answer 21

Limb lead reversal - normal R-wave progression
Dextrocardia - REVERSE R wave pgoression (starts out big)
DO NOT CODE AXIS

Question 22

Dextrocardia vs limb lead reversal

Answer 22

Limb lead reversal - normal R-wave progression
DO NOT CODE AXIS - technical error with lead placement

Dextrocardia - REVERSE R wave pgoression (starts out big gets smaller)
DO CODE RAD…neg qrs I, postiive in aVF

Question 23

R&L Arm lead reversal

Answer 23

transposition of leads II, III

Transposition of leads avR and avL

Question 24

Precordial lead reversal

Answer 24

Unexplained decrease in R wave voltage in 2 consecutuive leads (ie V1, V2) with return to normal progression in following leads (V3-6)

Question 25

Mobitz I - wenkebach

Answer 25

PR interval immediatly before non-conducted P-wave is longer than PR interval immediately following non-conducted P-wave
at level of AV node - narrow QRS
Group beating -> RR interval constant, PR interval prolongs till drops a QRS then resets…

Question 26

Mobitz II

Answer 26

PR intervals constant with random drops of conduction
below level of node - wide QRS
LOOK FOR GROUPED BEATING…

Question 27

Posterior wall MI

Answer 27

horizontal or downsloping ST segemnt depression with upright T waves in V1-3 with or without prominent R wave in these same leads (with or without equivalent of Q waves for posterior wall)

Question 28

Digoxin toxicity

Answer 28

DO NOT CODE without

sagging ST depression with upward concavity -> digitalis effect

Question 29

Junctional rhythm/tach

Answer 29

regular R-R interval no p-waves, NARROW complex

more likely with inferior MI

Question 30

Prolonged QTc

Answer 30

> 470ms male
480ms female
Normal QT <1/2 preceeding R-R for HR 60-100 -
When measuring use lead with longest QT

Question 31

WPW

Answer 31

if v-rate >200, QRS >120ms

Question 32

Posterior MI

Answer 32

can’t be coded with RBBB

Question 33

LAD

Answer 33

can’t be coded with Q wave MI (inferior?)

Question 34

SVT

Answer 34

r’ at end of QRS complex = retrograde atrial depolarization -> best seen in V1

Question 35

Acute cor pulmonale

Answer 35

needs sinus tach/afib - ie change in rhythm AND

right ventricular strain ie T wave inversions V1-3, ST dep

Question 36

RAE

Answer 36

Upright 2 wave >2mm in leads II, III and aVF or >1.5mm V1,V2, RAD

Question 37

LAE

Answer 37

notched p-wave duration >120ms

Terminal portion of p-wave in V1 >1mm deep >0.04s (1 box) duration

Question 38

LAD

Answer 38

positive in I, neg in aVF

Question 39

RAD

Answer 39

negative I, positive in aVF

Question 40

RVH

Answer 40

RAD
Dom R wave V1 >7mm
R V1 +S V5/6 >10.5
rSR' V1 R'>10mm
Secondary downsloping ST dep and T wave inversion in RIGHT precordial leads
right atrial abnormality (RAE)
R/S ratio in V1 or V3r >1
or R/S in v5/6 <1

Question 41

Lateral MI

Answer 41

I, aVL

Question 42

Anterior/anteroseptal

Answer 42

V1, V2 AND V3

Question 43

ST changes of ischemia/injury

Answer 43

DO NOT CODE if other Q wave MI coded

Question 44

LAFB

Answer 44

LAD
qR I, avL
rS in II, III, aVF
QRS 80-110 ms
aVL R wave >45ms
avL R wave can be >11mm but no LV strain pattern so no LVH

Question 45

VPC

Answer 45

look for compensatory pause after

QRS initial direction DIFF from QRS during SR

Question 46

Sinus arrhythmia

Answer 46

PP intervals vary by >0.16 sec (4 small boxes)

Question 47

LVH

Answer 47

S V1 + R V5 >35
R wave aVL+ S wave V3 >28 M >20 F
S wave V1 or V2 > 30
R wave in V5 or V6>30
Max R wave + Swave in precordial leads >45

Question 48

Prominent U wave

Answer 48

check II, V5
>1.5mm
HYPOKALEMIA
LVH
CAD
Drugs

Question 49

WPW with afib

Answer 49

do not coce LVH, Q wave MI, ST-T chages, axis shift or IVCD

irregularity with delta wave

Question 50

Afib

Answer 50

atrial activity seen in right precordial/inferior leads

Question 51

WPW

Answer 51

think WPW if v rate >200/min and QRS > 120ms
initial slurring QRS
QRS>120ms
DO NOT CODE LVH/RVH
myocardial ischemia/infrction (if need to code non-specific ST changes)
PR<120
QRS >120
secondary ST chagnes opp direction of QRS
THINK WPW if afib/flutter is a/w QRS that is variabl ein width and rate >200

Question 52

Dextrocardia

Answer 52

neg P-QRS-T in I, avL, positive P-QRS-T in avR
BUT
Reverse precordial R wave progression -> gets smaller
CODE RAD

Question 53

Torsades

Answer 53

Find prolonged QT
Find QRS superimposed on T started NSVT (R on T)
V-rate 150-300 (200-280)
sinisoidal cycle of changing amplitude and polarity (twisting)
QRS morphology varies beat to beat

Question 54

Ashman’s Phenomenon

Answer 54

Single wide QRS beat with RBBB morphology occuring in afib after short RR preceeded by long RR -> beat encountered a bundle that wasn't repolarized (refractory) so Wide QRS
Afib
Aberrant conduction (Ashman's)
Aberrant conduction usually RBBB since RBB has longer refractory period than LBB

Question 55

Hyperkalemia

Answer 55

narrow based tall peaked T wave
QT shortening
>6.5 1st deg AVB
flat wide P wave, pwave dissappearance
ST dep
>7.5 - no p waves, LBBB/RBBB IVCD -> sinisoid (sinoventricular conduction)
VT/VF/IV rhythm, asystole

Question 56

Anterior or anteroseptal

Answer 56

V1-3

Question 57

Anterolat

Answer 57

V4-6

Question 58

Lateral

Answer 58

high lateral - I, aVL

Question 59

ST/T changes c/w myocardial ischemia

Answer 59

ST dep WITHOUT Q waves

Question 60

Anterior or anteroseptal

Answer 60

V1-3

Q in V1 makes it anteroseptal

Question 61

Q wave MI acute or recent

Answer 61

Q waves and ST elev or depression

Question 62

Lateral

Answer 62

high lateral - I, aVL

Q wave in JUST aVL does NOT qualify as lateral MI

Question 63

When coding acute Q wave MI or ST-t of Injury

Answer 63

DO NOT CODE ST/T wave of ischemia (don’t code for ST depressions if concurrent ST elev alone or ST elev and Q waves

Question 64

When coding acute Q wave MI or ST-t of Injury

Answer 64

DO NOT CODE ST/T wave of ischemia (don’t code for ST depressions if concurrent ST elev alone or ST elev and Q waves

Question 65

Acute cor pulmonale

NEED RV strain to code this!

Answer 65

RAD - down in I, up in aVF
RAE - P wave in III >2.5mm
RVH - tall dominant R wave in V1 (R>S, R wave >7mm), R wave in V1 + S wave in V5 or 6 >10.5
rSR’ in V1 with R’>10mm
Secondary downloping ST depression and twave inversion in right precordia leads
RAE
ST/T changes of RVH -
RV Strain ST seg depression V1-3,
borderline LAE
S1Q3T3 (deep prom Swave in I, W wave in III, Twave inversion or lfat in III

Question 66

Acute cor pulmonale

NEED RV strain to code this!

Answer 66

RAD - down in I, up in aVF
RAE - P wave in III >2.5mm
RVH - tall dominant R wave in V1 (R>S, R wave >7mm), R wave in V1 + S wave in V5 or 6 >10.5
rSR’ in V1 with R’>10mm
Secondary downloping ST depression and twave inversion in right precordia leads
RAE
ST/T changes of RVH -
RV Strain ST seg depression V1-3,
borderline LAE
S1Q3T3 (deep prom Swave in I, W wave in III, Twave inversion or lfat in III
Sinus tach, afib, aflutter, atach and first deg AVB

Question 67

PE vs IWMI

Answer 67

PE doesn’t have Q wave in II (just in III)

Question 68

Juvenile T waves

Answer 68

Younger women (healthy) <20yo
right precordial leads (V1-3)
relatively shallow

Question 69

Juvenile T waves

Answer 69

Younger women (healthy) <20yo
right precordial leads (V1-3)
relatively shallow

Question 70

Failure to sense

Answer 70

pacemaker spike FOLLOWING QRS complexes (or on Twaves that are premature relaive to V-V interval (ie interval between first and 2nd PPM spike)

Question 71

Failure to capture

Answer 71

pacemaker spike not followed by QRS complex

Question 72

Ventricular escape rhythm

Answer 72

QRS>120ms
DO NOT CODE RBBB - RBBB pattern is due to abnormal ventricular activation from ventricular escape rhythm not ture BBB due to IV conduction abnormality
20-50bpm
QRS similar to VPCs

Question 73

CHB

Answer 73

SR and ventricular escape independent of one another (Sinus rate > V-escape rate)
PR interval varies
PP and RR intervals are CONSTANT
Atrial rate > ventricular rate

Question 74

CHB

Answer 74

SR and ventricular escape independent of one another (Sinus rate > V-escape rate)
PR interval varies
PP and RR intervals are CONSTANT
Atrial rate > ventricular rate
DO NOT ALSO CODE AV DISSOCIATION if CHB coded
CHeck for 2:1 AVB…

Question 75

CHB with AWMI

Answer 75

block due to extensive damage to LV - usually preceeded by mobitz II or bifascibular block - high mortality

Question 76

Dig toxicity

Answer 76

reversible CHB - usually associated with acceleratd JNC rhythm

Question 77

RBBB

Answer 77

QRS>120ms
rsR' V1
wide slurred S waves in I, V6
DO NOT CODE RAD with RBBB
DO NOT CODE RVH with RBBB

Question 78

LPFB

Answer 78

RAD (down in I, up in avF)
small r in I, aVL
q in III
DO NOT CODE RAD with LPFB

Question 79

LPFB

Answer 79

RAD (down in I, up in avF)
small r in I, aVL
q in III
DO NOT CODE RAD with LPFB

Question 80

LBBB

Answer 80

QRS>120
QS V1 (spear down)
broad monophasic R in I, V5, V6 (spear up)
rS or QS in right precordial leads
DO NOT CODE LAD with LBBB
interferes with dx of LVH/RVH, myocardial sichemia, Q wave MI

Mean QRS duration greater than or equal to 120 ms in adults,greater than 100 ms in children 4 to 16 years of age, andgreater than 90 ms in children less than 4 years of age
Late forces of QRS complex should be negative (i.e terminal S wave) in V1
Broad notched or slurred R wave in leads I, aVL, V5, and V6 and an occasional RS pattern in V5 and V6 attributed to displaced transition of QRS complex
Absent q waves in leads I, V5, and V6, but in the lead aVL,a narrow q wave may be present in the absence of myocardial pathology
Delayed onset of intrinsicoid deflection (> 60 ms from beginning of QRS complex to peak of R wave) in leads V5 and V6 but normal in leads V1, V2, and V3, when small initial r waves can be discerned in these leads.

Question 81

Aflutter

Answer 81

Saw tooth flutter waves best seen in II

artifact from tremor can look like flutter waves

Question 82

Scarbossa

Answer 82

ST elev >1mm in leads where QRS vector positive
>1mm ST dep in V1-3
>5mm elevation in leads where QRS vector negative

Question 83

Aflutter 1:1 conduction

Answer 83

conducts aberrantly - wide QRS can resemble VT

Question 84

VT

Answer 84

starts with VPC, gradually slowing of rate then termination

Question 85

SVT with LBBB aberrancy

Answer 85

starts wtih APC with long PR and narrow QRS

Question 86

Aritfact

Answer 86

ususally due to tremor
Parkinson’s tremmor simulates atrial flutter rate of 4-6/s
Skeletal muscle/physiolligc tremor 7-9/s
Rapid arm moviement (bushing teeth/hair - looks like VT

Question 87

RBBB

Answer 87

WRS >120
rsR’ V1
wide slurred S waves I, V6

Question 88

LAFB (total opposite of LPFB)

Answer 88

LAD (up in I, down in aVF)
Small q waves in I, aVL
Small r in III

Question 89

Mobitz I

Answer 89

PP interval constant, PR interval increases until a beat drops (and doesn’t conduct one QRS)
LOOK FOR GROUPED BEATING

Question 90

Mobitz II

Answer 90

PP interval constant, PR interval constant
LOOK FOR GROUPED BEATING - string of conducted QRS after constant P-P intervals then all of a sudden one QRS drops out (though P’s keep going)

Question 91

Group beating

Answer 91

Mobitz I
Mobitz II
frequent blocked APCs

Question 92

J-wave/osborn wave

Answer 92

left precordial leads
HYPOTHERMIA
extra postive deflection in terminal end of QRS
don’t code IVCD or LAE

Question 93

Biventricular hypertrophy

Answer 93

LVH S V1 + R V6>35
RVH R V1 + S in V5 or 6
Equiphasic large amplitude R & S waves in id precordial leads
R>Q wave in aVR and S wave >R wave in V5 and T wave insersion in V1

Question 94

VF

Answer 94

rapid chaotic irregular deflections of VARYING AMPLITUDE without distinct P waves, QRS complexes or T waves
SHOCK
Course VF - large amplitude fibillatory waves
Fine VF - small amplitude fibrillary waves

Question 95

Mobitz I vs II

Answer 95

compare PR interval immediately before and after blocked p wave - if there is a difference it is mobitz I - if same it is mobitz II

Question 96

LAFB

Answer 96

LAD
qR I, avL
rS in II, III, aVF
QRS 80-110 ms
aVL R wave >45ms
avL R wave can be >11mm but no LV strain pattern so no LVH

Question 97

LPFB

Answer 97

RAD (down in I, up in avF)
small r in I, aVL
small q in III
DO NOT CODE RAD with LPFB

Question 98

Atrial tachycardia

Answer 98

atrial rate >100
P waves that may precede, be buried wthin or follow QRS complex
P-wave morphology that is NON-sinus
(ie not upright in I&II, inverted in aVR)

Question 99

CNS bleed/event

Answer 99

Deep T wave inversions (or upright) across precordial leads
AND QT prolongation
AND VPCs

Question 100

Posterior MI

Answer 100

Dominent R wave with ST depression and twave inversion in V2/V3
DO NOT CODE RBBB in setting of posterior wall MI

Question 101

APC/tachycardia

Answer 101

Look for dominant p-waves - that is sinus rate - other morphologies are APCs
Only code RAE if on dominant p-waves ->APCs can show RAE but this is not reliable

Question 102

incomplete RBBB

Answer 102

rsR’ V1 with QRS 100ms…not >120

Question 103

Lateral

Answer 103

I, aVL

Question 104

Anterior/anteroseptal

Answer 104

V3-5

Question 105

Anterolateral

Answer 105

V4-5

Question 106

Failure to capture

Answer 106

DOESN’t COUNT if tries to pace on Twave in refractory period -> this is failure to sense ONLY not failure of pacing…

Question 107

ST/T myocardial ischemia

Answer 107

If see extensive ST depression and see a q-wave somewhere -> likely on one Q and then do not code MI -> just code ST/T myocardial ischemia ONLY

Question 108

VT

Answer 108

Concordance of QRS (all QRS deflections positive)
AV dissociation (ventric rate > atrial rate)
capture beats
fusion beats

Question 109

Aflutter

Answer 109

SVT that is regular with rate of 150 is aflutter with 2:1 AV block

Question 110

Flutter 1:1 conduction

Answer 110

conducts aberrantly - wide QRS complexes looking like VT

Question 111

Biventricular pacing

Answer 111

Diff than LBBB pacing seen with RV lead pacing
Q waves I, aVL
+R waves in V1-3

Question 112

Torasades

Answer 112

200-280bpm
DO NOT CODE if myocardial injury suspected (this is polymorphic VT not TdP)
QT interveal prolonged…

Question 113

Posterior MI (old)

Answer 113

In context of inferior or lateral MI

with dominant R wave in V1-3 (R wave > S wave) consider posterior infarct old…

Question 114

SVT

Answer 114

regular rhythm
Rate >100
QRS narrow
P waves SOMETIMES seen
If rate >150 consider aflutter with 2:1 block

Question 115

Hypercalcemia

Answer 115

Short QT secondary to short ST segment

Question 116

Early repolarization

Answer 116

Normal variant
Borderline normal/normal variant ECG
subtle notching of J-topoint (II, III, aVF, V2-6
tall upright twaves concave upward ST elev
no PR depression - sepearates from pericarditis

Question 117

HCM

Answer 117

LVH voltage
deeply inverted T waves in precordial leads
=apical HCM

Question 118

AV dissociation

Answer 118

similar sinus and ventricular rates with a slightly varying relationship between p wave and paced QRS complexes

Do not confuse with DDD where has a fixed AV interval (ie tracks atrial beats and if doesn’t conduct paces V)

Question 119

VVI vs DDD

Answer 119

VVI - varying AV interval

DDD - fixed AV interval

Question 120

VVI demand vs VOO asynchronous

Answer 120

VVI demand is INHIBITED by native ventricular beat
Asynchronous V-pace (VOO) does not sense any ventricular beats - just paces V at set rate…

Dx of VVI demand requires evidence of appropriate inhibition of PPM output in response to a native QRS

Question 121

acute RV infarct

Answer 121

ST elev in V1-3 in setting of acute inferior MI -> think RV infarction…

Question 122

Digitalis toxicity

Answer 122

Sinus pause/arrest
sagging salvidore ST seg depression
prominent U-wave
AV junctional rhythm or afib with CHB, pAF with block, SVT or VT with alternating BBB

Question 123

Sinus pause vs sinoatrial exit block

Answer 123

Resumption of sinus rhythm at PP interva that IS multiple of basic sinus PP interval = sinus pause
Sinus rhythm resumption at multiple of basic PP interval -> sinoatrial exit block

Question 124

Prominent U wave

Answer 124

presense of preceding isoelectric baseline

Question 125

QT interval

Answer 125

II, V5 best

Question 126

RVH

Answer 126

Tall dominant R waves in V1 (R>S R>7mm)
S/T wave changes c/w hypertrophy V1-3 -> elsewhere would be ischemia/injury
CAN CODE RAD
Don’t code Q wave MI - changes associated with thickening of septum from RVH NOT MI

Question 127

Sinus arrythmia

Answer 127

diff in PP intervals >0.16s (almost one big box)

Do not also code SR

Question 128

AIVR

Answer 128

regular ventricular rhythm similar to VPCs that occurs when ectopic ventricular pppm fires at 55-110 and exceeds sinus rate -> AV dissociation

Question 129

Tdp

Answer 129

R on T triggers rapid polymorphic tachycardia
twistin garound isoelectric baseline
prolonged QT (ventricle more suseptible to malignant ventr arrhythmias such as Tdp kicked off by critcally timed VPC on T wave
DO NOT CODE VT with TdP (implied)

Question 130

Heart block

Answer 130

Check for group beating
-> check for constant PR interval
-->if variable -> mobitz I
-->if constant-> mobitz II
CONSIDER blocked APCs

If no blocked APCs then consider 3rd deg AVB with ventricular or junctional escape…PR interval varies…

Question 131

LVH

Answer 131

Cornell criteria R aVL S V3 >28
prominent U-wave common
ST changes a/w hypertrophy

Question 132

LAFB vs LPFB

Answer 132

LAFB - small q I,aVL, small r III + LAD

LPFB - small r in I,aVL, small q in III + RAD (do not code LPFB if other causes of RAD ie ASD)

Question 133

Non conducted APCs

Answer 133

Check for deformed Twave in regular pattern near earlier conducted P -> bigeminy atrial rhythm… causes sinus pause on ecg mimicking sinus brady
Look for deformed T wave immediately before pause to ID non-conducted APC
Pseudo-sinus brady cardia

Question 134

conducted APCs

Answer 134

most commonly RBBB pattern

Question 135

AIVR

Answer 135

regular wide QRS rhythm
AV dissocitation and sinus brady present
LBBB pattern exists but do not code with AIVR
LAD also but do not code with AIVR

Question 136

Acute cor pulmonale/PE

Answer 136

S1Q3T3
RAD
Sinus tach, afib, aflutter, atach, first dev AVB
No qwave in II (if so then consider IWMI)
?iRBBB
ST changes non-specific (ST elev V1, ST dep V4-6)
QT int can’t be assessed with STach

Question 137

CHB vs AV dissociation

Answer 137

V rate similar to or greater than atrial rate (isorhythmic)

capture beat rules out CHB

Question 138

Vpace beats

Answer 138

can interpret ST elev by scarbosa
CANNOT interpret ST depressions as ST secondary changes can occur with vpacing
Can't interpret Q wave MI
Can't code LBBB/RBBB
Can't code prolonged QT
Can't code LVH/RVH

Question 139

SVT vs VT

Answer 139

Wide QRS - usually VT

unless it is SVT with aberrant conduction (ie RBBB/LBBB)

Question 140

RVOT VT

Answer 140

inferior axis - QRS complex positive in inferior leads

Question 141

Atach

Answer 141

look for abnormal p-wave morphology - ie neg in II, III, aVF (NSR p wave positive in II, III, aVF)

Question 142

Upper rate behavior

Answer 142

PPM tracks high rate atach and progressively increases AV delay to an upper limit and then drops a pacing spike

Question 143

VVI demand

Answer 143

need to see inhibition in at least one beat with native QRS to tell if it is VVI demand??

Question 144

VVI demand

Answer 144

need to see inhibition in at least one beat with native QRS to tell if it is VVI demand??

Question 145

VT

Answer 145

monophasic R wave in AVR

Question 146

Sinoatrial exit block

Answer 146

First Degree is not detectable on the surface ECG
Second Degree Mobitz Type I is characterized by group beating, a shortening P-P interval with a constant P-R interval, and a P-P pause interval less than twice the usual P-P interval
Second Degree Mobitz Type II is characterized by a constant P-P interval with a P-P pause interval being approximately a precise multiple (within 0.10 seconds) of the usual P-P interval
Third Degree is not detectable on the surface ECG

Question 147

Sinoatrial exit block

Answer 147

Grouped-beating is seen here with every third P-wave being dropped. This is suggestive of sinoatrial exit block. Many types of sinoatrial exit block exist. A shortening P-P interval with the longest P-P interval (the interveal between the dropped P-wave) being less than twice the standard P-P interval is known as sinoatrial exit block, second degree, Mobitz type I.

Question 148

AV junctional escape complex

Answer 148

Usually narrow QRS complex following a previously conducted beat at a coupling interval that corresponds to a rate of 40 to 60 per minute
A P wave, with typically a superior and leftward axis, if seen, may be seen immediately before or after the QRS complex
Termed ‘escape’ complexes because they act as a backup pacemaker of the heart in the setting of severe sinus node dysfunction, sinus pauses, or high degree AV block

Question 149

Sinus Arrhythmia

Answer 149

Normal P wave axis (0 to 75 degrees; i.e. upright in leads I and II)
P-P interval varies by > 10% or 0.16 seconds

Question 150

AIVR

Answer 150

Regular or mildly irregular ventricular rhythm with a rate of 60 to 110 per minute
Morphology of QRS complex is typically wide and similar to that of premature ventricular contractions
Often will be seen in the setting of myocardial reperfusion following infarction and is felt to be benign

Question 151

Hyperkalemia

Answer 151

narrow based tall peaked T wave
QT shortening**
>6.5 1st deg AVB
flat wide P wave, pwave dissappearance
ST dep
>7.5 - no p waves, LBBB/RBBB IVCD -> sinisoid (sinoventricular conduction)
VT/VF/IV rhythm, asystole

Question 152

Hypokalemia

Answer 152

Prominent U waves
sometimes long QT
ST seg depression, flat t waves
various AVB
VT/VF

Question 153

Hypercalcemia

Answer 153

Short QT
maybe long PR
Renal cell CA (paraneoplastic syndrome)

Question 154

Hypocalcemia

Answer 154

prolonged QT (narrow t wave)**
because of lengthened flat ST segment without change in duration or morphology of T wave

Question 155

Bivi pacing

Answer 155

Dual ventricular pacing spikes, typically occurring within 80 msec of each other, resulting from two separate pacing leads (one in the right ventricle and the other placed epicardially via the coronary sinus)
May result in a paced right-bundle branch block QRS morphology if the epicardial lead is being activated first (usually standard RV apical pacing results in a paced left bundle-branch block QRS morphology)

Question 156

LBBB, complete

Answer 156

Mean QRS duration greater than or equal to 120 ms in adults,greater than 100 ms in children 4 to 16 years of age, andgreater than 90 ms in children less than 4 years of age
Late forces of QRS complex should be negative (i.e terminal S wave) in V1
Broad notched or slurred R wave in leads I, aVL, V5, and V6 and an occasional RS pattern in V5 and V6 attributed to displaced transition of QRS complex
Absent q waves in leads I, V5, and V6, but in the lead aVL,a narrow q wave may be present in the absence of myocardial pathology
Delayed onset of intrinsicoid deflection (> 60 ms from beginning of QRS complex to peak of R wave) in leads V5 and V6 but normal in leads V1, V2, and V3, when small initial r waves can be discerned in these leads.

Question 157

RBBB Complete

Answer 157

*Prolonged QRS duration greater than or equal to 120 ms in adults, greater than 100 ms in children ages 4 to 16 years, and greater than 90 ms in children less than 4 years of age
*rsR’, rsr’, or rSR’ complexes in V1 or V2, with the secondary R wave (r’ or R’) usually wider than the initial R wave (r); a minority of patients may have a wide and often notched R wave pattern in lead V1 and/or V2
*S wave of greater duration than R wave or > 40 ms in leads I and V6 in adults
**Normal R peak time in leads V5 and V6 but > 50 ms in lead V1
Of the above criteria, the first 3 should be present to make the diagnosis. When a pure dominant R wave with or without a notch is present in V1, the 4th criteria should be satisfied.
Note: A right bundle branch block results in secondary ST-T segment changes (ST depression or T wave inversion), unrelated to ischemia, in V1-V2. A right bundle branch block can be seen in normal adults without structural heart disease; however, in the setting of known coronary artery disease, a right bundle branch block carries a 2-fold increase in mortality.

Question 158

LAFB

Answer 158

Mean QRS axis between -45 degrees and -90 degrees with mean QRS duration < 120 ms
Typically qR complex in lead I and rS complexes in leads II and III
qR pattern in lead aVL with delay of > 45 ms from beginning of QRS complex to peak of R wave in lead aVL
Absence of other causes of marked left axis deviation such as inferior myocardial infarction or left ventricular hypertrophy
Note: The entire left bundle conduction system of the heart is made up of two fascicles, one anterior and one posterior. The left anterior fascicle supplies fibers to the anterior and lateral walls of the left ventricle. The above criteria of left anterior fascicular block do not apply to patients with congenital heart disease in whom left-axis deviation is present in infancy.

Question 159

IVCD

Answer 159

Mean QRS duration greater than 110 ms in adults, greater than 90ms in children 8 to 16 years of age, and greater than 80 ms in children less than 8 years of age
Specific criteria for right or left bundle branch block (e.g. delayed onset of intrinsicoid deflection) are not met

Question 160

WPW

Answer 160

Short P-R interval (< 120 ms during sinus rhythm in adults and < 90 ms in children)
Slurring of the QRS complex (delta wave), resulting in the QRS complex being > 120 ms in adults and > 90 ms in children (the widened QRS complex results from fusion of two electrical impulses, one through the normal AV node and the other through the bypass tract)
Secondary ST-T wave changes (ST-T segment deviation opposite in directon of main QRS deflection)
Note: Wolff-Parkinson White (WPW) syndrome exists due to an abnormal muscular network of conduction tissue that connects the atrium to the ventricle and affectively bypasses the AV node. Most patients with WPW have no structural heart disease, although the syndrome is more prevalent in Epstein’s anomaly (anomalous attachment and downward displacement of the tricuspid valve leaflets), hypertrophic cardiomyopathy, mitral valve prolapse, and dilated cardiomyopathy. Most tachyarrhythmias are from AV re-entry tachycardia and typically result in a symptomatic narrow-complex tachycardia. However, the real concern with WPW exists if atrial fibrillation or flutter were to spontaneously occur. In that setting, abnormal conduction down the bypass tract with retrograde conduction back up the AV node could result in a rapid, wide-complex and irregular tachycardia that could potentially be life-threatening.

Question 161

Atrial tach

Answer 161

Abnormal P waves different in morphology from sinus P waves
Differs from atrial premature complexes in that there are at least 3 beats in succession
Typical atrial rate is 100 to 180 beats per minute
Usually results in a normal QRS complex (similar to that seen in sinus rhythm) following each P wave, unless the QRS complex is aberrantly conducted

Question 162

Atrial tach

Answer 162

Abnormal P waves different in morphology from sinus P waves
Differs from atrial premature complexes in that there are at least 3 beats in succession
Typical atrial rate is 100 to 180 beats per minute
Usually results in a normal QRS complex (similar to that seen in sinus rhythm) following each P wave, unless the QRS complex is aberrantly conducted

Question 163

Pathologic Q’s

Answer 163

30ms wide, 0.1mV deep

Question 164

ventricular escape complexes and rhythm

Answer 164

Regular or mildly irregular ventricular rhythm with a rate of 20 to 40 per minute
Morphology of QRS complex is typically wide and similar to that of premature ventricular contractions

Question 165

AV Junctional escape complexes

Answer 165

Usually narrow QRS complex following a previously conducted beat at a coupling interval that corresponds to a rate of 40 to 60 per minute
A P wave, with typically a superior and leftward axis, if seen, may be seen immediately before or after the QRS complex
Termed ‘escape’ complexes because they act as a backup pacemaker of the heart in the setting of severe sinus node dysfunction, sinus pauses, or high degree AV block

Question 166

RVH

Answer 166

Mean QRS axis greater than or equal to 100 degrees (i.e. Right Axis Deviation)
R/S ratio in V1 > 1, R/S ratio in V5 or V6 < 1, qR complex in V1, or R wave > 7mm in V1
Secondary ST-T segment changes (ST depression or T wave inversion) in right precordial leads

Question 167

ST changes from hypertrophy

Answer 167

Results in ST-T segment displacement opposite in direction to the QRS complex
Note: Left ventricular hypertrophy results in downsloping ST-segment depression and T wave inversion in leads I, V5, and V6, and subtle ST-segment elevation (< 1mm) in V1-V2. Rigth ventricular hypertrophy results in ST-T segment depression and T wave inversion in V1-V3.

Question 168

RVH in setting of RBBB

Answer 168

In the setting of a right bundle branch block, an R-prime in V1 greater than or equal to 15 mm suggests right ventricular hypertrophy.

Question 169

HCM

Answer 169

Abnormal QRS complex characterized by large amplitude QRS (left ventricular hypertrophy), pathological Q waves (pseudoinfarct pattern in the inferior, anterior, or lateral leads), or a tall R wave in V1 simulating right ventricular hypertrophy
Left axis deviation in approximately 20% of patients
Nonspecific ST-T segment abnormalities or ST-T segment changes secondary to ventricular hypertrophy
Left atrial abnormalities
Note: Apical variant of hypertrophic cardiomyopathy gives deep T wave inversions in V4-V6.

LVH
LAE