11/1 EKG - Saluja

Question 1

EKG basics

what is it showing

electrodes vs leads

Answer 1

graph of voltage (potential diff) vs time as recorded by 12 leads

→ 3D view of depolarization/repolarization occuring over time

10 electrodes are placed on body (6 precordial, 4 limb)

12 leads are displayed on the EKG (avF, avL, avR, I, II, III, V1-V6)

• bipolar leads (derived from 2 electrodes) : I, II, III
• unipolar leads (derived from an electrode & Wilson’s Central Terminal) : V1-V6, aVL, aVR, aVF
  
  • WCT = (RA+LA+LL)/3

Question 2

terminology

wave

segment

interval

Answer 2

wave: deviation from baseline

segment: piece of baseline

interval: segment AND wave(s)

Question 3

naming QRS waves

Answer 3

FIRST POSITIVE DEFLECTION : R wave

if there’s a NEGATIVE DEFLECTION PRECEDING POSITIVE DEFLECTION : Q wave

NEGATIVE DEFLECTION PRECEDED BY POSITIVE DEFLECTION : S wave

Question 4

P waves

Answer 4

sinus duration < 0.12s in Lead II

sinus amplitude < 2.5-3mm in Lead II

Question 5

PR interval

Answer 5

normal duration: 0.12-0.20s (3-5 small boxes)

• prolonged PR: > 0.20s
• short PR: < 0.12s

Question 6

QRS complex

Answer 6

normal duration: < 0.12s

• normal conduction down His-Purkinje tissue and through ventricles

wide QRS: > 0.12s

• abnormal conduction in His-Purkinje or in ventricles
• ex. bundle branch block or IVCD (interventricular conduction delay)

Question 7

QT interval

Answer 7

normal

• < 440ms for men
• < 460ms for women

need to correct for HR

• Bazzet Correction (QTc) = QT interval/root(RR interval)

Question 8

EKG reading algorithm

Answer 8

1. rate
   
   • measure RR interval (300/BIGboxes)
2. impulse formation and conduction (rhythm)
   
   • SA node is the pacemaker; overdrive-suppresses all other foci
   • hierarchy: sinus node - jx/fascicles - ventricular myocardium
3. axis
   
   • remember angles! average axis of depol is approx 60degrees
4. intervals
5. hypertrophy and enlargement
6. ST segment and T wave analysis

Question 9

axis specifics

normal

LAD

RAD

extreme RAD

Answer 9

normal axis (-30 to 90): QRS I+, II+

LAD (-30 to -90): QRS I+, II- (-30→-90)

RAD: QRS I-, aVF+

extreme RAD: QRS I-, aVF-

Question 10

causes of axis deviation

Answer 10

things that cause deviation:

1. extra depol in the direction of the deviation (hypertrophy)
2. loss of depol in the direction opposite the deviation (infarction)
3. issue with pattern of depol due to fascicular block

LAD

• MI
• left anterior fascicular block
• LV enlargement

RAD

• left posterior fascicular block
• RV enlargement

Question 11

His-Purkinje system basics

what happens if you block the system somewhere?

Answer 11

Bundle of His splits off into…

• R common bundle
• L common bundle
  
  • anterior hemifascicle
  • posterior hemifascicle

what happens if you block the system somewhere?

impulse is still conveyed BUT conveyed by cell-to-cell conduction! →→ slow

• arrive at the end of the QRS in the direction of the block
• ex. in RBBB → terminal forces go toward the right, and the waves look slurred

Question 12

RBBB characteristics

Answer 12

• terminal impulses (conducted by cell-to-cell transmission) arrive on right side at end of QRS
• **NO CHANGES SEEN IN SEPTAL DEPOL i.e. very first part of QRS is unchanged in RBBB
  
  • septum is innervated by branches coming off proximal left common bundle

V1: large, broad positive deflection at end of wide QRS

I, V6: negative slurred deflection at end of wide QRS

• wide because you have slow conduction (> 120ms)
• characteristic pos/neg deflection indicating that terminal impulses are in the right side of the heart

Question 13

LBBB characteristics

Answer 13

*ALTERED SEPTAL DEPOL → don’t see Q waves

• very beginning of QRS complex is altered

terminal impulses seen on the L side of the heart

wide QRS (> 120ms)

I, V6: positive slurred deflections

V1: negative slurred deflections

Question 14

fascicular blocks

what do the anterior and posterior hemifascicles supply?

will initial depol be affected? why/why not?

Answer 14

• left anterior hemifascicle supplies superior/leftwards part of LV
• left posterior hemifascicle supplies inferior/medial part of LV

initial septal depol NOT affected because hemifascicles are distal to the proximal L common bundle, which is the source of septal depol

Question 15

LAFB

Answer 15

left anterior fascicular block

initial depol normal

late forces are UPWARDS, LEFTWARDS

1. overall QRS < 120ms

over 100ms; a little wider than normal but not WIDE)

2. septal (nonpatho) Q waves intact in I, aVL

absent in LBBB

3. RS in II, III, aVF
4. precordial axis is less than -45 degrees
5. frontal axis is more posterior (poor R-wave progression)

Question 16

LPFB

Answer 16

left posterior fascicular block

• initial depol normal
• late forces are DOWNWARDS, RIGHTWARDS

1. overall QRS < 120ms
   * over 100ms; a little wider than normal but not WIDE
2. septal (nonpatho) Q waves intact in I, aVL
   * absent in LBBB
3. rS in I, qR in III
4. precordial axis rightwards: 90-180 degrees
5. frontal axis is more posterior (poor R-wave progression)

Question 17

hypertrophy

RA enlargement

LA enlargement

Answer 17

RA enlargement

• V1: positive deflection of P wave (> 1.5mm)
• II: P wave amplitude > 3mm

LA enlargement

• V1: broad P wave (> 0.04s) and deep negative (> 1mm) in terminal part
• I: P wave wider than 0.12s and maybe more prominently notched than usual

Question 18

RVH

Answer 18

right axis deviation

V1: prominent R wave (> 7mm)

Question 19

LVH

Answer 19

Sokolow-Lyons criteria:

• sum of amplitudes of S wave in V1 + R wave in V5 or V6 is 35mm or more
• AVL: R wave is 11mm or more

Question 20

ST segment and T wave analysis

Answer 20

gives you info about:

• ischemia/infarction
• pericarditis
• hyperkalemia (electrolytes)

Question 21

ischemia/infarction

coronary vessels

what types of changes seen with infarction in branches?

Answer 21

left coronary (main)

• LAD: ST and Q wave changes in anterior wall (anterior precordial leads)
  
  • LV anterior wall
  • septum (anterior)
  • LV lateral wall
• circumflex: Q waves in leads pointing laterally (I, aVL, V5, V6)
  
  • L atrium
  • LV posterior and lateral walls

right coronary: ST and Q wave changes in inferior wall (II, III, aVF)

• RV
• AV node
• septum
• LV posterior and inferior walls

Question 22

STEMI

evolution of it

key markers of infarction

Answer 22

ST elevation MI

• elevation followed by Q wave development
• as infarct completes, ST segment comes back to normal and Q wave persists, but T wave becomes inverted
• over even longer time, T wave might come back up to normal, and you’re left with a Q wave

key:

Q wave = infarctED

• wider or deeper than expected
• wider than 40ms and/or deeper than 1/3(R wave height)

ST segment deviation = infarctING

Question 23

ST depression

Answer 23

typically indicative of subendocardial infarction

1. downsloping ST : most common
2. upsloping ST
3. horizontal ST