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Introduction to the basics of 12Lead EKG Interpretation

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Title: Introduction to the basics of 12Lead EKG Interpretation


1
Introduction to the basics of 12-Lead EKG
Interpretation
  • Jennifer Rodgers, MSN, ARNP
  • Wichita State University
  • Summer 2006

2
INTRODUCTION
  • 12-Lead EKG machine developed in 1903 timeless
    invention
  • Inexpensive, easily accessible
  • Goals
  • 1. Review basic cardiac physiology
  • 2. Develop systematic approach to 12-Lead
  • interpretation
  • 3. Practice interpreting EKG strips

3
12-Lead EKG
  • Electrical recording of the hearts electrical
    activity
  • Cardiac cells resting state polarized (negative
    inside positive outside)
  • Ensure appropriate distribution of ions
    (potassium, sodium, chloride, calcium)
  • Depolarization-fundamental electrical event of
    the heart, stimulationgtmuscle begins to work
  • Propagated from cell to cellgtwave throughout
    entire heartgtflow of electricity

4
TYPES OF CELLS
  • PACEMAKER-electrical source
  • ELECTRICAL CONDUCTING-hard wiring
  • MYOCARDIAL-contractile machinery

5
PACEMAKER CELLS
  • Small 5-10 cm in length
  • Depolarize spontaneously _at_ particular rate
  • Located in Right Atrium-Sinoatrial (sinus) node
  • Typical 60-100 beats/minute
  • Dependent on autonomic nervous system and body
    demands

6
ELECTRICAL CONDUCTING CELLS
  • Long-Thin cells
  • Rapidly carry currents to distant regions of heart

7
Myocardial Cells
  • Heavy labor cells
  • Constantly contracting relaxinggt delivering
    blood to the periphery
  • Contain contractile proteinsgt actin myosin
  • Depolarizationgtmyocardial cellgtcalcium released
    within cellgtcontract

8
Time Voltage
  • Waves on EKG primarily reflect electrical
    activitygtmyocardial cells
  • Waves-3 characteristics
  • 1. Duration-measured fraction/second
  • 2. Amplitude-measured millivolts (mV)
  • 3. Configuration-shape/appearance

9
EKG PAPER
  • Light lines small squares- 1 X 1 mm
  • Bold lines large squares 5 X 5 mm
  • Horizontal axistime
  • 1. Distance across small square0.04 sec.
  • 2. Distance across large square0.2 sec.
  • Vertical axisvoltage
  • 1. Distance across small square0.1 mV
  • 2. Distance across large square0.5 mV
  • 6 second strip to figure rate (X 10) (30 lg6)

10
SINUS NODE
  • STARTS EACH CARDIAC CYCLE OF CONTRACTION
    RELAXATION BY SPONTANEOUS DEPOLARIZATION THIS IS
    NOT SEEN ON THE EKG

11
ATRIOVENTRICULAR (AV) NODE
  • Electrical Gatekeeper between atria and
    ventricles
  • Allows atrial contraction to end empty contents
    into the ventricle before ventricular contraction
    begins

12
VENTRICULAR DEPOLARIZATION
  • WAVE DEPOLARIZATION SPREADS THROUGH THE 3
    PARTS-Bundle of His (intrinsic 40-60 bpm)gt Bundle
    Branchesgt Purkinje Fibers (intrinsic 20-40 bpm)
    out into the ventricular myocardium
  • Beginning ventricular depolarizationgtQRS complex

13
VENTRICULAR REPOLARIZATION
  • Brief refractory period
  • Restore electro negativity of their interiors
  • T wave
  • Atrial repolarization is not seen

14
PR INTERVAL
  • Includes P wave the first straight line
    connecting it to the QRS interval
  • Measures the time from the start of atrial
    depolarization to the start of ventricular
    depolarization
  • Normal 0.12-0.20 sec
  • gt0.20 delay in AV conduction
  • lt0.12 shortens as HR increases

15
ST SEGMENT
  • The straight line connecting the end of the QRS
    complex with the beginning of the T wave
  • Measures the time from the end of ventricular
    depolarization to the start of ventricular
    depolarization

16
QT INTERVAL
  • Includes the QRS complex, ST segment, T wave
  • Measures the time from the beginning of
    ventricular depolarization to the end of
    ventricular repolarization
  • Normal duration QRS 0.06-0.10 seconds

17
RATE MEASURMENT
  • 1. COUNT THE OF QRS COMPLEXES IN 6 SECONDS X
    10, MOST COMMON
  • 2. COUNT OF LG. BOXES BETWEEN 2 R WAVES /BY
    300
  • 3. COUNT OF SM. BOXES BETWEEN 2 R WAVES /BY
    150

18
STEPWISE APPROACH STRIP INTERPRETATION
  • A. Determine Atrial Ventricle Rate
  • 1. V-measure R-R, A-measure P-P
  • 2. gt100 Tachycardia, lt60 Bradycardia
  • B. R-R Interval Regular?
  • C. P wave Formation
  • 1. Precede QRS, occur regularly,
  • similar size
  • 2. P wave (SA Node) OR -/absent (AV
  • Junction)
  • D. QRS wide or narrow

19
SINUS NODE DYFUNCTION
  • SINUS ARRHYTHMIA
  • SINUS TACHYCARDIA
  • SINUS BRADYCARDIA

20
SINUS ARRHYTHMIA
  • A. Rate 60-100 bpm
  • B. R-R irregular
  • C. Normal P wave
  • D. Normal PR interval 0.12-0.20 sec.
  • E. Normal QRS complex lt/0.10 sec.
  • Phasic slowing quickening, benign, normal
    response to respirations, asymptomatic
  • Except in elderlygtSick Sinus Syndrome, not
    usually seen in infants

21
SINUS BRADYCARDIA
  • Usual response to reduced demand for blood flow
  • A. Rate lt 60 bpm
  • B. R-R Regular
  • C. Normal P wave
  • D. Normal PR interval
  • E. Normal QRS Complex
  • Asymptomatic Vs. Symptomatic

22
SINUS TACHYCARDIA
  • ACCELERATION SA NODE
  • A. Rate gt110 bpm (110-160)
  • B. R-R Regular
  • C. Normal P wave
  • D. Normal PR Interval 0.12-0.20 sec
  • E. Normal QRS Complex lt/0.10 sec
  • Response to exercise/stress, OR response illness
    (hypovolemia/hypotension)gtresolves once cause
    fixed

23
ATRIAL DYSRHYTHMIAS
  • Most common cardiac rhythm disturbance
  • Originate in/around SA Node above ventricle
  • Can diminish atrial kick gt20 ventricular
    volume
  • PSVT-Paroxysmal Supraventricular Tachycardia
  • Atrial Fibrillation
  • Atrial Flutter

24
PSVT
  • A. Rate 150-250 bpm
  • B. Regular R-R interval
  • C. P wave can be buried
  • D. PR interval may be hard to find
  • E. Normal narrow QRS complex
  • Treatment LVEF50gtCCB, BB, Dig., possible
    cardioversion, lt40 No Cardioversion!, Dig.,
    Amiodorone, Diltiazem

25
ATRIAL FLUTTER
  • A. Atrial Rate 250-350 bpm
  • B. R-R Irregular
  • C. P wave classic saw tooth OR flutter
  • D. PR interval immeasurable
  • E. QRS complex narrow
  • May have palpitations, OR s/sx reduced C.O.
  • If symptomaticgtcardioversion, BB, Sotalol, Dig.

26
ATRIAL FIBRILLATION
  • Chaotic, asynchronous electrical activity in
    atrial tissuegtmultiple impulses numerous eptopic
    pacemakers
  • A. Atrial Rate-indiscernible, V-Rate 60-160
    (RVR-Rapid Ventricular Response)
  • B. R-R Irregular
  • C. No P wave
  • D. No PR interval
  • E. QRS narrow

27
JUNCTIONAL ESCAPE RHYTHM
  • Originates in AV junction escape pacemaker
  • A. Rate 40-60 bpm
  • B. R-R Regular
  • C. Inverted P wave, preceding each QRS
  • D. PR Interval short 0.10 sec.
  • E. QRS normal
  • How is patient tolerating? Loss of atrial
    kickgt can reduce C.O. by 20

28
PREMATURE BEATS
  • Premature Atrial Contractions (PACs)-originate
    outside AV node, single/multiple ectopic focus
    supersede SA node
  • Premature Ventricular Contractions
    (PVCs)-ectopic beats that originate in
    ventricles occur earlier, singles, pairs or in
    clusters

29
VENTRICULAR DYSRHYTHMIAS
  • VENTRICULAR TACHYCARDIA
  • VENTRICULAR FIBRILLATION

30
VENTRICULAR TACHYCARDIA (V-TACH)
  • Defined as Vent. Rate gt 100 bpm when 3 OR more
    PVCs strike in a row
  • Life threatening, unstable, sustained OR
    unsustained
  • A. A-rate cant be determined, V-rate100-250
    bpm
  • B. R-R regular or slightly irregular
  • C. P wave usually absent, dissociated
  • D. PR Interval-immeasurable
  • E. WIDE QRS gt0.12 sec. Bizarre appearance

31
VENTRICULAR FIBRILLATION (V-FIB)
  • VF-Full cardiac arrest, no pulse/BP, always check
    patient firstgtDefibrillategtCPR/ACLS
  • A. Rate-cant be determined pulseless
  • B. R-R cant determine
  • C. P wave cant be determined
  • D. PR interval cant be determined
  • E. QRS complex cant be determined
  • Ventricular electrical activity gtfibrillatory
    waves with no recognizable pattern

32
A-V BLOCKS
  • Interruption/delay in the conduction of
    electrical impulses between the atria
    ventricles
  • Classified site of block/severity of conduction
    abnormality
  • 1st degree, 2nd degree Mobitz I (Wenkebach), 2nd
    degree Mobitz II, 3rd degree (Complete heart
    block)

33
1st Degree AV Block
  • Characterized by PR Interval gt 0.20 seconds
  • Delay in conduction AV Node
  • Prolonged PR Interval constant
  • Usually asymptomatic
  • Least concerning of the blocks

34
2nd Degree Mobitz I (Wenkebach)
  • Successive impulses from SA node delayed slightly
    longer than the previous impulse
  • Characterized by prolonged PR interval that
    continues until the P wave is dropped (impulse
    doesnt reach ventricle)
  • May have hypotension or lightheadedness

35
2nd Degree Mobitz II
  • Less common, more serious
  • Impulses from SA node fail to conduct to
    ventricles
  • Hallmark PR Interval constant normal or
    prolonged, doesnt prolong before dropping, not
    followed by QRS, can have gt 1 dropped in a row
  • Precursor to 3rd Degree Heart Block

36
3RD DEGREE COMPLETE HEART BLOCK
  • Indicates complete absence of impulse between the
    atria ventricle
  • Atrial rate gt or ventricular rate
  • Occur _at_ AV node 40-60 bpm
  • Occur _at_ bundle branches lt 40 bpm wide QRS complex
  • Decreased C.O., P-P R-R disassociated

37
EKG INTERPRETATION
  • LETS PRACTICE!!!!
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