chap 8 reading ekgs
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Chapter 8Advanced Cardiovascular
Monitoring Skills
Chapter 8Advanced Cardiovascular
Monitoring Skills
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EKG Records:EKG Records:
• 1. amount of voltage generated by ht – vertical scale
• 2. time required for voltage to travel thru ht – horizontal scale
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EKG Interpretation: 5 criteriaEKG Interpretation: 5 criteria
• 1. What is the rate?
– Quick estimate:
• Count # R waves in a 6 second strip x 10
• 6 second strip = 3 “tic” marks
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• 2. Is rhythm regular or irregular?
– Measure distance between RR interval
– Measure throughout full 6 second strip
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• 3. Are P waves present?
– Should be 1:1
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Abnormal rhythms with P wavesAbnormal rhythms with P waves
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4. What is the PR Interval? PRI4. What is the PR Interval? PRI
• Normal .12 - .20
• Beginning of P wave to beginning of QRS complex
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5. What is the width of QRS complex?5. What is the width of QRS complex?
• Normal .12 or < (less)
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Interpretation of Rhythm:Interpretation of Rhythm:
• What is the rhythm?
– Use information from 5 previous slides– 1. rate =
– 2. P waves =
– 3. PRI =
– 4. QRS =
– 5. Interpretation =
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cheat sheet- Sinus Rhythmscheat sheet- Sinus RhythmsInterpretation Sinus Rhythm
(SR)Sinus Brady (SB)
Sinus Tach (ST)
Sinus (SA) Arrhythmia
Regularity
Rate
P waves
PRI
QRS
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Sinus Rhythms: Impulse originates in SA node – normal pacemaker site
Sinus Rhythms: Impulse originates in SA node – normal pacemaker site
• Normal Sinus Rhythm - NSR:– Regularity – regular
– Rate - 60 – 100 / minute
– P waves = 1:1
– PRI = .12 - .20
– QRS = .12 or <
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QuestionQuestion
What is a dysrhythmia?
A. Irregular rate only
B. Irregular rhythm only
C. Irregular rate and rhythm
D. Can be either or both irregular rate or rhythm
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AnswerAnswer
D. Can be either or both irregular rate or rhythm
A dysrhythmia is an irregular heart rate, rhythm, or both. Remember that for the heart to be an effective pump, it must contract in two coordinated phases (atrial systole/ventricular diastole, followed by ventricular systole/atrial diastole). Rhythms that are irregular or rates that are too fast can affect the ventricles’ ability to fill with an adequate amount of blood or pump strongly enough to send the blood out of the heart.
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Sinoatrial Node (Sinus) Dysrhythmias Sinoatrial Node (Sinus) Dysrhythmias
• Sinus bradycardia: the SA node fires electrical impulses at a rate that is slower than normal (< 60 impulses/ minute)
• Sinus tachycardia: the SA node fires electrical impulses at a rate that is faster than normal (>100 impulses/ minute)
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Sinus Bradycardia - SBSinus Bradycardia - SB
• Regularity – regular
• Rate – less than 60 / min
• P waves – 1:1
• PRI - .12 - .20
• QRS - .12 or less
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Sinus Tachycardia - STSinus Tachycardia - ST
• Regularity – regular
• Rate - > 100 / min
• P waves = 1:1
• PRI = .12 - .20
• QRS = .12 or <
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Sinus Arrhythmia - SASinus Arrhythmia - SA
• Caused by a variety of factors: anxiety, stimulants, fever, exercise, medical conditions
• Regularity – irregular
• Rate – anything; freq. in normal rate of 60 – 100 / min
• P waves – 1:1
• PRI - .12 - .20
• QRS - .12 or <
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Sinus Rhythms: Sinus Rhythms:Interpretation SR SB ST SA
Regularity Regular Regular Regular Irregular
Rate 60 – 100/ min < 60 min > 100 min Could be any rate, usually between 60 - 100
P waves 1:1 1:1 1:1 1:1
PRI .12 - .20 .12 - .20 .12 - .20 .12 - .20
QRS .12 or < .12 or < .12 or < .12 or <
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Atrial Rhythms: Atrial Rhythms:Interpretation A-fib A-flutter AV Junction
Regularity
Rate
P waves
PRI
QRS
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Atrial Dysrhythmias Atrial Dysrhythmias
• Atrial flutter: in atrial flutter, atrial contraction (represented by the P waves on the ECG) is regular but faster than normal (250 to 400 times per minute)
• Atrial fibrillation: caused by rapid, uncoordinated twitching of the myocardium of the atria; in atrial fibrillation, the P waves are irregular & small, & they occur at a rapid rate all along the ECG
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Atrial Fibrillation : A FibAtrial Fibrillation : A Fib
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Atrial Flutter : A FlutterAtrial Flutter : A Flutter
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Question:Question:
The person with atrial fibrillation may feel which of the following?
A. Light-headed with palpitations
B. Unconscious
C. Nothing because there are no symptoms
D. Muscle movements may be uncoordinated
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AnswerAnswer
A. Light-headed with palpitations
The ventricular rhythm is usually very irregular, and the rate of ventricular contraction is high (usually between 120 and 200 times per minute). When the ventricular rate is so rapid, the ventricles are not able to fill adequately with blood between beats. As a result, the maximum amount of blood is not sent out to the body with each beat. The person may feel light-headed and complain of chest palpitations (awareness that the heart is beating).
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Atrioventricular Junction DysrhythmiasAtrioventricular Junction Dysrhythmias
• Junctional rhythm: occurs if the SA node fails to fire and send an electrical impulse through to the AV node or if the SA node fires the impulse too slowly
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Junctional rhythms-begin in AV node & Bundle of HISSA node fails to fire or is too slow
Junctional rhythms-begin in AV node & Bundle of HISSA node fails to fire or is too slow
• Ventricular rhythm normal
• Rate is slower
• P waves absent or inverted
• May appear after QRS
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P wave after QRS - junctionalP wave after QRS - junctional
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Atrial Rhythms: Atrial Rhythms:Interpretation A-fib A-flutter AV Junction
Regularity Irregular-chaoticAtria quivers
RegularAtria flutters
Regular
Rate Ventricular: variesAtrial: chaotic, hard to read
Atrial: 250-400Ventricular: 75-100, may vary
40-60
P waves Irregular, small, rapid, hard to see
Flutter, sawtooth
None or inverted
PRI None Difficult to evaluate
Difficult to measure<.12
QRS <.12 <.12, hard to evaluate
Normal
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Ventricular DysrhythmiasVentricular Dysrhythmias
• Premature ventricular contraction
• Ventricular tachycardia
• Ventricular fibrillation
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Cheat Sheet-Ventricular DysrhythmiasCheat Sheet-Ventricular DysrhythmiasInterpretation PVC –
premature ventricular contraction
VT – Ventricular Tachycardia
VF – Ventricular Fibrillation
Asystole
Regularity
Rate
P waves
PRI
QRS
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Premature Ventricular Contraction: PVCPremature Ventricular Contraction: PVC
• Ectopic beat – dangerous if occurs often
• Regularity – may interrupt the regularity of underlying rhythm
• Rate – depends on underlying rhythm
• P wave – will not be one before ectopic beat
• PRI – none in ectopic beat – measure underlying rhythm
• QRS – ectopic beat – wide and bizarre, also look at underlying rhythm
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BigeminyBigeminy
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couplets triplets
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Ventricular Tachycardia - VTVentricular Tachycardia - VT
• Medical Emergency – most pts will be unconscious & can’t feel pulse
• Regularity – usually regular, can be slightly irregular
• Rate – 150 – 250 / min
• P waves – none
• PRI – none
• QRS - >.12
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Ventricular Fibrillation - VFVentricular Fibrillation - VF
• Start CPR!!- check leads if pt. conscious, need defibrillated
• Regularity – baseline totally chaotic
• Rate – can’t determine
• P waves - ?
• PRI - ?
• QRS - ?
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AsystoleAsystole
• No electrical activity
• Check leads if pt. conscious
• Start CPR
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Cheat Sheet – Ventricular DysrhythmiasCheat Sheet – Ventricular Dysrhythmias
Interpretation PVC – premature ventricular contraction
VT – Ventricular Tachycardia
VF – Ventricular Fibrillation
Asystole
Regularity The underlying rhythm can be regular or irregular
Usually regular, can be irregular
Baseline totally chaotic
No electrical activity, only a flat line
Rate Determined by underlying rhythm
150 – 250Per min.
Can’t be determined
P waves Ectopic not preceded by a P wave
none No discernible P waves
PRI Ectopic comes from lower focus, no PRI
none none
QRS Wide and bizarre >.12
Wide and bizarre >.12
No discernible QRS complex
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Cheat Sheet – BlocksCheat Sheet – Blocks
Interpretation
1st degree 2nd degree type 1
2nd degree type 2
3rd degree Bundle block
Regularity
Rate
P waves
PRI
QRS
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Atrioventricular Blocks- AV node prevents electrical impulses from SA to go to ventricles
Atrioventricular Blocks- AV node prevents electrical impulses from SA to go to ventricles
• First-degree atrioventricular block
• Second-degree atrioventricular block
* Type I - Wenckebach rhythm
* Type II - Mobitz type I rhythm
• Third-degree atrioventricular block (Mobitz type II rhythm)
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AV block 1st degreeAV block 1st degree
• All is normal except PR-I is abnormal
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2nd degree, type I/ Wenckebach rhythm-
time b/t atrial depolarization and beginning ventricular depolarization becomes longer until blocked
PR-I longer with each impulse until there is a P wave without a QRS. Then is starts over
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2nd degree –type II/Mobitz2nd degree –type II/Mobitz
• Time b/t atrial depolarization & ventricular depolarization is constant but not impulses are sent through AV node to ventricles.
• Normal constant PR-I until an impulse is blocked , then a P wave appears without a QRS
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3rd degree/ Mobitz type II3rd degree/ Mobitz type II
• No electrical impulses are sent through the AV node. Atrial contraction occurs b/c SA node.
• Ventricular contraction occurs b/c perkinje fibers which causes slow rate
• A medical emergency!
• Need a pacemaker
• PR-I vary in length QRS wide & abnormal
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Bundle branch blockBundle branch block
• Left or right branch unable to conduct the impulse to the perkinje fibers so only one side depolarizes
Wider than normal QRS, R wave may be small
• The QRS will be split & have a rabbit ear appearance.
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Cheat Sheet – BlocksCheat Sheet – Blocks
Interpretation
1st degree 2nd degree type Wenckebach
2nd degree type 2
3rd degree Bundle block
Regularity Yes Regular until block occurs
Regular until block occurs
P & QRS are independent
Regular except at block
Rate Normal Atrial: WNLVentricular < 60
Atrial: WNLVentricular <60
Slow Varies according to block
P waves Present Present Present Present not related to QRS
Present
PRI >.12 Becomes longer with each complex
Normal &constant until block
None Varies
QRS Normal <.12 Eventually dropped <.12
Absent when blocked <.12
Wide & abnormalMedical emergency!
Split, wide & abnormal >.12Rabbit ears
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Observations to Report to the Nurse ImmediatelyObservations to Report to the Nurse Immediately
• The PR interval is longer than earlier
• The QRS complex changed shape or widened
• The ECG shows a new dysrhythmia that was not there before
• C/O chest pain or discomfort
• C/O shortness of breath
• C/O dizziness
• Person unconscious
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Artifacts Can Be Caused by:Artifacts Can Be Caused by:
• Electrical interference from other electrical equipment (such as an electric razor) or monitoring devices in the area
• Loose electrodes, especially if the person is diaphoretic (sweating) or recently repositioned
• Electrodes dried out
• Electrodes placed over an excessively hairy area
• Defective monitor or lead wires
• Patient movement (for example, from shivering or brushing the teeth)
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Artifact:Artifact:
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QuestionQuestion
What are abnormal ECG tracings that do not represent the heart’s electrical activity?
A. AV block
B. Dysrhythmia
C. Artifact
D. Bundle of His
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AnswerAnswer
C. Artifact
Artifact can be caused by electrical interference from other electrical equipment (such as an electric razor) or loose electrodes, especially if the person is diaphoretic (sweating) or has recently been repositioned.
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Question:Question:
In a 12-lead ECG, how many electrodes are placed on the body?
A. 12
B. 4
C. 10
D. 3
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AnswerAnswer
C. 10
A 12-lead ECG is used to diagnose a heart condition. A 12-lead ECG uses 10 electrodes.
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Scenario: Scenario:
• Mrs. Spencer is an elderly patient who has been admitted to your unit, 2A, after having abdominal surgery. She has been placed on telemetry to monitor her heart. Since her surgery, Mrs. Spencer has become a bit confused and has pulled off her telemetry leads three times already today. As you pass the station where the telemetry monitoring screens are, you notice that Mrs. Spencer’s rhythm is again looking irregular. You are really busy, and she has already pulled her leads off so many times today. What should you do?
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Scenario: Scenario:
• Mrs. Jacobs is an elderly patient who has just been admitted to your unit with pneumonia. Her doctor has written an order for telemetry monitoring. What will some of your responsibilities be regarding Mrs. Jacobs’ telemetry?