Lead II ECG Interpretation

Question 1

At rest, is potassium concentration greater inside or outside the cell?

Answer 1

Inside

Question 2

At rest, is sodium concentration greater inside or outside the cell?

Answer 2

outside

Question 3

What is depolarization?

Answer 3

A wave of electrical current that causes cardiac cells to become positively charged; should result in cardiac muscle contraction

Question 4

What are admission criteria for cardiac monitoring?

Answer 4

• Patients who are/have: 48 hours (about 2 days) post MI, unstable angina or NSTEMI, A fib, new onset arrythmias, syncope when arrythmia is suspected
• Patients who are on: low dose dobutamine, other antiarrhythmic medications
• Pre/Post pacemaker or with suspected pacer malfunction
• Pre/Post cardiac catheterization
• Patients who are experiencing: rhythm disturbances or at risk for life threatening arrythmias

Question 5

Discharge criteria for cardiac monitoring without physician’s order?

Answer 5

a) SR with normal rate
b) Intervals normal
c) No coronary symptoms within 24 hours
d) No rise in cardiac markers for 24 hours
e) Controlled A fib

Question 6

Discharge criteria for cardiac monitoring that requires a physician’s order?

Answer 6

a) **HR <40 or >100 at rest
b) Antiarrhythmic drug loading
c) Was admitted with diagnosis of dysrhythmia or syncope
d) Is having PVC or new occurrence of PVC with symptoms

Question 7

What is the admission procedure for cardiac monitoring?

Answer 7

1. Telemetry monitor setup
2. Documentation - strip analyzed at beginning of each shift - includes: rate, PR, QRS, QT, and rhythm interpretation
3. Review rhythm at the end of each shift for arrythmias

Question 8

What are nursing priorities for a patient with a dysrhythmia?

Answer 8

• Assess indicators of cardiac output and oxygenation, especially changes in level of consciousness
• Assessment includes:
  Rate and rhythm of apical and peripheral pulses
  Heart sounds
  Blood pressure and pulse pressure
• Signs of fluid retention
• Collaborative problems – Review from N253: decreased cardiac output, heart failure, thromboembolic event (especially with atrial fibrillation), and cardiac arrest

Question 9

What is cardioversion?

Answer 9

• “Timed” electrical current to terminate tachydysrhythmia
• Cardiac monitor is set to synchronize with the ECG so the patient receives the shock during the QRS complex
• Sync prevents the discharge from happening on the T wave (the most vulnerable part of the rhythm)
• Patient will be sedated and respiratory support should be present
• Amount of electricity varies from 50J to 360J (normally around 200J)
  * If it is successful, patient will convert to SR, have adequate pulses and BP

Question 10

What is a pacemaker?

Answer 10

• Device used to generate electrical impulses
• Electricity delivered through electrodes placed in the heart’s chambers – causes contraction
• Usually used when patient has bradycardia but can be used in some tachydysrhythmias
• Can be permanent or temporary
• This is a surgical procedure and can be accompanied by many common post op complications such as pneumothorax, infection, hematoma, dislodgement of device etc.

Question 11

Why is Lead II a preferred lead to interpret?

Answer 11

Follows normal path of ventricular depolarization

Question 12

What does the vertical plane of the ECG graph paper show?

Answer 12

voltage

Question 13

What does the horizontal plane of the ECG graph paper show?

Answer 13

time

Question 14

What is the P-wave?

Answer 14

Depolarization of the atria in response to the SA node triggering.

Question 15

What is the PR interval?

Answer 15

Delay of AV node to allow filling of ventricles.

Question 16

What is the QRS complex?

Answer 16

Depolarization of ventricles, triggers main pumping action

Question 17

What is the T-wave?

Answer 17

Ventricular repolarization

Question 18

What it the ST segment?

Answer 18

Beginning of ventricle repolarization, should be flat

Question 19

What are the steps invovled in reading a rhythm strip?

Answer 19

1. Calculate the heart rate
2. Determine regularity (R-R interval)
3. Identify and examine P waves
4. Measure PR interval
5. Determine if each P wave is followed by a QRS complex
6. Evaluate the QRS complex
7. Measure the QT interval
8. Diagnose the rhythm

Question 20

What is the range for a normal PR interval?

Answer 20

0.12 - 0.20 seconds

Question 21

Identify this rhythm.

Answer 21

Sinus rhythm

Question 22

Identify this rhythm.

Answer 22

Sinus tachycardia

Question 23

Identify this rhythm.

Answer 23

Sinus bradycardia

Question 24

Identify this rhythm.

Answer 24

Atrial fibrillation.

Question 25

Identify this rhythm.

Answer 25

Atrial flutter

Question 26

Identify this rhythm.

Answer 26

Coarse V-fib

Question 27

Identify this rhythm.

Answer 27

Fine V-fib

Question 28

Identify this rhythm.

Answer 28

Ventricular tachycardia

Question 29

Identify this rhythm.

Answer 29

Asystole

Question 30

Identify this rhythm.

Answer 30

Supraventricular Tachycardia

Question 31

What happens during repolarization?

Answer 31

recovery of the cell to its resting state; normally results in myocardial relaxation

Question 32

What are the action potential phases?

Answer 32

Phase 0: depolarization: sodium moves into the cell
Phase 1: early repolarization: sodium channels close
Phase 2: plateau phase: calcium channels open
Phase 3: repolarization: potassium shifts back into the cell
Phase 4: resting membrane potential: original electrochemical gradient is in place

Question 33

What is the absolute refractory period?

Answer 33

Period where the cell absolutely cannot respond to another stimulus regardless of the strength of the stimulus

Question 34

What is the relative refractory period?

Answer 34

Cell is relatively, but not completely, unresponsive

Question 35

What is a supranormal period?

Answer 35

A time in which weaker than normal stimulus can produce depolarization.

Question 36

What is the primary pacemaker in the heart?

Answer 36

SA node

Question 37

What impulse does the SA node generate?

Answer 37

60-100 bpm

Question 38

What impulse does the AV junction generate?

Answer 38

40 to 60 bpm

Question 39

What impulse does the ventricular purkinje fibers generate?

Answer 39

20 to 40 bpm

Question 40

What is an ECG?

Answer 40

A graphic representation of the electrical, not mechanical, activity of the heart

Question 41

What nursing actions are required when you see a change in the ECG?

Answer 41

• Check patient and assessment
• Check leads
• Determine what preceded the change
• Could get a 15 lead ordered if symptomatic
• If significant, SBAR a physician

Question 42

What is the order of conduction through the heart?

Answer 42

1. SA node initiates
2. Travels via the internodal pathways to the AV node
3. Atria depolarize and AV node slows electrical impulse. Atrial contraction begins.
4. Electrical impulse travels rapidly to the heart apex via the bundle of His and bundle branches.
5. Electrical impulse travels through Purkinje fibers and through ventricular myocardium. Ventricular contraction.

Question 43

What does it mean if the PR interval in > 20 seconds?

Answer 43

May indicate a heart block

Question 44

What might it indicate if the PR interval is < 0.12 seconds?

Answer 44

may indicate a junctional rhythm or a pre-excitation syndrome

Question 45

What is the normal duration of the QRS interval?

Answer 45

0.06 - 0.12 seconds

Question 46

What might it indicate if the QRS complex is greater than 0.12 seconds?

Answer 46

If > 0.12 seconds – indicates abnormal depolarization of the ventricles

Question 47

How long is a normal QT interval?

Answer 47

Normal is around .40 seconds

Question 48

Why is a QT interval over .50 seconds dangerous?

Answer 48

If QT is over 0.50 seconds, it becomes dangerous and risks an R on T phenomenon (the heart does not have time to naturally recover in the T wave)

Question 49

What order in the heart will pacemaking go if the prior cells fail?

Answer 49

SA node: 60 - 100
AV node: 40 - 60
Bundle of His: 40 - 60
Left and right bundle branches: 20 - 40
Pukinje fibers: 20 - 40

Question 50

What is sinus tachycardia?

Answer 50

• Abnormally rapid heart rate that ranges from 100 to 150 bpm and originates in the SA node
• Results from sympathetic nervous system stimulation
• Can also be compensatory response to decreased cardiac output

Question 51

What is sinus bradycardia?

Answer 51

• heart rate of less than 60 bom
• Originates in the SA node
• May be seen in athletes; a slower rate can still maintain an efficient cardiac output
• Can result from stimulation of the parasympathetic nervous system
• Also side effect of drugs such as digitalis, beta andrenergic agonists and CCBs

Question 52

What is atrial flutter?

Answer 52

• Fast atrial rate of between 250 and 350 bpm
• atria firing so rapidly that the AV node is unable to respond to every impulse
• ventricular rate depends on how many impulses get through
• ECG has sawtooth appearance
• Goal is to control the ventricular rate and restore the patient to sinus rhythm
• Anticoagulation should be considered

Question 53

What is atrial fibrillation?

Answer 53

• Atria contract at a rate greater than 350 bpm; they are unable to have adequate filling or contraction
• multiple foci fire in disorganized fashion
• the atria quiver rather than contract
• stroke volume diminished
• prone to forming clots; greatest risk is when the rate returns to sinus rhythm and expels clots
• most common in older adults
• puse deficit present

Question 54

What is ventricular tachycardia?

Answer 54

• Classified as three or more consecutive premature ventricular contractions (PVCs) occurring at a rapid rate, usually greater than 100 bpm
• QRS complex is wide
• Loss of consciousness occurs as cardiac output diminishes
• Synchronized cardioversion may be used to convert VT, however pulseless VT requires CPR

Question 55

What is ventricular fibrillation?

Answer 55

• A fatal rhythm, most common cause of sudden cardiac arrest
• ECG chaotic due to weak, disorganized ectopic pulses from multiple locations in the ventricles
• rhythm grossly irregular and impossible to identify any PQRST waves
• Defribrillation is the treatment of choice

Question 56

What is asystole?

Answer 56

• Represents complete cessation of electrical impulses
• Patient is unconscious and pulseless
• Must check rhythm is verified in two seperate leads as fine ventricular fibrillation can mimc asystole
• Chest compressions started immediately and continuously