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EKG Review
1: Characteristics and Interventions
| Course Number |
LWN301 |
| Objectives |
At the end of this course, you will
1) the basic EKG vocabulary, 2) the EKG waveform, 3) some of the
characteristics of a normal EKG, and 4) some characteristics of selected
abnormal EKGs. |
| Credit Hours and Fee |
3.0 CE Credit Hours with a fee of $24.00 |
| Instructor/developer |
Rudolf Klimes, PhD (Indiana University), MPH
(Johns Hopkins University), Adjunct Professor at Folsom Lake College,
Folsom, CA; updated by
Katherine Kelly, RN, MS, FNP, CEN, Assistant Professor at California
State University at Sacramento. |
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You may retake the test once.
Electrocardiography is an electronic tracing
of the conduction system of the heart. An ECG gives us a picture of the
neuro/electrical impulses as they travel from the sinoatrial node through the
atrium and the atrioventricular node to the Bundle of His, Purkinje fibres and
into the myocardial cells. This is the “freeway system” of the heart and it
carries the electrical impulses that stimulate the heart to contract.
These neuro/electrical impulses can be
detected at the body surface using electrodes. The tracings can be used to
determine the action of the heart muscle. Changes in rate and rhythm of the
heart can be determined. Decreased circulation of blood and oxygen to the heart
muscle can cause loss of function or altered function of the conduction system,
thereby, changing the path of the impulses and generating dysrrhythmias (altered
rhythms) or arrhythmias (no rhythm)
Review this list of terms: aortic
arch, asystole, atrioventricular, "AV") node, atrium, bradycardia, carotid sinus, congestive heart
failure (CHF), contractility, coronary insufficiency, diastole, ectopic, edema, electrocardiogram (ECG, EKG),
fibrillation, flutter, infarction, ischemia, sinoatrial (SA) node, sinus rhythm, systole,
tachycardia, ventricle, etc. Use
ww.medical-dictionary.com
Additional vocabulary: Bundle of His, Purkinje fibres,
electrodes, dysrrhythmia, arrhythmia, myocardial, pacemaker, depolarization, and
repolarization.
In
the following graphic, Q is the bottom starting point, R the top point, and S
the bottom end point of the QRS Complex.
Each wave in this schematic drawing of a
PQRSTcomplex represents an electrical event in the heart.
The P wave represents depolarization of the
atrium which causes atrial contraction and the pumping of blood from the atrium
into the ventricle. Normally the P wave should be an upright (positive)
deflection. The P – R Interval is a reflection of the length of time the atrium
takes to pump blood from the atrium to the ventircle. The P – R interval starts
with the beginning of the P wave and ends with the beginning of the QRS
complex. Its length varies based on the heart rate and the function of the AV
node. Atrial contraction begins at the peak of the P wave and continues to the
beginning of the QRS complex. At this point the atrioventricular valves (mitral
and tricuspid) close. Blood is trapped in the ventricle with all valves closed.
The pressure rises.
The QRS complex represents depolarization
of the ventricle. Ventricular contraction corresponds to the peak of this
complex and continues through the ST segment and the T wave. Pressure builds in
the ventricle until the semilunar valves (aortic and pulmonic) open. Blood
rushes out with the ventricular contraction and the pressure in the ventricle
drops. The aortic and pulmonic valves close. The semilunar valves open at the
onset of the ST segment. The semilunar valves slam shut at the conclusion of
the T wave.
See Wiggers Diagram at http://sprojects.mmip.mcgill.ca/cardiophysio/EKGwiggers.htm
3.
Normal Sinus Rhythm
Normal Sinus Rhythm: “NSR” is the term
used to describe a rhythm generated in the sinoatrial (SA) node with a rate
between 60 and 100 beats per minute. We determine sinus rhythm by several
criteria.
1.
A P wave precedes each QRS complex.
2.
The P wave is not taller than 3 mm, it is not wider than 0.11 seconds, it
is not peaked or notched.
3.
The P-R interval, which is from the beginning of the P wave to the
beginning of the QRS complex, represents the depolarization of the atrium. Its
length should be 3 – 5 small squares. One small square is equal to 0.04
seconds. Five small squares makes up one large square which is equal to 0.20
seconds (5 x 0.04 = 0.20). The normal P-R interval is 0.12 (3 small squares) to
0.20 (5 small squares) seconds in length. Again, this can vary with heart rate
and AV node function. A malfunction in the AV node will cause the P-R interval
to be greater than 0.20 seconds.
4.
Each P wave is followed by a QRS complex. The QRS complex represents
depolarization of the ventricle.
5.
Three waves compose the QRS complex. The first downward (negative)
deflection from the baseline is the Q wave. It should be less than ¼ as tall as
its succeeding R wave. The R wave is an upward (positive) deflection. As the R
wave descends below the baseline, it comes the S wave.
6.
The ST segment begins when the S wave returns to the baseline.
7.
The normal QRS complex is less than three small squares wide (0.12
seconds).
See
www.12leadECG.com. This is the web site for 3 new books on 12 lead and
rhythm interpretation.
Self-test
for practice, not to be submitted. Write out the right answers for yourself as
AAAA AAAA AAAA.
1. On EKG paper, a small box stands for A-0.20, B-0.40,
C-0.02, D-0.04 seconds.
2. The depolarization of the atrial myocardia is the A-P Wave, B-QRS Complex,
C-T-Wave, D-none of these.
3. The depolarization of the ventricalar myocardia is the A-P Wave, B-QRS
Complex, C-T-Wave, D-none of these.
4. The first hear sound is produced at A-Q, B-R, C-S, D-T-wave.
5. The semilunar valve opens at A-Q, B-R, C-S, D-J.
6. A QRS complex of 0.14 seconds is normal. A-true, B-false.
7. A T-wave of 0.04 seconds is normal. A-true, B-false.
8. The atrium of the heart is the A-large, B-holding, C-exit, D-entrance chamber
of the heart.
9. EKGs show the potential of the heart during A-rest, B-contraction, C-full
operation, D-action.
10. The mitral value is between the left atrium and the A-left, B-right,
C-upper, D-lower ventricle.
11. The mitral value has A-1, B-2, C-3, D-4 valve cusps.
12/ Sinus rhythm is the A- normal, B-regular, C-usual, D-all, 3 rhythm of a
health heart.
Sinus Tachycardia
(ST)
Definition:
Sinus Tachycardia (ST) is a dysrrhythmia which originates in the SA node.
The sinus rhythm exceeds 100 beats per minute. Possible causes are
exercise, fever, anxiety, hypovemia, hypoxia, myocardial infarction, and
responses to stimulant drugs.
EKG
Characteristics: Rate: Greater than 100 beats per minute.
Rhythm: regular. P Wave: Normal configuration or it may be
buried in the T wave. QRS Complex: Normal configuration. ST
Segment: Normal configuration. T wave: Normal configuration.
Nursing
Intervention: Determine the cause of ST and treat the cause.
Notify MD if the ST is a new occurrence.
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Sinus Bradycardia
(SB)
Definition:
SB is an arrhythmia which originates in the SA node. This arrhythmia is
characterized by an overall rate of less than 60 beats per minute.
Possible causes are vagal stimulation, sleep, ischemia to the SA node,
beta blockers, digitalis toxicity, increased ICP. It can also be seen in
athletes. Symptomatic sinus bradycardia includes the any or all
of the following manifestations: weakness, dizziness, syncope or near
syncope, chest pain, shortness of breath, hypotension and altered level
of consciousness.
EKG
Characteristics: Rate: Less than 60 beats per minute. Rhythm:
Regular. P Wave: Normal configuration. PR Interval:
Normal configuration being 0.12-0.20 seconds. QRS Complex: Normal
configuration being 0.08-0.12 seconds. ST Segment: Normal
configuration. T Wave: Normal configuration.
Nursing
Intervention: Oxygen administration and bed rest. If SB is
symptomatic, notify MD. A drug commonly used to treat symptomatic SB is
atropine.
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Wandering Atrial
Pacemaker (WAP)
Definition: The
initiating impulse comes from a different area of the conduction system
acting as a pacemaker. This can happen because the sinus node is
receiving increased para sympathetic stimulation ( slowing the impulses)
or because there is an irritable focus in the tissue (this is usually
due to ischemia). Many areas can act as secondary pacemakers. Causes
are generally related to hypoxia, such as COPD and drugs such as
digitalis.
EKG Characteristics:
Rate: Varies from 60-100 beats per minute. Rhythm: 1:1 ratio
of P waves to QRS waves. The rhythm may be irregular with at least three
different morphologies. PR: varies. QRS: May be within
normal limits for the intrinsic rhythm. ST segment: Normal in
size and configuration.
Nursing Intervention: If
this is a new rhythm, check the blood pressure, pulse rate, respiration
rate, O2 saturation and the medications for possible cause. Notify the
MD. Otherwise, there is no nursing intervention.
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Supraventricular
Tachycardia (STV)
Defintion:
SVT is a rapid regular heartbeat. It is cause by a rapid firing of
ectopic foci. Possible causes are stimulants, anxiety, atrial
enlargement, medication toxicity, and hyperthyroidism.
EKG
Characteristics: Rate: 150-250 beats per minute. Rythm:
regular. P Wave: Unable to visualize P wave due to rapid rate.
PR Interval: none. QRS Complex: Normal configuration.
Nursing
Intervention: Oxygen administration, obtain vital signs, consider
cardioversion, vagal maneuvers (cough and valsalva) and notify MD. Drugs
that are used to manage SVT are verapamil and adensoine. Prepare for a
code. |
Atrial Fibrillation
(A-Fib)
Definition:
In A-Fib there are many ectopic foci on the atria. The atria discharge
impulses at rates greater than 400 beats per minute. This serious
arrhythmia may be chronic or intermittent. A-Fib is labelled as
controlled if there are less than 100 beats per minute, uncontrolled if
there are more than 100 beats per minute. Possible causes are
hypertension, ischemia, myocardial disease, pericardial disease,
hyperthyroidism, chronic congestive heart failure, chronic obstructive
pulmonary disease, edema associated with status post heart surgery, and
the aging heart.
EKG
Characteristics: Rate: Controlled A-Fib less than 100 bests per minute,
uncontrolled more than 100 beats per minute. Atrial rate is almost
indiscernible. Rhythm: Atrial and ventricular both very irregular. P
Wave: No P waves, baseline has fibrillatory waves. PR Interval:
Indiscernible. QRS Complex: Normal configuration 0.08-0.12 seconds. ST
Segment: Indiscernible. T Wave: indiscernible.
Nursing
Intervention: Notify MD and start oxygen administration. Drugs
commonly used to treat A-Fib are anticoagulants, beta blockers and
calcium channel blockers. If drug treatment fails to treat this
arrhythmia, cardioversion may be used. If
the rhythm is more than 48 hours old, the physician may consider
cardioversion to return the patient to a normal sinus rhythm. Patients
with chronic atrial fibrillation will require anti coagulation to
prevent mural wall emboli from forming. |
Atrial Flutter
(A-Flutter)
Definition: A-Flutter is an atrial arrhythmia characterized by the "sawtooth"
atrial baseline at a rapid rate that is greater than 250 beats per
minute. Possible causes are enlarged atria, chronic obstructive
pulmonary disease, valve disease and pericarditis.
EKG
Definitions: Rate: Atrial rate is rapid, greater than 250 beats per
minute. Ventricular rate varies. Rythm: Atrial rhythm is regular.
Ventricular rhythm could be regular or irregular. P Wave: A "sawtooth"
baseline or flutter waves are present. PR Interval: Not measurable.
QRS Complex: Usually normal configuration 0.08-0.12 seconds. ST
Segment: Sometime indiscernible. T Wave: Sometimes indiscernible.
Nursing
Intervention: Notify MD if this a new rhythm. If dyspneic, give
oxygen. Common drugs to treat A-Flutter are digoxin, quinidine, anticoagulants,
beta blockers, and calcium channel blockers. Cardioversion may also
be used if drug treatment is not successful.
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For
information on EKG reviews, go to the
LearnWell
EKG Reviews.
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