Hyperkalemia electrocardiogram: Difference between revisions

	Hyperkalemia Microchapters
Home
Patient information
Overview
Historical Perspective
Classification
Pathophysiology
Causes
Differentiating Hyperkalemia from other Diseases
Epidemiology and Demographics
Risk Factors
Screening
Natural history, Complications and Prognosis
Diagnosis
Diagnostic Study of Choice
History and Symptoms
Physical Examination
Laboratory Findings
Electrocardiogram
X-ray
Echocardiography and Ultrasound
CT scan
MRI
Other Imaging Findings
Other Diagnostic Studies
Treatment
Medical Therapy
Surgery
Primary Prevention
Secondary Prevention
Cost-Effectiveness of Therapy
Future or Investigational Therapies
Case Studies
Case #1
Hyperkalemia electrocardiogram On the Web
Most recent articles
Most cited articles
Review articles
CME Programs
Powerpoint slides
Images
American Roentgen Ray Society Images of Hyperkalemia electrocardiogram All Images X-rays Echo & Ultrasound CT Images MRI
Ongoing Trials at Clinical Trials.gov
US National Guidelines Clearinghouse
NICE Guidance
FDA on Hyperkalemia electrocardiogram
CDC on Hyperkalemia electrocardiogram
Hyperkalemia electrocardiogram in the news
Blogs on Hyperkalemia electrocardiogram
Directions to Hospitals Treating Hyperkalemia
Risk calculators and risk factors for Hyperkalemia electrocardiogram

VisualWikitext

Revision as of 23:19, 27 November 2011

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-In-Chief: Priyamvada Singh, M.B.B.S. [2]

Overview

Hyperkalemia (AE) or Hyperkalaemia (BE) is an elevated blood level (above 5.0 mmol/L) of the electrolyte potassium. Extreme degrees of hyperkalemia are considered a medical emergency due to the risk of potentially fatal arrhythmias. EKG is an important tool in diagnosing hyperkalemia howeever, EKG changes always do not correlate with the degree of hyperkalemia. Some of the EKG changes that can be seen associated with hyperkalemia are Peaked T waves, PR interval prolongation, QRS complex widening, absent P wave, sine wave pattern and sinus arrest.

Electrocardiogram

Electrocardiography (ECG) is generally done early to identify any influences on the heart, as hyperkalemia may cause fatal arrhythmias. With moderate hyperkalemia, there is reduction of the size of the P wave and development of tent-shaped T waves. Further hyperkalemia will lead to widening of the QRS complex, that ultimately may become sinusoidal in shape. There appears to be a direct effect of elevated potassium on some of the potassium channels that increases their activity and speeds membrane repolarization. Also, (as noted above), hyperkalemia causes an overall membrane depolarization that inactivates many sodium channels. The faster repolarization of the cardiac action potential causes the tenting of the T waves, and the inactivation of sodium channels causes a sluggish conduction of the electrical wave around the heart, which leads to smaller P waves and widening of the QRS complex.

Spcific findings include the following:

Tall, narrow, and peaked T waves

Earliest sign of hyperkalemia
Occurs with K > 5.5 meq/li
Differential diagnosis of this EKG change includes the T wave changes of bradycardia or stroke. Prominent U waves and QTc prolongation are more consistent with stroke than hyperkalemia.

Intraventricular conduction defect

- Observed when K > 6.5 meq/li
- There is a modest correlation of the QRS duration with serum K
- As the K rises, the QRS complexes may resemble sine waves
- Generally the widening is diffuse and usually there is no resemblance of the morphology to that of either LBBB or RBBB

Decrease of the amplitude of the P wave or an absent P wave

Decreased P wave amplitude occurs when the K is > 7.0 meq/li
P waves may be absent when the K is > 8.8 meq/li
The impulses are still being generated in the SA node and are conducted to the ventricles through specialized atrial fibers without depolarizing the atrial muscle
Moderate or sever hyperkalemia can cause sinus arrest ^[1]

ST segment changes simulating current of injury

Have been labeled the dialyzable current of injury

Cardiac arrhythmias: bradyarrhythmias, tachyarrhythmias, atrioventricular conduction defects

Occurs with severe hyperkalemia, not mild to moderate hyperkalemia

Tall, symmetric, narrow based T waves in a hyperkalemic patient.
A patient's EKG with hyperkalemia.
Same patient's EKG during treatment.

References

↑ Bonvini RF, Hendiri T, Anwar A (2006). "Sinus arrest and moderate hyperkalemia". Annales De Cardiologie Et D'angéiologie. 55 (3): 161–3. PMID 16792034. Unknown parameter |month= ignored (help)

[pmid16792034-1] Bonvini RF, Hendiri T, Anwar A (2006). "Sinus arrest and moderate hyperkalemia". Annales De Cardiologie Et D'angéiologie. 55 (3): 161–3. PMID 16792034. Unknown parameter |month= ignored (help)

[1]

@@ Line 2: / Line 2: @@
 {{CMG}}; '''Associate Editor(s)-In-Chief:''' [[Priyamvada Singh|Priyamvada Singh, M.B.B.S.]] [mailto:psingh@perfuse.org]
 ==Overview==
-'''Hyperkalemia''' (AE) or '''Hyperkalaemia''' (BE) is an elevated blood level (above 5.0 mmol/L) of the [[electrolyte]] [[potassium]]. The prefix ''hyper-'' means high (contrast with ''hypo-'', meaning low).  The middle ''kal'' refers to ''kalium'', which is [[Latin]] for potassium.  The end portion of the word, ''-emia'', means "in the blood". Extreme degrees of hyperkalemia are considered a [[medical emergency]] due to the risk of potentially fatal [[arrhythmia]]s.
+'''Hyperkalemia''' (AE) or '''Hyperkalaemia''' (BE) is an elevated blood level (above 5.0 mmol/L) of the [[electrolyte]] [[potassium]].  Extreme degrees of hyperkalemia are considered a [[medical emergency]] due to the risk of potentially fatal [[arrhythmia]]s. EKG is an important tool in diagnosing hyperkalemia howeever, EKG changes always do not correlate with the degree of hyperkalemia. Some of the EKG changes that can be seen associated with hyperkalemia are Peaked T waves, PR interval prolongation, QRS complex widening, absent P wave, sine wave pattern and sinus arrest.
 ==Electrocardiogram==
 [[Electrocardiography]] (ECG) is generally done early to identify any influences on the heart, as hyperkalemia may cause fatal [[arrhythmias]].  With moderate hyperkalemia, there is reduction of the size of the P wave and development of tent-shaped T waves.  Further hyperkalemia will lead to widening of the [[QRS complex]], that ultimately may become [[sinusoidal]] in shape.  There appears to be a direct effect of elevated potassium on some of the potassium channels that increases their activity and speeds membrane repolarization.  Also, (as noted [[#Pathophysiology|above]]), hyperkalemia causes an overall membrane depolarization that inactivates many sodium channels.  The faster repolarization of the cardiac [[action potential]] causes the tenting of the T waves, and the inactivation of sodium channels causes a sluggish conduction of the electrical wave around the heart, which leads to smaller P waves and widening of the QRS complex.