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Postrepolarization refractoriness in the ventricular muscle
V. Kowtha,
J. K.J. Li
School of Engineering, Biomedical Engineering
Research output
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Paper
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peer-review
1
Scopus citations
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Keyphrases
Ventricular muscle
100%
Post-repolarization Refractoriness
100%
Cellular Communication
33%
Potassium Channel
33%
Calcium Ion
33%
Ventricular Arrhythmia
33%
Potassium Ion
33%
Concentration Change
33%
Two-dimensional Analysis
33%
Action Potential Duration
33%
Repolarization
33%
Plateau Phase
33%
Inward Current
33%
Subthreshold Current
33%
Slow Recovery
33%
Medicine and Dentistry
Calcium Ion
100%
Potassium Ion
100%
Potassium Channel
100%
Repolarization
100%
Action Potential Duration
100%
Heart Ventricle Arrhythmia
100%
Biochemistry, Genetics and Molecular Biology
Cardiac Dysrhythmia
100%
Potassium Channel
100%
Experimental Model
100%
Inactivation Time Constant
100%
Repolarization
100%
Action Potential Duration
100%