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Enhancement of ventricular gap-junction coupling by rotigaptide
Xianming Lin
,
Christian Zemlin
, James K. Hennan
, Jørgen S. Petersen
, Richard D. Veenstra
Division of Cardiothoracic Surgery
Research output
:
Contribution to journal
›
Article
›
peer-review
35
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Scopus citations
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Biochemistry, Genetics and Molecular Biology
Conductance
100%
Steady State
100%
Cardiac Muscle Cell
100%
Whole Cell Patch Clamp
50%
Electric Potential
50%
Cardiac Dysrhythmia
50%
Cardiac Action Potential
50%
Effective Concentration
50%
Primary Cell Culture
50%
Antiarrhythmic Activity
50%
Keyphrases
Gap Junction Coupling
100%
Rotigaptide
100%
Concentration-dependent
20%
Therapeutic Concentrations
20%
Ventricular Cardiomyocytes
20%
Gap Junction Conductance
20%
Junction Current
20%
Effective Concentration
10%
Myocardium
10%
High Concentration
10%
Action Potential Propagation
10%
Pharmacological Dose
10%
Steady State
10%
Therapeutic Efficacy
10%
Primary Cells
10%
Ventricular Arrhythmia
10%
Cardiac Action Potential
10%
Culture Dish
10%
Steady-state Inactivation
10%
Inactivation Kinetics
10%
Reentrant Circuit
10%
Re-entrant
10%
Conduction Slowing
10%
Cell Pair
10%
Antiarrhythmic Effect
10%
Gap Junction Intercellular Communication
10%
Reverse Conduction
10%
Dual Whole Cell Patch-clamp
10%
Pharmacology, Toxicology and Pharmaceutical Science
Rotigaptide
100%
Combination Therapy
10%
Heart Arrhythmia
10%
Antiarrhythmic Agent
10%
Primary Culture
10%