Add to ORKGLate sodium current (INaL) is a small sustained inward current observed during the cardiac action potential plateau phase following decay of the early peak INa. The endogenous INaL is relatively small in normal hearts but exerts functionally significant effects on cardiomyocyte repolarization with potentially pro-arrhythmic effects in hearts with reduced repolarization reserve. Enhanced INa,L occurs in long QT syndrome 3 (LQTS 3) patients, and under a number of pathological and pharmacological cardiovascular conditions, including bradycardia, myocardial ischemia, reperfusion injury, and heart failure. It may there play important roles in arrhythmogenesis and mechanical dysfunction. Experimental and clinical research suggests that INaL inhib...
The cardiac action potential (AP) is initiated by the depolarizing inward sodium current (I(Na)). Th...
AbstractIn this article we review the late Na current which functionally can be measured using patch...
Slowly inactivating Na+ channels conducting "late" Na+ current (INa,late) contribute to ventricular ...
© 2008 British Pharmacological SocietyThe sodium current in the heart is not a single current with a...
Objective Proarrhythmic risk of QT prolonging drugs varies significantly from one to the others and ...
Heart failure, is associated with high mortality as a result of contractile dysfunction (pump failur...
Selective inhibition of cardiac late sodium current (INaL) is an emerging target in the treatment of...
Cardiac arrhythmias associated with intracellular calcium inhomeostasis are refractory to antiarrhyt...
RationaleThe antianginal ranolazine blocks the human ether-a-go-go-related gene-based current IKr at...
The cardiac late Na (+) current is generated by a small fraction of voltage-dependent Na (+) channel...
Inhibition of cardiac late sodium current (late I-Na) is a strategy to suppress arrhythmias and sodi...
While recent advances clarified the molecular and cellular modes of action of antiarrhythmic drugs (...
Background and Purpose: Enhanced late sodium current (late INa) in heart failure and long QT syndrom...
Aims In heart failure (HF), enhanced persistent Na+ current (I-NaL) exerts detrimental effects on ce...
Background: Long QT syndrome mutations in the SCN5A gene are associated with an enhanced late sodium...
The cardiac action potential (AP) is initiated by the depolarizing inward sodium current (I(Na)). Th...
AbstractIn this article we review the late Na current which functionally can be measured using patch...
Slowly inactivating Na+ channels conducting "late" Na+ current (INa,late) contribute to ventricular ...
© 2008 British Pharmacological SocietyThe sodium current in the heart is not a single current with a...
Objective Proarrhythmic risk of QT prolonging drugs varies significantly from one to the others and ...
Heart failure, is associated with high mortality as a result of contractile dysfunction (pump failur...
Selective inhibition of cardiac late sodium current (INaL) is an emerging target in the treatment of...
Cardiac arrhythmias associated with intracellular calcium inhomeostasis are refractory to antiarrhyt...
RationaleThe antianginal ranolazine blocks the human ether-a-go-go-related gene-based current IKr at...
The cardiac late Na (+) current is generated by a small fraction of voltage-dependent Na (+) channel...
Inhibition of cardiac late sodium current (late I-Na) is a strategy to suppress arrhythmias and sodi...
While recent advances clarified the molecular and cellular modes of action of antiarrhythmic drugs (...
Background and Purpose: Enhanced late sodium current (late INa) in heart failure and long QT syndrom...
Aims In heart failure (HF), enhanced persistent Na+ current (I-NaL) exerts detrimental effects on ce...
Background: Long QT syndrome mutations in the SCN5A gene are associated with an enhanced late sodium...
The cardiac action potential (AP) is initiated by the depolarizing inward sodium current (I(Na)). Th...
AbstractIn this article we review the late Na current which functionally can be measured using patch...
Slowly inactivating Na+ channels conducting "late" Na+ current (INa,late) contribute to ventricular ...