Add to ORKGThe heart pumps blood against the mechanical afterload from arterial resistance, and increased afterload may alter cardiac electrophysiology and contribute to life-threatening arrhythmias. However, the cellular and molecular mechanisms underlying mechanoelectric coupling in cardiomyocytes remain unclear. We developed an innovative patch-clamp-in-gel technology to embed cardiomyocytes in a three-dimensional (3D) viscoelastic hydrogel that imposes an afterload during regular myocyte contraction. Here, we investigated how afterload affects action potentials, ionic currents, intracellular Ca2+ transients, and cell contraction of adult rabbit ventricular cardiomyocytes. We found that afterload prolonged action potential duration (APD), increased...
The chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes interacti...
AbstractThe chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes i...
SummaryArrhythmogenesis during heart failure is a major clinical problem. Regional electrical gradie...
The heart pumps blood into circulation against vascular resistance and actively regulates the contra...
The heart pumps blood into circulation against vascular resistance and actively regulates the contra...
Cardiomyocytes contract against a mechanical load during each heartbeat, and excessive mechanical st...
The heart has two intrinsic mechanisms to enhance contractile strength that compensate for increased...
The ability of the heart to adapt to changes in the mechanical environment is critical for normal ca...
In cardiac myocytes, calcium (Ca2+) signalling is tightly controlled in dedicated microdomains. At t...
International audienceIn vivo, cardiomyocytes interact with surrounding extracellular matrix while p...
Mechanical forces will have been omnipresent since the origin of life, and living organisms have evo...
RationaleIntercellular uncoupling and Ca2+ (Ca) mishandling can initiate triggered ventricular arrhy...
<p>(A) We used our Cell-in-Gel system [<a href="http://www.plosone.org/article/info:doi/10.1371/jour...
Mechanoelectric feedback (MEF) in the heart operates through several mechanisms which serve to regul...
Excitation-contraction (EC) coupling in the heart has, until recently, been solely accredited to car...
The chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes interacti...
AbstractThe chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes i...
SummaryArrhythmogenesis during heart failure is a major clinical problem. Regional electrical gradie...
The heart pumps blood into circulation against vascular resistance and actively regulates the contra...
The heart pumps blood into circulation against vascular resistance and actively regulates the contra...
Cardiomyocytes contract against a mechanical load during each heartbeat, and excessive mechanical st...
The heart has two intrinsic mechanisms to enhance contractile strength that compensate for increased...
The ability of the heart to adapt to changes in the mechanical environment is critical for normal ca...
In cardiac myocytes, calcium (Ca2+) signalling is tightly controlled in dedicated microdomains. At t...
International audienceIn vivo, cardiomyocytes interact with surrounding extracellular matrix while p...
Mechanical forces will have been omnipresent since the origin of life, and living organisms have evo...
RationaleIntercellular uncoupling and Ca2+ (Ca) mishandling can initiate triggered ventricular arrhy...
<p>(A) We used our Cell-in-Gel system [<a href="http://www.plosone.org/article/info:doi/10.1371/jour...
Mechanoelectric feedback (MEF) in the heart operates through several mechanisms which serve to regul...
Excitation-contraction (EC) coupling in the heart has, until recently, been solely accredited to car...
The chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes interacti...
AbstractThe chaotic spatial disarray due to extracellular matrix expansion disrupts cardiomyocytes i...
SummaryArrhythmogenesis during heart failure is a major clinical problem. Regional electrical gradie...