Sep 30, 2024 · In this paper, we focus on the development of a system to aid the study of diseases that alter the generation of cardiac rhythm (Fig. 1). These ...

To remedy this problem, we propose to develop a heart-brain platform capable of reproducing the mechanisms involved in generating the heartbeat. The platform ...

Human iPSC-derived cardiac myocytes and sympathetic neurons replicated many features of the anatomy and (patho)physiology of these cells, where co-culture ...

To remedy this problem, we propose to develop a heart–brain platform capable of reproducing the mechanisms involved in generating the heartbeat. The platform ...

Oct 3, 2024 · The platform will be designed to operate in real time, with the most economical and integrated design possible. To achieve this, we are ...

A digital hardware system for real-time biorealistic stimulation on in vitro cardiomyocytes. https://doi.org/10.1007/s10015-024-00968-1.

“A digital hardware system for real-time biorealistic stimulation on in vitro cardiomyocytes”. Pierre-Marie Faure (University of Bordeaux, France). [GS19-2]

A digital hardware system for real-time biorealistic stimulation on in vitro cardiomyocytes ... stimulation of cardiomyocyte cells cultured on a Thin‐Film ...

Pierre-Marie Faure's 7 research works with 21 citations, including: A digital hardware system for real-time biorealistic stimulation on in vitro cardiomyocytes.

Missing: digital biorealistic