GGrantIndex
← Search

Cellular Electrophysiological Purification Array for Preclinical Therapies

$223,883R43FY2019GMNIH

Biopico, Irvine CA

Investigators

Abstract

Cellular Electrophysiological Purification Array for Preclinical Therapies Abstract: Replacement of dead or dysfunctional cardiac myocytes through disruptive cell-based therapies has become an emerging and exciting strategy for the treatment of heart failure through organ regeneration. However, there are many challenges that should be addressed during the process of cell generation and characterization in preclinical testing as a prelude to clinical testing. For these tests, highly viable and functional stem cell derived cardiomyocytes will have greater potential to regenerate and execute extensive repair after myocardial infarction. With the preliminary results of technical feasibility of a label- free electrical field potential marker based purification of induced pluripotent stem cells derived cardiomyocytes, Biopico systems Inc has increased hope for revolutionary regenerative treatments for heart diseases through preclinical testing. In this Small Business Innovation Research effort, Biopico will further develop its `on the fly single cell based electrophysiological sorting' system as a high specific and throughout front-end tool to focus on the preclinical clinical market. With the establishment of an effective functional electrophysiological marker based separation method to isolate differentiated cardiomyocytes exhibiting voltage gated ion-channels, a major milestone to sort and validate the cells for preclinical studies will be achieved. The focus of this effort will be to develop a commercial system with optimized and scaled up performance. This Cellular Electrophysiological Purification Array system will be developed to deploy in preclinical studies that will bring revenues through partnerships and sales. To accomplish this commercialization, Biopico Systems Inc has teamed up with academic and industry collaborators for validating the label-free cell sorting system for preclinical market. With the value proposition to sort therapeutic cells at high specificity, viability and functionality, the system will have applications in preclinical testing for patient's safety, therapeutic efficacy and engrafting.

View original record on NIH RePORTER →