Microfluidic vortex shedding: a low-cost, high efficiency method for genetic modification to support cell engineering for cell-based immunotherapies
Indee, Inc, Berkeley CA
Investigators
Abstract
Personalized gene-modified cell immunotherapies exist, but manufacturing has yet to be optimized to increase the broad availability of these life-saving therapies to patients in need. This proposal is focused on meeting this need with the continued development of microfluidic vortex shedding (?VS), a safe and rapid approach to genetically modify patient-derived immune cells. The long term objective of this proposal is to integrate ?VS into the manufacturing workflow of cell-based cancer immunotherapies. The goal of this contract proposal to demonstrate the feasibility of ?VS technology in generating representative Chimeric Antigen Receptor T cells (CAR-T) and T Cell Receptor T cells (TCR-T) cells. The research and development objectives are to: (1) demonstrate the technical performance of ?VS transfection of primary T cells with clinically relevant CAR and TCR constructs, and (2) demonstrate the functionality and safety of transfected T cells generated by ?VS in cell based assays. Pending the successful completion of these objectives, CAR-T and TCR-T cells will be engineered using patient-derived T cells, and commercial-scale processing and enrichment of sufficient genetically modified viable cells for clinical applications will be demonstrated.
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