A Tale About Shoaling Bio-inspired Materials: Enabling High Throughput Automated 3D Cell Culture

Entropic Biosciences, Inc. has designed a proprietary scaffold-free technology to grow high-throughput, automated, self-standing 3D cellular aggregates. We have used this platform technology to generate spheroids from various cancer cell types. This enables precision medicine and testing potential chemotherapeutics against 3D models derived from individual patients’ cancer and other verticles, including cellular agriculture and tissue engineering applications.

Amir Nasajpour

Chief Executive Officer and President

Entropic Biosciences, Inc

Amir Nasajpour is the Chief Executive Officer and President of Entropic Biosciences, Inc., based in Los Angeles, California. He is an Editorial Referee for the American Institute of Physics - Journal of Applied Physics. During his Ph.D., Amir created chemically defined biomaterials that orchestrate 3D cellular organization at unprecedented rates at UCLA under the direction of Professor Paul S Weiss. His previous research in self-assembly and bio-inspired design has been featured in over a dozen peer-reviewed publications, with media highlighting his research.

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A Tale About Shoaling Bio-inspired Materials: Enabling High-Throughput Automated 3D Cell Culture
Open to view video.  |   Closed captions available
Open to view video.  |   Closed captions available Entropic Biosciences, Inc. has designed a proprietary scaffold-free technology to grow high-throughput, automated, self-standing 3D cellular aggregates. We have used this platform technology to generate spheroids from various cancer cell types. This enables precision medicine and testing potential chemotherapeutics against 3D models derived from individual patients’ cancer and other verticles, including cellular agriculture and tissue engineering applications.
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