A big congratulations to Vikash Kumar, chemical and biochemical engineering Ph.D., who emerged victorious at the 2023 BIOT Tank competition, organized by ACS BIOT (Division of Biochemical Technology of the American Chemical Society) at the 2023 ACS conference in San Francisco, CA.
BIOT Tank is ACS BIOT’s version of “Shark Tank”, where cutting edge start-ups in the fields of bioprocessing compete for the finale with their product and their business plan. There were more than twenty submissions for the 2023 competition, and four were selected to give their final pitch during ACS Fall 2023 in San Francisco. Unlike the other “Shark Tank”, ACS BIOT has two awards instead of investors investing, a judge’s choice award and an audience choice award. It provides a great platform for Vikash Kumar and team to reach a wider and like-minded audience which is an investment of its own kind. We won the audience choice awards. We were the only student team at the competition. The other teams giving their pitch, were established start-ups with millions in funding and an experienced team.
Kumar's company, Breathable Bioprocessing, showcased their groundbreaking solution: a breathable flask paired with a non-invasive sensor system designed for shake flask, t-flask, and G-Rex applications. His innovative solutions in bioprocessing captured the attention of both industry experts and peers, highlighting his commitment to advancing the field.
Watch Vikash’s video here: https://www.linkedin.com/posts/vikashk-as4711_bio-works-x-breathable-bioprocessing-at-acs-biot-activity-7097479059839811584-0t17/
Abstract:
Small-scale bioreactors like shake flasks, t-flasks, and G-rex are extensively used in upstream bioprocessing at academic labs and biopharma companies. However, their inability to support process monitoring due to design constraints and sterile requirements has made them function as black boxes during cell culture, leading to inefficiencies and inconsistent product quality.
To address these issues, a novel breathable membrane-based technology has been developed. This breakthrough allows for non-invasive monitoring of critical process parameters, such as dissolved oxygen and dissolved carbon dioxide, from the external environment of the vessels. For shake flasks, a breathable shake flask has been introduced, enabling measurements of dissolved O2 and CO2 through externally attached sensors. As for T-flasks and G-Rex, a sensor manifold placed at the bottom of the flask facilitates non-invasive monitoring of O2 and CO2 through gas diffusion processes without compromising the integrity of the ongoing processes.
This technological breakthrough promises to revolutionize bioprocessing by providing vital process knowledge and control. As a recent startup with three employees, the company is in early discussions with potential customers and collaborators to expand the technology's implementation globally. This innovation is expected to significantly improve the efficiency and reliability of bioprocessing studies, leading to better therapeutic product outcomes.