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Scientists have developed a cost efficient and effective way to grow and observe miniature brains in a 3D-printed vessel. A 3D-printed microfluidic bioreactor for organ-on-chip cell culture. (Image by ...

(Nanowerk News) Immobilizing fragile yet functional biomolecules within the microscopic confines of lab-on-a-chip devices has confounded researchers seeking to create efficient microfluidic platforms ...

April 6 (UPI) --Scientists have developed a new 3D-printed bioreactor, allowing researchers to observe tiny brains and other organoids as they grow. The novel bioreactor -- featured in a new paper, ...

MELVILLE, N.Y., July 12, 2022 – Biomicrofluidics, a publication of AIP Publishing, selected Ikram Khan as the winner of its 2021 Best Paper award. The designation highlights significant contributions ...

DUBLIN--(BUSINESS WIRE)--The "3D Cell Culture Market by Product (Hydrogel, Hanging Drop, Bioreactor, Microfluidics, Magnetic Levitation), Application (Cancer, Stem ...

Scientists say they have developed a novel 3D printed system for harvesting stem cells from bioreactors, offering the potential for high quality, wide-scale production of stem cells in Australia at a ...

WOBURN, Mass., Oct. 30, 2020 /PRNewswire/ -- Erbi Biosystems, a transformative microfluidic bioprocess instrumentation company based on technology developed at MIT, announced today the closing of a ...

In the past year, there's been a lot of hype around biomanufacturing — from growing cell-based meat to microbe-powered medicine manufacturing. But none of synthetic biology's darlings can exist ...

It is now possible to grow and culture human brain tissue in a device that costs little more than a cup of coffee. With a $5 washable and reusable microchip, scientists can watch self-organising brain ...

WASHINGTON, April 6, 2021 -- Scientists from MIT and the Indian Institute of Technology Madras have grown small amounts of self-organizing brain tissue, known as organoids, in a tiny 3D-printed system ...