This could transform regenerative medicine, as the technology would allow for the 3D printing of new tissues that could repair or replace damaged body parts. That’s why OxSyBio, which was spun out from the university’s innovation arm, Oxford University Innovation, by Professor Hagan Bayley, the founder of university spinout Oxford Nanopore Technologies, is still working to raise funding for its important research.
“This deal provides the long-term capital required to deliver our ambition of building affordable tissues for patients,” said Professor Bayley. “The company has already made important strides in translating this technology into a real world product, and we look forward to continuing our close research collaboration.”
Fund manager Neil Woodford contributed £5 million to OxSyBio, only a day after news broke that his firm had sold out of a leading investment platform just before its stock market listing. Woodford’s investment occurred while questions were being asked regarding its ability to take part in investment rounds, as the fund has received £1 billion of redemptions in the past year.
Neil Woodford’s fund management firm has been hit by £1 billion in redemptions in the past year. [Image: Tom Stockill via The Times]
A fund spokesperson said, “When we sell, or don’t participate in a funding round, it is not a function of an inability to follow on, but typically a function of our preference to focus our capital on businesses earlier in their life cycle or which have the potential for more attractive returns.”
In fact, the fund has said that it’s “pleased” to invest in the biotech startup.
“Advances in synthetic biology, and the ability to print tissue-like material, now position this technology for commercial application,” Woodford said.
“Instead of having to wait for a donor, we could manufacture in a much more affordable way,” explained OxSyBio CEO Dr. Hadrian Green.
A portion of this latest investment round is subject to OxSyBio actually achieving some of its set milestones.
“The 3D printing of tissues from living cells in high-throughput formats is already proving interesting to academic and pharmaceutical research teams, with massive potential impact right across the board,” said Moray Wright, CEO at Parkwalk Advisors. “The concept of artificial cells has had a long history, but with OxSyBio’s platform technology, the concept is becoming a reality.”
OxSyBio hopes it can help solve the donor organ shortage. [Image: Andrew Milligan, PA via The Times]
“Biological functions are difficult to create using electrical or mechanical devices, therefore, harnessing the power of biological materials in non-living devices will be highly disruptive,” said Dr. Green. “This investment is testament to the power of the original ideas and the hard work of our Chief Technology Officer Sam Olof, the OxSyBio team and the founding lab to turn research into reality. OxSyBio wishes to pay tribute to Oxford University and the unique culture of patient capital, pioneered by Neil Woodford and IP Group, which is instrumental to delivering long-term transformational technologies.”
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