£4m bid to find therapies that prompt tissues to repair
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- human health
Published: 10 May 2018
Stem cell scientists are to join forces with doctors to investigate methods of promoting tissue repair in the liver, lungs and joints.
The £4 million project seeks to better understand the environment in which stem cells grow in the body, known as the niche.
Experts will use their findings to design new therapies that mimic this environment, in order to stimulate repair mechanisms in tissues damaged by disease or injury.
Researchers at the University of Edinburgh are leading the collaboration, called the UK Regenerative Medicine Platform (UKRMP)-Engineered Cell Environment Hub. Teams hope to work with industry partners to test potential therapies in clinical trials.
The project – led by the University’s Medical Research Council Centre for Regenerative Medicine – includes experts at the Universities of Cambridge and Birmingham, King’s College London and UCL (University College London).
We’re bringing together a research network of regenerative biologists, tissue engineers and clinician scientists in order to understand why the niche environment does not always allow cells to grow and repair damaged tissues. We hope to develop novel treatments to promote the regeneration of tissues and organs.
Professor Stuart Forbes, Director, MRC Centre for Regenerative Medicine
The work is supported under Phase 2 of the UKRMP, funded by the Medical Research Council, the Biotechnology and Biological Sciences Research Council and Engineering and Physical Sciences Research Council.
Regenerative medicine holds enormous potential for delivering the treatments and cures of tomorrow. The UKRMP has been pivotal in bringing together and supporting the interdisciplinary science required to tackle the key bottlenecks in the field. Great strides have been made so far and this second tranche of UKRMP funding will enable the UK to continue to lead the way to new understanding, treatments and therapies.
Dr Rob Buckle, Chief Science Officer, Medical Research Council
Source: University of Edinburgh