The cornerstone of the MESO-BRAIN project will be its use of pluripotent stem cells generated from adult human cells that have been turned into brain cells, which will form neural networks with specific biological architectures.Advance imaging and detection technologies developed in the project will be used to report on the activity of these networks in real time.
Such technology would mark a new era of medical and neuroscience research which would see screening and testing conducted using physiologically relevant 3D living human neural networks. In the future, this could potentially be used to generate networks capable of replacing damaged areas in the brains of those suffering from Parkinson’s disease, dementia or other brain trauma.
The MESO-BRAIN initiative, which will span three years, received €3.3million of funding from the European Commission as part of its prestigious Future and Emerging Technology (FET) scheme. Aston University is leading the project, with partners from industry and higher education across Europe: Axol Bioscience Ltd, Laser Zentrum Hannover, The Institute of Photonic Sciences, University of Barcelona and Kite Innovations. This unique partnership brings together stem cell biologists, neuroscientists, photonics experts and physicists.
Head of the MESO-BRAIN project, Professor Edik Rafailov, said: “What we’re hoping to achieve with this project has, until recently, been the stuff of science-fiction.
“If we can use 3D nanoprinting to improve the connection of neurons in an area of the brain which has been damaged, we will be in a position to develop much more effective ways to treat those with dementia or brain injuries.
“To date, attempts to replicate and reproduce cells in this way have only ever delivered 2D tissues or poorly defined 3D tissues that do not resemble structures found within the human body. The new form of printing we are aiming to develop promises to change this. The MESO-BRAIN project could improve hundreds of thousands of lives.”
Dr Eric Hill, Programme Director for MSc Stem cells and Regenerative Medicine at Aston University, commented: “This research carries the potential to enable us to recreate brain structures in a dish. This will allow us to understand how brain networks form during development and provide tools that will help us understand how these networks are affected in diseases such as Alzheimer’s disease.”
For more information, or to request an interview, please contact: Mohammed Sheriff email@example.com / 020 7089 2084 or 07557 426028
Notes to Editors
MESO-BRAIN, led by Aston University, targets a transformative progress in photonics, neuroscience and medicine by developing 3D human stem cell derived neural networks to treat conditions such as Parkinson’s disease, dementia and trauma. This research is led by Professor Edik Rafailov.
About Aston University
Founded in 1895 and a University since 1966, Aston University has always been a force for change. For 50 years the University has been transforming lives through pioneering research, innovative teaching and graduate employability success. Aston is renowned for its opportunity enabler through broad access and inspiring academics, providing education that is applied and has real impact on all areas of society, business and industry. True to Aston’s Coat of Arms which bears the word ‘Forward’, in 2016 Aston will hold a year-long anniversary celebration to recognise its heritage and achievements, but with a focus to drive forward the next stage in the University’s exciting journey. www.aston.ac.uk/50
Aston's Vice Chancellor and Chief Executive, Professor Alec Cameron, is the principal academic and executive officer of the University. Alec has overall responsibility for Aston's executive management and day-to-day direction.