A University of Nottingham researcher has been awarded more than £440,000 by the Parkinson's Disease Society (PDS) to investigate the causes of the condition.
Dr Lynn Bedford, of the School of Biomedical Sciences, will lead a five-year study after receiving an award from the PDS under its Career Development Awards Scheme, which aims to support the careers of the UK’s most promising individuals working in Parkinson’s research.
Dr Bedford will be using a new genetic model of Parkinson’s to further understanding of how and why nerve cells die. Her research will also take a closer look at the reasons for the formation of Lewy bodies — a build-up of proteins within nerve cells — in the brains of people with Parkinson’s.
This study is aimed at providing a platform for the development of drugs to stop nerve cell death.
Dr Kieran Breen, Director of Research and Development for the Parkinson’s Disease Society, said: “Researchers are the people who make the discoveries and forge the links between different research areas so clearly investing in people is key to furthering our understanding of Parkinson’s.
“The Career Development Awards Scheme is aimed at increasing the number of people involved in Parkinson’s research and encouraging the UK’s top researchers of the future to specialise in Parkinson’s.”
Parkinson’s is a progressive neurological condition caused by the death of nerve cells in the brain that produce the chemical dopamine, which is responsible for movement. The condition affects movements such as walking, talking, and writing. Its three main symptoms are tremor, muscular rigidity, and slowness of movement. Parkinson’s is a very individual condition and the rate and nature of progression varies from person to person.
Dr Bedford said: “I have been involved in Parkinson’s disease research for the last five years so I am delighted to get this Career Development Award. This novel model of Parkinson’s will be crucial in helping to uncover and study why nerve cells die in the region of the brain affected in Parkinson’s disease.