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We have a variety of postgraduate masters courses - research and taught - covering neuroscience-related areas, including distance learning courses. More information about these can be found at the individual programme websites.
Research led by Dr Martha Koerner (School of Biological Sciences) has resulted in fresh insights into the rare genetic disorder known as MeCP2 duplication syndrome, which mainly affects boys and leads to severe intellectual disability, seizures and impaired motor function, that could pave the way for new treatments for the condition.
Neuroscience research in Edinburgh takes place within a vibrant, integrated, and interdisciplinary research environment that encourages interaction between researchers working at all levels, from molecules, through synapses and networks, to cognit
Professor Andrew McIntosh (Centre for Clinical Brain Sciences), Professor Ian Deary (Centre for Cognitive Ageing and Epidemiology), Dr Michelle Luciano (Centre for Cognitive Ageing and Epidemiology) and colleagues (University of Edinburgh and King's College London) have published results from a study suggesting that people affected by depression may have genes associated with anxiety, worry and low mood. The DNA of over 300,000 people was analysed and many genes were found to link to neuroticism – characterised by feelings of anxiety, worry and guilt. The genes are also linked to depression. The findings help shed light on the causes of depression – which affects one in five people – and could provide information to help better diagnosis and treatment for individuals, scientists say.
Prof Andrew McIntosh (Centre for Clinical Brain Sciences - Psychiatry) and colleagues have publis
Staying Sharp is a new ‘one-stop-shop’ on the Age UK website, developed in partnership with the Centre for Cognitive Ageing and Cognitive Epidemiology (CCACE) at the University of Edinburgh, where you can find out what you need to know about thinking skills in later life.
Dr. Steven Pollard (MRC Centre for Regenerative Medicine) and colleagues have found two key molecules that drive the growth of an aggressive type of adult brain cancer.