Search results
Found 22672 matches for
Autoimmune Neurology Group
Research, diagnostic and testing service of autoantibodies associated with neurological diseases.
Oxford Epilepsy Research Group
We are a forward-looking dynamic group interested in all aspects of clinical and experimental epileptology with an emphasis on clinically relevant research. The Group draws together all relevant disciplines across Oxford University Hospitals and the University of Oxford.
Molecular Neurodegeneration Research Group
Our aim is to understand fundamental biological processes that could inform the development of targeted therapies and innovative biomarkers in neurodegenerative and neurogenetic disorders.
Vision Group
We use brain imaging techniques to investigate the human visual system, both in its normal state and in disease and disorder.
Translational Image Analysis Group
Our work focuses on translating imaging analysis methods to better understand processes such as brain maturation and ageing, and with a particular emphasis on neurodegenerative disorders (Alzheimer's, Parkinson's, Huntington's, ALS) and Big Data (UK Biobank, Lifespan HCP).
Critical Care Research Group
The Critical Care Research Group undertakes a programme of research which focuses on the identification of early patient deterioration and long-term clinical outcomes of patients who have been admitted to an Intensive Care Unit.
Cognitive Neurology Research Group
We want to understand how - and why - brain function can be disturbed to lead to poor memory and loss of motivation (apathy). Our aim is to develop new treatments for these conditions across a range of neurological disorders.
Neural Injury Group
Our aim is to gain a better understanding of the response of the peripheral nervous system to injury in order to develop strategies to promote peripheral nerve repair and to prevent the development of neuropathic pain. To do this we employ a variety of multi-disciplinary techniques ranging from transgenic models to human psychophysical studies and genetics.
Epilepsy Imaging Research Group
Combining state-of-the-art brain imaging methods, we aim to understand how functional networks in the brain respond and adapt to epilepsy and epilepsy-associated lesions.
Clinical Ophthalmology Research Group
The Clinical Ophthalmology Research Group is led by Professor Robert MacLaren. Over the last decade, Professor MacLaren has been at the forefront of translational medical research into novel clinical treatments for incurable retinal diseases, and is regarded internationally as a leader in the fields of retinal gene therapy, electronic retinas and ocular robotic surgery.
Retinal Neurobiology and Optogenetics Group
Our research focuses on light dependent signalling in the retina and brain, including visual and non-visual light detection. We are also examining novel opsin photopigments and exploring their applications to optogenetics.
Inherited Retinal Degeneration and Gene Identification
Our work involves the identification and characterisation of genes that play a role in the development, maintenance and function of the retina and includes both visual and non-image forming tasks.
Circadian and Visual Neuroscience (Foster)
Our research interests range across the neurosciences but with specific interests in circadian, visual and behavioural neuroscience.
Circadian and Visual Neuroscience (Peirson)
Our research focuses on the non-image forming function of the eye, including how the light environment regulates sleep and circadian rhythms and how these responses are affected in disease.
Retinal Cell Biology and Degeneration
The discovery of a novel inner retinal photoreceptor cell, driving non-visual functions, has had a significant impact on the retinal neuroscience field. My research focuses on understanding the physiology and function of these photosensitive retinal ganglion cells.
Ultra High-Field MRI Physics
We develop techniques and hardware on the Centre’s 7 Tesla MRI scanner to offer neuroscientists exciting new possibilities to image the structure, function and biochemistry of the human brain.