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Collaborative Funding (18)
We are very grateful for the generous support provided for equipment and research projects from a wide range of contributors. The support is crucial for maintaining a high level of quality and research activity. In return, we do the best we can to help patients and advance research. All collaborative grants above 100.000 DKK are mentioned on this page. Please see the DRCMR annual reports for complete lists of contributors.
Funding (142)
We are very grateful for the generous support provided for equipment and research projects from a wide range of contributors. The support is crucial for maintaining a high level of quality and research activity. In return, we do the best we can to help patients and advance research. All grants above 100.000 DKK are mentioned below. Please see the DRCMR annual reports for complete lists of contributors.
Forsøgspersoner (4)
Her vil du finde opslag, såfremt der søges forsøgspersoner til et projekt.
The overall focus of the group is to advance the technology and thereby unleash the full potential of ultra-high field MR. Ultra-high field MR offers unique opportunities for revealing new insight into the relationship between structure and function of the human body as part of our clinical research studies.
At DRCMR, we are very fond of open source, and a large part of our infrastructure is based on Linux, FreeBSD, and PostgreSQL.
History of the Danish Research Centre for Magnetic Resonance
Written by Lise Skjold AndersenIn 1985 the DRCMR was inaugurated thanks to a generous donation from the flamboyant travel agency owner Simon Spies of a 1.5 tesla magnetic resonance scanner to Hvidovre Hospital – the first MRI scanner in Denmark.
Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disease causing widespread tissue damage in the brain and spinal cord. This disease is the leading cause of non-traumatic neurological disability among young adults. MRI plays a key role in the diagnosis, management and research of MS.
Electroencephalography (EEG) is a method group with the aim of supporting the research at DRCMR relative to EEG.
Transcranial Brain Stimulation (TBS) can influence the ongoing electrical activity of the human brain.
As of 2015, the DRCMR operates one of the strongest MR scanners worldwide and the only one of its caliber in Denmark. The purchase of ths state-of-the-art MR system from Phillips Healthcare was made possible by the John and Birthe Meyer Foundation and the Danish Agence for Science, Technology and Innovation.
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Our primary research interest concerns the brain’s reward system. Put simply: how does it work, and why? We explore computational theories that constrain how it should work and then test the predictions of these theories against behavioural, physiological, and neuroimaging data.
At DRCMR, we have seven MR scanners, including a 7T scanner
The Movement Disorders group bridges clinical, computational and cognitive neuroscience to advance the pathophysiological understanding of movement disorders.
Combining neuroimaging, neuromodulation and computational modelling of sensorimotor networks, the Control of Movement (CoMo) group studies how the brain orchestrates movements.