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Gitte Moos Knudsen

Gitte Moos Knudsen
Gitte Moos Knudsen 2007.gif.jpg
Professor Gitte Moos Knudsen
(Image courtesy of Anders Gade)
Born (1959-02-15)15 February 1959
Lyngby, Denmark
Education University of Copenhagen, Rigshospitalet, NIH, MGH
Known for neurobiology of neurotransmission, with particular emphasis on molecular brain imaging
Medical career
Profession Neurologist
Institutions University of Copenhagen; CIMBI,
Specialism brain imaging
Neurotransmitters
Research neurotransmission, particularly serotonin
Notable prizes Niels Lassen Prize
Synthelabo RechercheAward
Monrad-Krohn Prize for the Advancement of Neurological Research

Gitte Moos Knudsen (legal name Karen Birgitte Moos Knudsen) is a Danish translational neurobiologist and clinical neurologist, and Clinical Professor and Chief Physician at the Department of Clinical Medicine, Neurology, Psychiatry and Sensory Sciences, at Copenhagen University Hospital. She graduated from Lyngby Statsskole, just north of Copenhagen, before gaining entrance to medicine, where she received her MD from University of Copenhagen in 1984, and became a Board certified user of radioisotopes in 1986. She sat the FMGEMS exam (Foreign Medical Graduates Examination in the Medical Sciences) (US) in 1989. She became Board certified in neurology in 1994 and received her DMSc (Dr.Med.) from University of Copenhagen in 1994. She currently resides in Copenhagen, and is married to Tore Vulpius. She has 3 children.

Knudsen is one of the leading figures in the neurosciences, assisting various European Union nations to prioritize research and grants. In addition, her research into the brain and its chemistry during depression, Alzheimer's Disease, and states induced by drugs such as GHB and ecstasy (MDMA) is at the forefront of world knowledge, and she is a noted scholar in these areas, publishing many papers on each topic. Her interest in brain imaging has led to a deeper understanding of how many receptors act within the brain, and she has produced studies using SPECT, PET, and MRI results to interpret these. A key issue is that the latest brain research not only contributes to increased understanding of brain functions, but is also used to attempt to explain what it means to be human.


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