Research Programmes
Do you know…
- … the scientists in CEITEC will be researching what happens in the brain when a human has realized that they have made a mistake?
- … there will be nearly 800 scientists in CEITEC?
- … in CEITEC we will be researching how the brain works and why some people are motivated and others are not?
- … thanks to CEITEC most of the diagnostic methods will be cheaper, faster and more comfortable for the patients?
- … 58 research teams will be created in CEITEC?
- … there will be 9 research programmes in CEITEC?
- … there will be more than 1,000 modern instruments in CEITEC?
- … more than 31,000 m2 of new infrastructure will be built in CEITEC?
- … more than 1,500 students will use the CEITEC infrastructure per year?
- … there will be 11 shared laboratories created in CEITEC?
- … CEITEC has 7 partners?
- … work will be carried out on self-cleaning surfaces in CEITEC?
- … CEITEC will co-operate closely with the industrial sector?
- … there will also be international scientists working in CEITEC?
- … CEITEC will support the international mobility of scientists?
- … the scientists in CEITEC are developing a subdermal chip which will analyse some life functions and will inform doctors from a distance?
- … the scientists in CEITEC are working on the development of a device which will enable physiotherapy from a distance?
- … the scientists at CEITEC are working on the development of biosensors?
- … CEITEC will be created in the south-Moravian city of Brno?
Neuroscience
Program coordinator
Program description
Neuroscience program will be established to promote collaborative theoretical, experimental, and clinical study of the brain from the molecular to the behavioral and cognitive levels.
Main goals
To promote collaborative theoretical, experimental, and clinical study of the brain from the molecular to the behavioural and cognitive levels. Extensive research will also be performed on cellular, molecular, and clinical aspects of damage and reparation of neural tissue. Interdisciplinary research will be completed in the fields of neurobiology, neuropsychopharmacology, functional neuroanatomy, neurophysiology, neuroimaging, neuropsychology, neurology, psychiatry, and computational neuroscience. Advanced biomedical imaging methods currently start to cross the formerly unreachable boundary of microscopic and molecular level. Their applications can substantially contribute to better understanding of physiological and pathological changes in the nervous system, multi-level study of animal and human behaviour, and translational research with a strong impact on the management of neuropsychiatric diseases The program is committed to providing excellence in research and education in neuroscience.
EUROPEAN UNION