Project detail

Devices for Neurocontrol and Neurorehabilitation DeNeCoR

Duration: 01.06.2013 — 31.05.2016

Funding resources

Ministerstvo školství, mládeže a tělovýchovy ČR - Společné technologické iniciativy

- whole funder (2014-03-27 - 2016-05-24)

On the project

Aging of population results in an increased incidence of neurological diseases. Often, several diseases may affect the same patient, and the diagnosis techniques or the therapy for one may be incompatible with the techniques needed to address the other one. The objective of the ENIAC JU project DeNeCor is to demonstrate the coexistence by design between implanted neuromodulation therapy devices and key diagnostic systems. The DeNeCoR project addresses the diagnosis and treatment of neurological diseases which will have an increased incidence due to the aging society. DeNeCoR will develop, test and demonstrate neuro devices, systems and methods for a diverse set of diagnostic and treatment modalities.

Description in English
Aging of population results in an increased incidence of neurological diseases. Often, several diseases may affect the same patient, and the diagnosis techniques or the therapy for one may be incompatible with the techniques needed to address the other one. The objective of the ENIAC JU project DeNeCor is to demonstrate the coexistence by design between implanted neuromodulation therapy devices and key diagnostic systems. The DeNeCoR project addresses the diagnosis and treatment of neurological diseases which will have an increased incidence due to the aging society. DeNeCoR will develop, test and demonstrate neuro devices, systems and methods for a diverse set of diagnostic and treatment modalities.

Keywords
therapeutic treatment; magnetic resonance imaging; brain stimulation; NMRi device; magnetic coil; suplying generator; integrated circuit design and simulation

Key words in English
therapeutic treatment; magnetic resonance imaging; brain stimulation; NMRi device; magnetic coil; suplying generator; integrated circuit design and simulation

Mark

7H13014

Default language

Czech

People responsible

Čáp Martin, Ing., Ph.D. - fellow researcher
Fiala Pavel, prof. Ing., Ph.D. - fellow researcher
Fujcik Lukáš, doc. Ing., Ph.D. - fellow researcher
Vrba Radimír, prof. Ing., CSc. - principal person responsible

Units

division-MEL-SIX
- (2014-03-27 - not assigned)
division-TEE-SIX
- (2014-03-27 - not assigned)

Results

DREXLER, P.; ČÁP, M.; NEŠPOR, D.; FIALA, P.; BENES, V. Vývoj systému pro testování kompatibility v nukleární magnetické rezonanci. 45. seminář České elektrotechnické společnosti, Ústřední odborná společnost Mikrovlnná technika. Praha: Česká elektrotechnická společnost, 2016. s. 29-32. ISBN: 978-80-02-02684-6.
Detail

KLEDROWETZ, V.; FUJCIK, L.; PROKOP, R.; DVOŘÁK, V.: ASIC_Isource; ASIC realizace přeladitelného proudového zdroje. T10/6.27. URL: http://www.umel.feec.vutbr.cz/vyzkum/vysledky/funkcni-vzorky/. (funkční vzorek)
Detail

DREXLER, P.; ČÁP, M.; NEŠPOR, D.: MR RF test system; Objemový rezonátor pro testování kompatibility implantabilních zařízení v nukleární magnetické rezonanci. MR:Comp GmbH, Germany. (funkční vzorek)
Detail

DREXLER, P.; ČÁP, M.; NEŠPOR, D.: 3T birdcage rezonátor; Dvoukanálový rezonátor typu birdcage. ÚTEE FEKT, VUT v Brně. URL: http://www.utee.feec.vutbr.cz/?q=cs/dvoukanalovy-rezonator-typu-birdcage. (funkční vzorek)
Detail

FUJCIK, L.; KLEDROWETZ, V.; PROKOP, R.; DVOŘÁK, V.: BioEMG; Integrovaný systém pro zpracování EMG signálu. T10/6.27. (funkční vzorek)
Detail