The study aims at mapping the magnetoencephalographic (MEG) activities induced in normal volunteers by tapping the finger .
Normal healthy (20) volunteers and tetraplegic patients(10) will be submitted to the temporo-spatial mapping of their brain activity, both sensory and motor, induced by a simple behavioral task, consisting on tapping with the finger on a detection pad. This will be done in a light and then dark environment, on a rythm spontaneous and then paced by sound bips. Accelerometric recording will provide the three dimensionnal displacements of the finger as well as the time code. Brain activity is simultaneously recorded using MEG (306 channels) and EEG (64 channels. Data will be processed by an INPLS algorithm to detect the predictors of activity, their location and time-course. 3D mapping data will be matched with the patient's anatomy provided by 1.5T MRI previously performed. The aim of the study is to prepare the strategy of implantation of multielectrodes ECoG implants to restore motility in tetraplegic patients in a human BCI protocol currently under development.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
OTHER
Masking
NONE
Enrollment
37
the acquisition of data will be performed in one unique session no drug administration no surgery
CLINATEC
Grenoble, France
MEG records for functional brain mapping
This study is not a therapeutic clinical study. No treatment is being delivered.
Time frame: one hour study
MEG measurements during psychomotor tasks
MEG records induced by finger tapping will be performed either randomly or following sound bips pacing.
Time frame: one hour study
EEG measurements during psychomotor tasks
EEG records induced by finger tapping will be performed either randomly or following sound bips pacing.
Time frame: one hour study
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