The CERSTIM study is a physiopatholgical study investigating transcranial alternating current stimulation in stroke patients in the cerebello-motor loop. The design is a cross over design testing two frequencies in the gamma band and one placebo. We will use behavioural data, functional MRI, and Electroencephalography to disentangle the effect of tACS and its frequency. Healthy participants will be also recruited.
Neuromodulation, by the means of Non-Invasive Brain Stimulation techniques, is a promising method to enhance motor recovery of the upper limb following a stroke. However, none of these techniques have yet been effectively transferred to the patient's bedside. An international group of experts has examined this issue, identifying barriers that need to be overcome for successful transferability. Among their findings, two were particularly emphasized: (i) the insufficient characterization of the mechanisms through which these stimulations are effective, and (ii) the comparison of stimulation parameters before moving on to larger samples. We have decided to use this model to study tACS (transcranial Alternating Current Stimulation) on the cerebellomotor network. The choice of tACS is justified by (i) its ability to "entrain" a neural network through its oscillations, (ii) its innovative nature, and (iii) its "wearable" characteristic, making it quickly transferable. The choice of the cerebellomotor network is based on literature data showing that (i) the cerebellum plays a crucial role in motor learning in healthy individuals (which is one of the substrates of post-stroke recovery), and (ii) cerebellomotor synchronization is a good prognostic indicator for the recovery of hand motor function. In light of these findings, we have decided to conduct a pathophysiological, bi-centric study to determine the cerebral mechanisms by which tACS acts on the cerebellomotor network. Three single sessions of tACS, each lasting 20 minutes, will be conducted 7-15 days apart, with a different frequency (50 or 70 Hz, corresponding to gamma oscillations) or a placebo frequency known as "sham." To understand the cerebral mechanisms, we will use Magnetic Resonance Imaging (MRI) and Electroencephalography (EEG). We will also examine a behavioral motor adaptation task on a tablet. The order in which the three frequencies are applied will be randomized This study will include 30 patients and 15 healthy subjects. The patients will be individuals who have suffered a stroke more than 6 months ago, resulting in a hand deficit without complete paralysis. The healthy controls will serve as a reference for mechanisms and imaging/electrophysiology data. We hypothesize the following: The mechanisms involved following cerebellomotor stimulation could include a modification of brain rhythms in the beta or gamma band during movement, an increase in activity in the primary motor cortex, or a change in the excitation-inhibition balance between the cerebellum and the primary motor cortex, or directly at the level of the primary motor cortex. These different mechanisms may vary depending on the frequency used. This research is part of the NEUROTECH Impulse Program managed by INSERM.
session of 20 minutes
ICM_ Institut du Cerveau et de la Moelle épinière, Hôpital Pitié, 47 Bd de l'Hôpital
Paris, France
RECRUITINGToNIC - Toulouse neuro Imaging center (Inserm)Pavillon Baudot
Toulouse, France
NOT_YET_RECRUITINGchange in activation in the primary motor cortex and cerebellum using functional magnetic Resonance
The activity of cerebellomotor regions is measured in functional task MRI with a hand motor task performed in the machine (squeezing a handle). The average BOLD signal in the cerebellum and M1 regions is measured using a general linear model adapted to functional MRI images such as SPM and its toolboxes.
Time frame: [Time Frame: within 1 hour before and after the intervention]
comparison between activation in the primary motor cortex and cerebellum using functional magnetic Resonance with the 50 Htz versus the 70 Htz frequency
The measurement method is identical to that used for the primary endpoint. Only the final statistical test changes (comparison of differences between each session). final change statistics (comparison of difference between each session).
Time frame: [Time Frame: within 1 hour before and after the intervention]
change in functional connectivity between the primary motor cortex and cerebellum using functional magnetic Resonance
The measurement method is based on functional task MRI. It involves a z-score of the correlation between the signal of 2 regions in time belonging to the motor network.
Time frame: [Time Frame: within 1 hour before and after the intervention]
change in functional connectivity using EEG after intervention and comparison between frequencies of tACS
The measurement method will be functional connectivity measured by an index called wSMI (weighted-Symbolic Mutual Information), which is an EEG marker. EEG data will be collected via the Starstim Neuroelectrics system and analyzed using in-house scripts (developed in-house) in Matlab and Python before and after each session, and we will also compare differences in change between the two sessions.
Time frame: [Time Frame: within 1 hour before and after the intervention]
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Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
45
change in behaviour after intervention and comparison between frequencies of tACS
behaviour will be assessed on a motor learning task (accuracy, reaction time). The measurement method will be a SRT (serial reaction time) task with visuomotor adaptation where the subject must obey these instructions. Error rate and reaction time will be measured. will be measured.
Time frame: [Time Frame: within 1 hour before and after the intervention]
comparison of the prespecified patients outcome with those of healthy subjects
All the above measurements will be carried out in a cohort of healthy subjects and compared with patients.
Time frame: [Time Frame: within 1 hour before and after the intervention]