NCT04727944

Brief Summary

The whole body's voluntary movements are controlled by the brain. One of the brain areas most involved in controlling these voluntary movements is the motor cortex and it is often viewed as the primary 'output' region of the neocortex. Motor cortical activity in the beta frequency range (13-30Hz) is a hallmark signature of healthy and pathological movement, but its behavioral relevance remains unclear. Such uncertainty confounds the development of treatments for diseases of movement which are associated with pathophysiological beta activity, including Parkinson's, therefore furthering understanding on the behavioral significance of activity in this range is now vital. Recently, it has become apparent that oscillatory beta activity actually occurs in discrete transient bursts, and that the summation of short-lasting, high-powered bursts of activity only appear to be sustained oscillations when averaged over multiple trials. In this study we will use neurophysiological and neuroimaging techniques such as electroencephalography (EEG), magnetoencephalography (MEG), and magnetic resonance imaging (MRI). All of these techniques have been identified as non-invasive techniques. By applying these methods, we will be able to analyze beta burst activity in order to determine how beta bursts influence naturalistic motor behavior. This project also encompasses the study of auditory and motor interactions doing an experimental task. The aim of the project is to get a better understanding of the role of motor-related beta activity during the preparation and generation of reach and grasp actions. These findings may inform novel treatments for pathophysiological disorders characterized by aberrant beta signaling, utilizing causal manipulation of the neural circuits implicated in the generation of beta activity. This project also has expected methodological repercussions. It will make it possible to validate the use of individualized head-casts worn during MEG acquisition for the study of the cortical control of naturalistic actions, and to create new analysis tools that allow an increase in the spatial resolution of MEG data.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
31

participants targeted

Target at P25-P50 for not_applicable

Timeline
Completed

Started Jul 2022

Typical duration for not_applicable

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

Click on a node to explore related trials.

Study Timeline

Key milestones and dates

First Submitted

Initial submission to the registry

January 18, 2021

Completed
9 days until next milestone

First Posted

Study publicly available on registry

January 27, 2021

Completed
1.5 years until next milestone

Study Start

First participant enrolled

July 28, 2022

Completed
2.4 years until next milestone

Primary Completion

Last participant's last visit for primary outcome

January 6, 2025

Completed
Same day until next milestone

Study Completion

Last participant's last visit for all outcomes

January 6, 2025

Completed
Last Updated

August 14, 2025

Status Verified

August 1, 2025

Enrollment Period

2.4 years

First QC Date

January 18, 2021

Last Update Submit

August 11, 2025

Conditions

Motor CortexPrimary Motor Cortex

Keywords

Beta burst activityNaturalistic motor behaviorNeuroimaging techniqueselectroencephalography (EEG)magnetoencephalography (MEG)magnetic resonance imaging (MRI)Reach and Grasp

Outcome Measures

Primary Outcomes (4)

  • Timing of beta bursts in motor cortex, measured with MEG before initiation of a movement

    Timing (ms, relative to motion onset) of beta bursts in motor cortex with MEGthan the one planned is cued and must be performed.

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Spatial location of beta bursts in motor cortex, measured with MEG before initiation of a movement

    Spatial location (mm, in a brain-centered reference frame) of beta bursts in motor cortex, measured with MEG

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Timing of beta bursts in motor cortex, measured with EEG before initiation of a movement

    Timing (ms, relative to motion onset) of beta bursts in motor cortex with EEG

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Spatial location of beta bursts in motor cortex, measured with EEG before initiation of a movement

    Spatial location (mm, in a brain-centered reference frame) of beta bursts in motor cortex, measured with EEG

    The data of subjects will be collected and analyzed through study completion an average of 2 years

Secondary Outcomes (10)

  • Timing of beta bursts in motor cortex, measured with MEG before initiation of a movement

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Spatial location of beta bursts in motor cortex, measured with MEG before initiation of a movement

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Timing of beta bursts in motor cortex, measured with EEG before initiation of a movement

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Spatial location of beta bursts in motor cortex, measured with EEG before initiation of a movement

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • Beta amplitude, measured with MEG

    The data of subjects will be collected and analyzed through study completion an average of 2 years

  • +5 more secondary outcomes

Study Arms (1)

MEG and EEG recordings on Healthy volunteers

EXPERIMENTAL

All subjects can participate in experiment 1 and/or 2. All analyses are intra-subject (no analyses are between-subject). * Experiment 1 will test the functional role of beta bursts in naturalistic action preparation, using a combined anatomical MEG-MRI approach which will be conducted in 2 sessions. * Experiment 2 will study the relationship between beta bursts and naturalistic action preparation using EEG.

Other: Reach and grasp tasks in healthy participants using MEG technique (Experiment 1)Other: Reach and grasp tasks in healthy participants using EEG technique (Experiment 2)

Interventions

Reach and grasp tasks in healthy participants using MEG technique (Experiment 1)OTHER

Human participants will perform reach and grasp movements to various objects (e.g. a cube, sphere, or rod) driven either by perceived action affordances, or instruction cues. A rotating carousel will be used to present subjects with various objects affording different types of grasps (e.g. a precision pinch, a whole hand 'power' grasp, or a tripod grasp). Prior to the experiment, subjects will be tested outside the scanner by asking them to grasp each object as they would naturally to ensure that each object elicits the expected grasp type. Subject-specific, 3D-printed head-casts will be created based on high resolution MRI scans from each subject, and worn by subjects during the MEG experiment (Experiment 1) to reduce within-session head movement associated with reaching and grasping. At the end of this session an experimental task is added: detection of tons in presence of multitonal masks, in order to verify how beta peaks might be generated by a stimulus auditory.

MEG and EEG recordings on Healthy volunteers
Reach and grasp tasks in healthy participants using EEG technique (Experiment 2)OTHER

Experiment 2 consists of a task of reaching for and grasping several objects (e.g. a cube, sphere, or rod) ; the task used for experiment 2 is the same as that used for experiment 1. EEG signals will be measured.

MEG and EEG recordings on Healthy volunteers

Eligibility Criteria

Age18 Years - 40 Years
Sexall
Healthy VolunteersYes
Age GroupsAdult (18-64)

You may qualify if:

  • For all experiments :
  • Healthy male or female
  • Aged 18-40 years
  • Registered with the French healthcare system
  • Motivated to participate in the study
  • Normal or corrected vision
  • Right-handed
  • Adequate knowledge of French to be able to follow directions
  • Subjects must have the minimal motor ability necessary to participate in the experiment
  • Subjects must be able to listen and understand the study instructions
  • Subjects must be able to give written informed consent before participation
  • Normal hearing

You may not qualify if:

  • For all experiments :
  • Subjects with characteristics incompatible with MEG/EEG and MRI :
  • Claustrophobia
  • Psychiatric pathology characterized including Alzheimer's disease, Parkinson's disease, multiple sclerosis (MS), or severe traumatic brain injury
  • Neuropsychological disorders or cognitive impairment including schizophrenia, bipolar disorder, seizures, epilepsy, sleep disorders
  • Regular use of neurodevelopment medicines (antidepressants, neuroleptics)
  • Subject has a history of skin disease or skin allergies (multiple or severe)
  • Subject working with metals in their professional lives
  • The subject had an MRI 2 weeks prior to experiment 1
  • Implanted material (any dental apparatus containing metal including or root canals or any metallic object, pacemaker, cochlear implanted in the body)
  • Pregnant women or lactating women (based on self-report)
  • subjects who are not able to tolerate sitting for 1 hour (the estimated length of the experiment)
  • Alcohol dependence
  • Subjects who, in the opinion of the investigator are not able or willing to comply with the protocol
  • For experiment 1:
  • +1 more criteria

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

Institut des Sciences Cognitives, Marc Jeannerod, UMR 5229 CNRS

Bron, 69500, France

Location

Study Officials

  • James BONAIUTO

    Institut des Sciences Cognitives, Marc Jeannerod, UMR 5229 CNRS

    PRINCIPAL INVESTIGATOR

Study Design

Study Type
interventional
Phase
not applicable
Allocation
NA
Masking
NONE
Purpose
BASIC SCIENCE
Intervention Model
SINGLE GROUP
Sponsor Type
OTHER
Responsible Party
SPONSOR

Study Record Dates

First Submitted

January 18, 2021

First Posted

January 27, 2021

Study Start

July 28, 2022

Primary Completion

January 6, 2025

Study Completion

January 6, 2025

Last Updated

August 14, 2025

Record last verified: 2025-08

Locations

FR(1)