Neuromodulation of Motion Illusions (Vection)

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

UNKNOWN

Clinical Phase

NA

Total Enrollment

90 participants

Study Classification

INTERVENTIONAL

Study Start Date

2022-01-30

Study Completion Date

2024-01-30

Brief Summary

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Virtual reality systems or simulators are more and more frequently used in the field of learning but also in motor rehabilitation. One of the key points of the success of these systems is the experience of "presence" which is associated with the capacity of these technologies to develop in the observer, who is static, the sensation of moving in the virtual environment (vection). However, the simulation generates a sensory conflict (an optical flow specifying self-motion and vestibular stimuli specifying body immobility). This conflict influences the temporal characteristics of the vection and consequently modifies the way users act in their virtual environment. Thus, contrary to a real situation, vection does not occur instantaneously with the appearance of a visual movement. Moreover, the visual stimulus often generates alternating periods of perception of movement of the environment and of oneself (bistable perception) which can lead to "simulator sickness", a disabling situation for the user. Thus, as vection is an essential element to allow an "optimal transfer of learning" from the simulator to reality, it may be important to promote its emergence while limiting its bistability.

The aim of this project is to study the inhibitory or facilitative modulation of the emergence of the vection phenomenon by the use of non-invasive cortical stimulation techniques (transcranial electrical stimulation (tES), transcranial alternative current stimulation (tACS), and repeated transcranial magnetic stimulation (rTMS)).

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Detailed Description

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Conditions

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Healthy

Study Design

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Allocation Method

NA

Intervention Model

SINGLE_GROUP

Primary Study Purpose

BASIC_SCIENCE

Blinding Strategy

NONE

Study Groups

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Neuromodulation of vection

Group Type EXPERIMENTAL

non-invasive neuromodulation

Intervention Type DEVICE

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

electroencephalography

Intervention Type DEVICE

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

anatomical MRI

Intervention Type DEVICE

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

Interventions

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non-invasive neuromodulation

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

Intervention Type DEVICE

electroencephalography

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

Intervention Type DEVICE

anatomical MRI

The modulations of the vection phenomenon will then be studied over two sessions of 1h30, separated by a minimum of 3 to a maximum of 15 days (the first session will be performed following the MRI). Each session will include: the installation of an EEG headset and the parameterization of the stimulation (30 min), then a phase of recording of the vection with neuromodulation (1h) according to 2 experimental conditions:

* Experiment 1: recording of vection at rest (20 min), then during and after neurostimulation by tES (20 min). Active and sham (placebo) stimulation will be tested separately during the two sessions (counterbalanced order).
* Experiment 2: recording of vection during neuromodulation by rTMS triggered in real time (1h). Triggering will be based on behavioral response (experiment 2a) or oscillatory activity detection (experiment 2b). Active and sham (placebo) stimulation will be tested in both sessions (randomized order).

Intervention Type DEVICE

Other Intervention Names

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rTMS tACS EEG

Eligibility Criteria

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Inclusion Criteria

* Healthy subjects aged 18 to 40 years
* Right-handed subjects
* Signed informed consent,
* Medical examination performed prior to participation in the research,
* Affiliation to or beneficiary of a social security plan

Exclusion Criteria

* Contraindications (CI) to the practice of MRI, EEG, TMS \& tES
* Existence of a severe general condition: cardiac, respiratory, hematological, renal, hepatic, cancerous,
* Regular use of anxiolytics, sedatives, antidepressants, neuroleptics,
* Characterized psychiatric pathology,
* Ingestion of alcohol before the examination,
* Pregnant, parturient or breastfeeding women
* Person deprived of liberty by judicial or administrative decision, person under a legal protection measure (under guardianship or curators)
* Participation in other interventional research protocols in progress with an exclusion period or in the previous week Subject who would receive more than 4500 euros of compensation due to his participation in other research involving the human person in the 12 months preceding this study

Minimum Eligible Age

18 Years

Maximum Eligible Age

40 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes