Acquisition and Analysis Protocol Optimization of Neurophysiological Data Neurorehabilitation Settings
MEEGOPTI
1 other identifier
interventional
15
1 country
1
Brief Summary
The study aims to optimize and validate protocols for acquiring neurophysiological data, specifically resting state functional connectivity, using advanced research techniques (hdEEG and MEG) and a user-friendly device (MUSE). Previous studies have extensively explored functional connectivity repeatability in resting conditions using functional MRI, yet few have focused on hdEEG and MEG data. Additionally, the impact of subjects' eye conditions (open or closed) during resting state recordings on network identification remains debated. The investigation involves assessing the effect of eye conditions on brain network identification and determining the most stable and repeatable measures of functional connectivity over time. This analysis is crucial for discerning whether observed changes in patients' functional connections are intrinsic to the methodology or indicative of genuine physiological alterations. The study aims to optimize protocols for rehabilitation by evaluating changes in functional connectivity metrics during and between experimental sessions. Furthermore, it seeks to identify the conditions (eyes closed or open) that yield more reliable and repeatable functional measurements. Following the optimization of advanced techniques, the study explores the feasibility of utilizing the MUSE EEG system in clinical settings. MUSE, known for its portability and user-friendliness, has demonstrated quality in experimental psychology and clinical research. The objective is to establish relevant functional correspondences between measurements obtained through research techniques (hdEEG and MEG) and those acquired with MUSE. The primary goal is to establish a protocol highlighting subjects' responses to acoustic stimuli or a reproducible pattern of resting state activity. The secondary objectives include investigating temporal and spatial characteristics of neurophysiological signals in healthy subjects over time and defining prognostic biomarkers for monitoring patients undergoing rehabilitation. This comprehensive approach aims to enhance the understanding of resting state functional connectivity and its applications in clinical settings. Therefore, to meet these goals, the present study will consist of multiple recordings of brain activity: by high-density electroencephalography (hdEEG), magnetoencephalography (MEG), and low-density EEG with a MUSE handheld device, during five experimental blocks on healthy subjects.
Trial Health
Trial Health Score
Automated assessment based on enrollment pace, timeline, and geographic reach
participants targeted
Target at below P25 for not_applicable healthy
Started Mar 2024
Typical duration for not_applicable healthy
1 active site
Health score is calculated from publicly available data and should be used for screening purposes only.
Trial Relationships
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Study Timeline
Key milestones and dates
First Submitted
Initial submission to the registry
February 8, 2024
CompletedStudy Start
First participant enrolled
March 1, 2024
CompletedFirst Posted
Study publicly available on registry
March 6, 2024
CompletedPrimary Completion
Last participant's last visit for primary outcome
March 1, 2025
CompletedStudy Completion
Last participant's last visit for all outcomes
March 1, 2026
CompletedMarch 6, 2024
February 1, 2024
1 year
February 8, 2024
February 29, 2024
Conditions
Keywords
Outcome Measures
Primary Outcomes (3)
Neurophysiological data acquisition protocol - resting state
Resting state measure from MEEG data: Power spectrum density values (delta, theta, alpha, beta, gamma frequency)
T1: first week, T2: second week, T3: third week
Neurophysiological data acquisition protocol - resting state
Resting state measure from MEEG data: Connectivity values at source level (delta, theta, alpha, beta, gamma frequency)
T1: first week, T2: second week, T3: third week
Neurophysiological data acquisition protocol - auditory stimulation
ASSR response (as measured from auditory stimulation)
T1: first week, T2: second week, T3: third week
Study Arms (1)
Neurophysiological Recordings
EXPERIMENTALParticipants suitable for hdEEG, MEG, and MUSE recordings will first undergo a neuronavigation session, and then three identical neurophysiological data acquisition sessions, one for hdEEG, one for MEG, and one for MUSE. The sessions will take place in three consecutive weeks, once a week, taking care that they are made at the same time of day for each participant. Finally, a structural magnetic resonance imaging (MRI) recording will be obtained for each participant. Each neurophysiological data acquisition session will consist of 5 blocks: 4 eyes-open and eyes-closed resting-state blocks, and one passive auditory stimulation block. The four blocks in the resting condition will be performed first, to avoid interference due to the passive acoustic task. The order of blocks 1 and 2, and consequently also blocks 3 and 4, representing the open-eye and closed-eye conditions will be counterbalanced between subjects and between different sessions for the same subject.
Interventions
Eyes-open resting-state blocks: these blocks will last 5 minutes each. Subjects will be asked to relax and not think about anything specific, keeping their eyes open and staring at a white cross in the center of a light grey screen to limit their eye movements. Eyes-closed resting-state blocks: these blocks will last 5 minutes each. Subjects will be asked to relax and not think about anything specific, keeping their eyes closed. ASSR: this block will last approximately 6 minutes. Stimuli will consist of a train of sounds presented repeatedly at high frequency. MMN: this block will last approximately 3 minutes. Stimuli will consist of a train of equal sounds presented alternating with a 'deviant' (rarer frequency) sound.
Eligibility Criteria
You may qualify if:
- age between 18 and 65
- ability to sign an informed consent form
You may not qualify if:
- has suffered/is suffering from epileptic seizures.
- has had severe neurological or psychiatric disorders
- has eyesight problems that prevent him/her from reading, which she cannot correct with contact lenses (she will not be able to wear glasses during registration)
- habitually abused drugs or abused alcoholic substances
- has abused substances such as alcohol or drugs in the last three days
- is a wearer of hearing aids
- has metal and/or skull clips or other metal in any part of the head except the mouth
- has non-removable tattoos
- has piercings, earrings or other metal accessories that cannot be removed.
- is or could be pregnant (pregnancy in the first trimester)
- is a carrier of sickle cell anaemia
- is a cardiac pacemaker wearer or has an artificial heart valve
- has mechanical devices that he/she uses to administer medication
- has a surgical clip (vascular clips and metallic arterial prostheses made of ferromagnetic material)
- has a cochlear implant, a neurostimulator or a programmable hydrocephalic electrical conductor (shunt)
- +2 more criteria
Contact the study team to confirm eligibility.
Sponsors & Collaborators
- IRCCS San Camillo, Venezia, Italylead
- University Ghentcollaborator
- University of Padovacollaborator
Study Sites (1)
San Camillo IRCCS s.r.l.
Venice-Lido, Venice, 30126, Italy
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
February 8, 2024
First Posted
March 6, 2024
Study Start
March 1, 2024
Primary Completion
March 1, 2025
Study Completion
March 1, 2026
Last Updated
March 6, 2024
Record last verified: 2024-02
Data Sharing
- IPD Sharing
- Will not share