Build-up of Action Representation in Autism Spectrum Disorders (ASD-BARN)
Build-up of Action Representation During Neurodevelopment: Dysfunctions in Autism Spectrum Disorders?
Autistic spectrum disorders (ASD) are highly debilitating developmental syndromes which core feature is social and communications disorders. Motor skill impairments are frequently described in autism, but few studies have addressed the question of their origin and their specificity. Furthermore, it is not clear whether motor problems encountered in autism are related to dyspraxia, or if they present with specific features. This project aims at deciphering the origin of motor problems encountered by children who grow-up with autism in order to propose early interventions that could influence the other developmental trajectories, such as the social one.
Brain dynamics during sensori-motor learning is explored by applying magnetoencephalography (MEG) during the Bimanual Load-Lifting paradigm. Different motor processes namely: proprioceptive monitoring, use and update of a sensori-motor representation, anticipatory executive control will be correlated to brain oscillation modulation, both topographically and temporally. Two groups of children (aged between 7 and 12) are compared: a group of children with ASD and a control group of typically developing children.
연구 개요
상태
정황
연구 유형
등록 (실제)
단계
- 해당 없음
연락처 및 위치
연구 장소
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Bron, 프랑스, 69500
- CH Le Vinatier
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참여기준
자격 기준
공부할 수 있는 나이
건강한 자원 봉사자를 받아들입니다
연구 대상 성별
설명
Inclusion Criteria:
- Control group: children aged between 7 and 12
- Case group: children aged between 7 and 12 with a diagnostic of Autism Spectrum Disorders
Exclusion Criteria:
- Control group: presence of a neurological pathology, mental retardation or language and motor developmental delay
- Case group: presence of a neurological pathology, mental retardation
공부 계획
연구는 어떻게 설계됩니까?
디자인 세부사항
- 주 목적: 기초 과학
- 할당: 무작위화되지 않음
- 중재 모델: 병렬 할당
- 마스킹: 없음(오픈 라벨)
무기와 개입
참가자 그룹 / 팔 |
개입 / 치료 |
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가짜 비교기: Control group
Children with a typical development.
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Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
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활성 비교기: Case group
Children with Autism Spectrum Disorders.
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Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
Kinematics measures, concomitant to Magnetoencephalography (MEG, measures oscillatory rhythms in the brain) and Magnetic Resonance Imaging (MRI, used to provide an anatomical image of each participant's brain to be coregistered with oscillatory measurements) recordings, enable to track sensori-motor learning based on performance, and oscillatory changes (with high temporal and spatial resolution).
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연구는 무엇을 측정합니까?
주요 결과 측정
결과 측정 |
측정값 설명 |
기간 |
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Changes of cerebral oscillations in three frequency bands (alpha, beta, gamma) during sensori-motor learning.
기간: Day 1
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Oscillatory measures are computed in the sensor and source space in order to identify the regions involved in the sensori-motor learning in the control group and in the ASD group.
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Day 1
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2차 결과 측정
결과 측정 |
측정값 설명 |
기간 |
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Correlation between oscillatory measures and learning performance.
기간: Day 1
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Kinematic recordings enable to measure the learning performance at the end of the experiment.
This measure will be correlated with oscillatory changes during the task.
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Day 1
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공동 작업자 및 조사자
수사관
- 수석 연구원: Sandrine SONIE, MD, CH Le Vinatier
연구 기록 날짜
연구 주요 날짜
연구 시작 (실제)
기본 완료 (실제)
연구 완료 (실제)
연구 등록 날짜
최초 제출
QC 기준을 충족하는 최초 제출
처음 게시됨 (실제)
연구 기록 업데이트
마지막 업데이트 게시됨 (실제)
QC 기준을 충족하는 마지막 업데이트 제출
마지막으로 확인됨
추가 정보
이 연구와 관련된 용어
추가 관련 MeSH 약관
기타 연구 ID 번호
- 69HCL16_0677
약물 및 장치 정보, 연구 문서
미국 FDA 규제 의약품 연구
미국 FDA 규제 기기 제품 연구
이 정보는 변경 없이 clinicaltrials.gov 웹사이트에서 직접 가져온 것입니다. 귀하의 연구 세부 정보를 변경, 제거 또는 업데이트하도록 요청하는 경우 register@clinicaltrials.gov. 문의하십시오. 변경 사항이 clinicaltrials.gov에 구현되는 즉시 저희 웹사이트에도 자동으로 업데이트됩니다. .
Behavioral assessments에 대한 임상 시험
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Education University of Hong KongUniversity of Texas at Austin; City University of Hong Kong모병
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Square2 Systems, Inc.National Institute on Drug Abuse (NIDA)모집하지 않고 적극적으로
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University of Kansas Medical CenterNational Institute of General Medical Sciences (NIGMS)아직 모집하지 않음고혈압(& [본태성 고혈압])
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Virginia Polytechnic Institute and State UniversityCarilion Clinic; Thomas Jefferson University; Mazzoni Health Center; Diversity Camp, Inc.종료됨