The structural underpinnings of disinhibition in dystonia
肌张力障碍去抑制的结构基础
基本信息
- 批准号:10524586
- 负责人:
- 金额:$ 19.55万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2022
- 资助国家:美国
- 起止时间:2022-08-20 至 2027-07-31
- 项目状态:未结题
- 来源:
- 关键词:AddressAdolescentAdultAffectAgonistAnatomyAnimalsAssessment toolAwardBase of the BrainBehaviorBiometryBrainBrain InjuriesBrain regionCerebral PalsyCervicalCervical DystoniaChildClinicalContralateralCorpus CallosumCorpus striatum structureDeep Brain StimulationDiffusionDiffusion Magnetic Resonance ImagingDiseaseDisinhibitionDystoniaElectrophysiology (science)EnsureExperimental DesignsFailureFoundationsFunctional Magnetic Resonance ImagingGlobus PallidusGoalsGraphHumanImageImpairmentIndividualInheritedInterventionIpsilateralK-Series Research Career ProgramsKnowledgeLeadLiceLimb DystoniaLimb structureLinkMentorsMethodsMissionModelingMotorMotor ActivityMotor CortexMotor outputMovementMovement DisordersMuscleNational Institute of Neurological Disorders and StrokeNeuroanatomyNeurosciencesOperative Surgical ProceduresPainParkinson DiseasePathway AnalysisPatient SelectionPatientsPatternPersonsPharmaceutical PreparationsPopulationPositioning AttributePosturePreventionPrincipal Component AnalysisRegimenResearchResearch PersonnelRestRoleSchoolsSeedsSideSignal TransductionSiteSourceSpasmStrokeStructural defectStructureSymptomsSyndromeSystemTechniquesThalamic structureTissuesTrainingWithdrawalWorkantagonistbasebrain abnormalitiescareerchronic paincohortdisabilityenvironmental enrichment for laboratory animalsfunctional MRI scanimprovedmotor controlnervous system disorderneuroimagingneuromechanismneuropathologynovelnovel therapeuticssensory cortexsensory feedbacksensory mechanismskillssource localizationstriosometooltractography
项目摘要
PROJECT SUMMARY / ABSTRACT
Dystonia is a brain-based disorder that leads affected muscles to twist and spasm, contorting the sufferer
into painful and disabling positions. Dystonia afflicts 1 in 1000 people (the third-most common movement
disorder). It can occur in isolation or be a symptom of many other neurological disorders (eg, stroke, cerebral
palsy, Parkinson disease). Chronic pain, disability, and withdrawal from school or work are common, and in
severe cases, dystonia can be fatal. A shared electrophysiologic abnormality links many types of dystonia:
local and long-range disinhibition. This led to the hypothesis that impaired inhibition, and a related finding,
poorly-refined sensory feedback, leads to abnormal co-contraction of agonist and antagonist muscles,
producing the contorting movements of dystonia. However, impaired inhibition is only one step in a mechanistic
cascade that leads to dystonia – the underlying structural abnormalities that produce disinhibition are unknown.
Structural abnormalities in neurological disorders point the way to improved therapies. This proposal will use
MRI to investigate brain regions that are potential anatomical substrates for impaired inhibition, with a larger
goal of identifying new targets for dystonia treatment and prevention. We will address two key gaps in current
dystonia knowledge: 1) the role of interhemispheric projections in regulating cortical motor activity (long-range
disinhibition); 2) the role of the striatal compartments, striosome and matrix, in inhibiting unwanted movements.
The study will employ novel structural, diffusion, and functional MRI techniques in two dystonia patient cohorts:
we will carry out our imaging assessments in the most common forms in adults, cervical dystonia, and children,
limb dystonia. These clinically-distinct populations will help determine which abnormalities are shared
(mechanisms generalizable to other dystonias) and which are specific to certain types of dystonia.
The mission of this Mentored Career Development Award is to seek fundamental knowledge about the
brain’s inhibitory control of movement, and to use that knowledge to reduce the burden of dystonia. This goal
parallels that of the National Institute of Neurological Disorders and Stroke: to investigate the neural
mechanisms of sensory and motor circuits that can be compromised by disease. The proposal is tailored to my
educational and training needs, ensuring that I will be prepared to succeed as an independent investigator
utilizing the tools of systems neuroscience. With this award, I will gain essential training in: 1) biostatistics and
network assessment tools such as principal component analysis, graph theoretical analysis, and causal
inference modeling; 2) the experimental design and implementation of functional MRI (fMRI), including both
task-based and resting state methods; 3) knowledge of the structure and connectivity of the striatum, pallidum,
and thalamus. I will benefit from an environment enriched in neuroimaging, movement disorders, and
neurodevelopmental expertise, where I can build a substantial foundation for a successful independent
research career devoted to improving the therapies available for treating dystonia.
项目摘要/摘要
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Jeffrey L. Waugh其他文献
Association between Regulator of G Protein Signaling 9–2 and Body Weight
G 蛋白信号调节因子 9-2 与体重之间的关联
- DOI:
- 发表时间:
2011 - 期刊:
- 影响因子:3.7
- 作者:
Jeffrey L. Waugh;Jeremy P. Celver;Meenakshi Sharma;R. Dufresne;Dimitra Terzi;S. Craig;Risch;W. Fairbrother;R. Neve;J. Kane;M. Malloy;R. Clive;Pullinger;H. Gu;C. Tsatsanis;S. Hamilton;S. Gold;Venetia;Zachariou;A. Kovoor - 通讯作者:
A. Kovoor
Jeffrey L. Waugh的其他文献
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{{ truncateString('Jeffrey L. Waugh', 18)}}的其他基金
The structural underpinnings of disinhibition in dystonia
肌张力障碍去抑制的结构基础
- 批准号:
10686944 - 财政年份:2022
- 资助金额:
$ 19.55万 - 项目类别:
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