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The Neural Effects of Balance Versus Aerobic Training in Individuals with Degenerative Cerebellar Diseases

平衡与有氧训练对退行性小脑疾病患者的神经影响

基本信息

批准号：
10470352
负责人：
Scott Barbuto
金额：
$ 19.35万
依托单位：
COLUMBIA UNIVERSITY HEALTH SCIENCES
依托单位国家：
美国
项目类别：
财政年份：
2021
资助国家：
美国
起止时间：
2021-09-01 至 2025-08-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10470352
关键词：
Aerobic Aerobic Exercise Affect Animals Area Ataxia Back Balance training Brain Brain scan Cerebellar Diseases Cerebellar degeneration Cerebellum Cessation of life Clinical Clinical Research Data Dendrites Diagnosis Diffusion Magnetic Resonance Imaging Disease Disease Progression Doctor of Philosophy Equilibrium Exercise Financial compensation Future Goals Home Immunology Individual Inherited K-Series Research Career Programs Learning Locomotion MRI Scans Master&apos s Degree Measures Mentors Methods Motor Skills Movement Disorders Neurologic Neurologic Signs Neuronal Plasticity Participant Persons Pharmaceutical Preparations Physical Medicine Physical Rehabilitation Population Public Health Randomized Regimen Research Research Design Research Personnel Research Project Grants Research Support Rest Spinocerebellar Ataxias Spinocerebellar Degenerations Statistical Data Interpretation Statistical Methods Structure Synapses Techniques Testing Training Training Programs United States National Institutes of Health Wheelchairs Work career career development clinically significant disability effective therapy exercise training functional MRI scan gray matter improved interest multidisciplinary neuroimaging programs relating to nervous system responsible research conduct sedentary skills symptomatic improvement

项目摘要

PROJECT SUMMARY/ABSTRACT Degenerative cerebellar diseases are a group of disorders that cause severe disability and can be fatal. There are currently no known disease-modifying treatments available for use, and there is a critical need to find treatments that slow disease progression and allow affected individuals to live more functional lives. Balance and aerobic training show promise as treatments for degenerative cerebellar diseases, but the neural effects of both training methods have not been thoroughly investigated. It is crucial to understand how the training impacts the brain, and particularly the cerebellum, in order to determine if one training method is better at slowing disease progression than the other. The goal of this proposal is to compare the neural effects of balance versus aerobic training in individuals with degenerative cerebellar diseases. We hypothesize that aerobic training causes neuroplastic changes within the cerebellum whereas balance training causes improvements for people with cerebellar degeneration by impacting brain structures outside the cerebellum. If our hypothesis is true, aerobic training may have more influence on disease progression than balance training as it directly impacts the cerebellum. To investigate our hypothesis, various neuroimaging techniques will be used, which will allow the candidate to gain invaluable expertise in processing and analyzing brain scans. In AIM 1, we will compare cerebellar volume before and after the participants perform either 6-months of balance or aerobic training. In AIM 2, we will investigate whether neural changes have clinical significance by correlating cerebellar volume changes with clinical measures of ataxia. Finally, for AIM 3, we will use diffusion tensor imaging and resting state fMRI scans to examine how both training methods impact cerebellar microstructure and functional cerebellar connections. We hope that a detailed understanding of how each training method impacts the cerebellum will lead to more targeted training regimens with the goal of slowing disease progression of these devastating diseases. The candidate has a clinical background in Physical Medicine and Rehabilitation with an emphasis on movement disorders. He has a PhD in immunology and will be completing a master’s degree in clinical research design and statistical analysis. He is committed to a career in ataxia research focusing on the effects of exercise training on disease progression and plans to use the additional training he receives through this NIH Career Development Award to support his future work in this field. The candidate has assembled a multidisciplinary mentoring team to accomplish three training goals: 1) to learn and master neuroimaging techniques; 2) to become proficient in longitudinal statistical methods; 3) to improve grantsmanship skills to facilitate ongoing research support. In addition, the candidate will receive further training in career development and the responsible conduct of research.

项目摘要/摘要退行性小脑疾病是一组导致严重残疾并可能致命的疾病。那里目前还没有已知的可供使用的疾病修正疗法，迫切需要找到减缓疾病进展并使受影响的人过上更有功能的生活的治疗方法。天平有氧训练有望成为治疗退行性小脑疾病的方法，但有氧训练的神经效应这两种培训方法都没有得到彻底的调查。了解培训是如何进行的是至关重要的影响大脑，特别是小脑，以确定哪种训练方法更适合比另一种更能减缓疾病的发展。这项建议的目标是比较平衡训练和有氧训练对患有以下疾病的人的神经影响小脑退行性疾病。我们假设有氧训练会引起脑内神经可塑性改变小脑，而平衡训练通过以下方式改善小脑变性患者影响小脑以外的大脑结构。如果我们的假设是正确的，有氧训练可能会有更多平衡训练对疾病进展的影响比平衡训练更大，因为它直接影响小脑。为了研究我们的假设，将使用各种神经成像技术，这将使应试者能够获得处理和分析脑部扫描的宝贵专业知识。在目标1中，我们将比较小脑在参与者进行为期6个月的平衡或有氧训练之前和之后的音量。在AIM 2中，我们将通过关联小脑体积的变化来研究神经变化是否具有临床意义与临床措施共济失调。最后，对于AIM 3，我们将使用扩散张量成像和静息状态fMRI 扫描以检查两种训练方法对小脑微观结构和功能的影响关系。我们希望，对每种训练方法如何影响小脑的详细了解将导致更有针对性的训练方案，目标是减缓这些毁灭性疾病的进展疾病。应聘者有物理医学和康复方面的临床背景，重点是运动障碍。他拥有免疫学博士学位，并将完成临床硕士学位研究设计和统计分析。他致力于共济失调的研究，专注于影响关于疾病进展的运动训练，并计划使用通过这一方法接受的额外训练 NIH职业发展奖，以支持他未来在这一领域的工作。这位候选人已经召集了一位多学科指导团队完成三个培训目标：1)学习和掌握神经成像技术；2)精通纵向统计方法；3)提高技能，以促进持续的研究支持。此外，候选人还将接受职业发展方面的进一步培训以及负责任的研究行为。