Sensory-Motor Mechanisms Underlying Fall Risk in Transtibial Amputees

小腿截肢者跌倒风险背后的感觉运动机制

• 批准号: 9016455
• 负责人: Matthew J. Major
• 金额: --
• 依托单位: JESSE BROWN VA MEDICAL CENTER
• 依托单位国家: 美国
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-07-01 至 2018-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9016455
• 关键词: Address; Affect; Age; Aging; Amputation; Amputees; Articular Range of Motion; Award; Balance training; Behavior; Biomechanics; Characteristics; Clinical; Clinical Sciences; Controlled Study; Data; Detection; Development; Development Plans; Diagnostic; Doctor of Philosophy; Education; Elderly; Equilibrium; Exhibits; Exposure to; Foundations; Future; Gait; Gender; Goals; Grant; Guidelines; Health; Health Hazards; Healthcare Systems; High Prevalence; Human; Incidence; Independent Living; Individual; Injury; Intervention; Investigation; Joints; K-Series Research Career Programs; Knee Prosthesis; Knowledge; Laboratory Research; Lead; Leadership; Limb Prosthesis; Limb structure; Link; Locomotion; Logistic Regressions; Lower Extremity; Matched Group; Medical center; Mentors; Mission; Modeling; Motion; Motor; Movement; Muscle; Musculoskeletal; Musculoskeletal Equilibrium; Neuraxis; Outcome; Outcome Measure; Patient Care; Persons; Play; Population; Predictive Factor; Proprioception; Prosthesis; Prosthesis Design; Prosthetic rehabilitation; Qualifying; Quality of life; Reading; Recovery; Regression Analysis; Rehabilitation Research; Reporting; Research; Research Activity; Research Personnel; Research Project Grants; Research Training; Risk; Role; Scientist; Sensory; Series; Services; Solid; System; Techniques; Therapeutic Intervention; Training; Training Activity; Translational Research; Veterans; Vision; Walking; Work; Writing; base; care systems; career; career development; clinical care; clinically relevant; design; experience; fall risk; falls; fear of falling; improved; insight; limb amputation; mortality; motor control; muscle strength; neuromuscular; novel; predictive modeling; programs; prospective; prosthesis wearer; public health relevance; rehabilitation science; research and development; research study; skills; somatosensory; theories; therapy development; tool

DESCRIPTION: The proposed research and training for this five-year Career Development Award (CDA-2) of Dr. Matthew Major, PhD, will contribute to the realization of the VA mission and vision by conducting studies that aim to reduce falls and improve the quality of life of older veterans with transtibial amputation (TTA)] while enhancing Dr. Major's skills to direct a dynamic research program of rehabilitation science as an independent investigator in the VA system. Previous studies have demonstrated that older persons with lower limb amputation are at a substantially increased risk of falling as compared to able-bodied age-matched controls and have reduced confidence in their balance, both contributing to their restricted mobility and daily activity. As upright balance is vital to safe mobility, an important consequence of elevated fall incidence is an increased risk of fall-related injuries that may lead to lost independence and early mortality. Due to the dearth of comprehensive controlled studies on this topic, the relationships between variables of postural control and fall risk in this population remain poorly understand and this has significantly hampered progress towards addressing this important concern for veterans with [TTA]. Therefore, the proposed research activities will involve a series of controlled experiments to develop much-needed insight into the sensory-motor mechanisms of upright balance and fall risk in older veterans with [TTA]. The two specific aims are: 1) identify discriminating biomechanical and clinical factors related to upright balance between older adults with [TTA] classified as [frequent fallers and controls], and 2) evaluate the motor control strategies employed by older adults with [TTA] when subjected to an unexpected perturbation during standing and walking. These research activities will be performed in the Jesse Brown VA Medical Center Motion Analysis Research Laboratory under the guidance of Dr. Steven Gard, an experienced VA Research Health Scientist of rehabilitation and prosthetics research. Information from this study will lead to the identification of sensory-motor variables related to fll risk that may be modified through targeted interventions and development of a clinically-relevant predictive model of falls. Dr. Major's career objective is to become a highly skilled independent investigator within the VA Rehabilitation Research and Development Service. Resulting from previous research and training, he has developed a solid foundation of skills related to investigating the biomechanics of human movement with specific focus on gait of lower limb prosthesis users. Dr. Major is proposing diverse training activities that will compliment his education in biomechanics by refining skills in amputee clinical care and motor control theory. His goal is to develop a productive VA research career aimed at improving functional balance and mobility of veterans with neuromuscular and musculoskeletal insult. His training plan includes formal education in prosthetics clinical education, clinical and translational sciences, project management, team leadership, and grant writing skills to develop his abilities as an independent VA scientist and effective leader. Dr. Major has assembled a well-qualified team of mentors who will provide expert guidance on various aspects of the proposed project in the form of directed readings and, most critically, exposure to the VA healthcare system such that he may develop a research program that is sensitive to the VHA patient care mission. The results of this research will facilitate pursuit of future research initiatives to explore design of theraputic interventions for improving postural control that may be integrated into the VA system of care, development of clinical diagnostic tools to accurately assess fall risk in older veterans with [TTA], inform VA prescription guidelines of current prostheses, and design future prosthetic devices that enhance functional balance. Importantly, these results will provide the basis for the submission of two VA Merit Awards that will be instrumental in transitioning Dr. Major to the role of an independent investigator working to fulfill the VHA patient care mission and vision.

产品说明： 马修·梅杰博士的五年职业发展奖（CDA-2）的拟议研究和培训，将通过开展旨在减少福尔斯和改善经胫骨截肢（TTA）的老年退伍军人生活质量的研究，为实现VA使命和愿景做出贡献]同时提高了梅杰博士作为VA系统独立调查员指导康复科学动态研究计划的技能。先前的研究表明，与健全的年龄匹配的对照组相比，下肢截肢的老年人跌倒的风险大幅增加，并且对平衡的信心降低，这两者都导致他们的活动能力和日常活动受到限制。由于直立平衡对安全移动至关重要，因此跌倒发生率升高的一个重要后果是跌倒相关损伤的风险增加，这可能导致失去独立性和早期死亡。由于缺乏关于这一主题的全面对照研究，该人群中姿势控制变量与跌倒风险之间的关系仍然知之甚少，这严重阻碍了解决[TTA]退伍军人这一重要问题的进展。因此，拟议的研究活动将涉及一系列对照实验，以深入了解患有[TTA]的老年退伍军人的直立平衡和跌倒风险的感觉运动机制。这两个具体目标是：1）识别与[TTA]老年人（归类为[频繁跌倒者和对照组]）之间直立平衡相关的生物力学和临床因素，2）评估[TTA]老年人在站立和行走期间受到意外干扰时采用的运动控制策略。这些研究活动将在退伍军人事务部杰西布朗医学中心运动分析研究实验室进行，由经验丰富的退伍军人事务部康复和假肢研究健康科学家Steven Gard博士指导。这项研究的信息将导致与fll风险相关的感觉运动变量的识别，这些变量可以通过有针对性的干预和临床相关的福尔斯预测模型的开发来改变。梅杰博士的职业目标是成为退伍军人事务部康复研究和发展服务中一名高技能的独立调查员。通过以前的研究和培训，他已经建立了与研究人体运动生物力学相关的坚实的技能基础，特别关注下肢假肢使用者的步态。梅杰博士提出了多样化的培训活动，这将通过完善截肢者临床护理和运动控制理论的技能来补充他在生物力学方面的教育。他的目标是发展一个富有成效的VA研究生涯，旨在改善神经肌肉和肌肉骨骼损伤的退伍军人的功能平衡和流动性。他的培训计划包括假肢临床教育，临床和转化科学，项目管理，团队领导和授予写作技能的正规教育，以发展他作为独立VA科学家和有效领导者的能力。梅杰博士组建了一个合格的导师团队，他们将以定向阅读的形式就拟议项目的各个方面提供专家指导，最重要的是，接触VA医疗保健系统，以便他可以制定一个对VHA患者护理使命敏感的研究计划。这项研究的结果将有助于追求未来的研究计划，以探索设计治疗干预措施，以改善姿势控制，可能被整合到VA护理系统中，开发临床诊断工具，以准确评估[TTA]老年退伍军人的跌倒风险，告知VA当前假体的处方指南，并设计未来的假体装置，以增强功能平衡。重要的是，这些结果将为提交两个VA优异奖提供基础，这将有助于将梅杰博士转变为一个独立的研究者，致力于实现VHA患者护理使命和愿景。