Integrated Engineering and Rehabilitation Training

综合工程与康复培训

• 批准号: 7434545
• 负责人: PATRICK E CRAGO
• 金额: $ 30.68万
• 依托单位: CASE WESTERN RESERVE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-07-01 至 2009-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7434545
• 关键词: Training; rehabilitation engineering

DESCRIPTION (provided by applicant): The objective of this interdisciplinary training program is to train PhDs in the basic engineering and science aspects of assistive technology and in the clinical application of this technology in rehabilitation. Interdisciplinary training is required for engineers to successfully design devices and techniques that meet real clinical needs. PhD training will cover the full range of areas that are required to successfully integrate technology into rehabilitation practice, including both didactic and one-on-one mentorship in the areas of i) basic engineering and medical sciences, ii) biomedical engineering, iii) movement and sensory synthesis, iv) implementation of neuroprostheses, and v) clinical rehabilitation. Thus, the trainees will learn principles that will allow them to extend their research capabilities beyond their focused dissertation research. The development, testing and clinical deployment of neural prostheses provides a particularly relevant vehicle for integrated training and will serve as the primary research training model. We also include training in related biomechanical and neural aspects of motor control. For neuroprostheses, perhaps no alternative short of actual regeneration of neural tissue can restore the equivalent level of function. Electrical interfaces to the nervous system may be used to excite, inhibit, or record from either motor or sensory nerves. It is conceptually possible, therefore, to obtain artificial control with electrical stimulation over virtually all structures that rely upon neural communication. This encompasses most of the critical motor and sensory pathways involved in paralysis of the central nervous system as a result of injury or disease such as spinal cord injury, stroke, and Parkinson's disease. This technology can thus restore function to individuals who have sustained such damage, and implantable systems of this type have been approved for commercial deployment. The participating faculty are experts in the fields of engineering and rehabilitation, including the design and deployment of neuroprostheses and neuromuscular modeling, assessment, analysis, and synthesis. The facilities of the training mentors at the participating institutions are accessible to the trainees, and include basic science and engineering laboratories, neuroprosthesis development laboratories, and clinical outpatient laboratories.

描述（由申请人提供）： 该跨学科培训计划的目标是培养辅助技术的基本工程和科学方面的博士学位，以及该技术在康复中的临床应用。工程师需要跨学科的培训才能成功设计出满足真实的临床需求的器械和技术。博士培训将涵盖成功将技术融入康复实践所需的全部领域，包括i）基础工程和医学科学，ii）生物医学工程，iii）运动和感觉合成，iv）神经假体的实施和v）临床康复领域的教学和一对一的指导。因此，学员将学习的原则，使他们能够扩展自己的研究能力超出他们的重点论文研究。神经假体的开发、测试和临床部署为综合培训提供了一个特别相关的工具，并将作为主要的研究培训模式。我们还包括运动控制的相关生物力学和神经方面的培训。对于神经假体来说，除了神经组织的实际再生之外，也许没有其他选择可以恢复同等水平的功能。神经系统的电接口可用于刺激、抑制或记录运动神经或感觉神经。因此，从概念上讲，通过电刺激对几乎所有依赖神经通信的结构进行人工控制是可能的。这包括大多数关键的运动和感觉通路，这些通路涉及由于损伤或疾病（如脊髓损伤、中风和帕金森病）导致的中枢神经系统瘫痪。因此，这种技术可以恢复遭受这种损伤的个人的功能，这种类型的植入式系统已被批准用于商业部署。参与的教师是工程和康复领域的专家，包括神经假体的设计和部署以及神经肌肉建模，评估，分析和合成。参与机构的培训导师的设施可供学员使用，包括基础科学和工程实验室、神经假体开发实验室和临床门诊实验室。