Investigation of Embodiment for Upper Limb Amputees

上肢截肢者的躯体化研究

基本信息

批准号：
10490285
负责人：
Jacob Segil
金额：
--
依托单位：
VA EASTERN COLORADO HEALTH CARE SYSTEM
依托单位国家：
美国
项目类别：
财政年份：
2020
资助国家：
美国
起止时间：
2020-11-01 至 2025-10-31
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10490285
关键词：
Address Affect Algorithms Amputation Amputees Anxiety Appearance Area Award Back Biomechanics Body part Chronic Clinical Cosmetics Data Data Collection Data Set Device or Instrument Development Devices Disabled Persons Dorsal Economics Electrodes Esthesia Feedback Future Goals Hand Health Care Research Illusions Impairment Individual Investigation Investments K-Series Research Career Programs Laboratories Laboratory Study Lead Limb Prosthesis Limb structure Location Measurement Measures Mechanics Medical Device Medical center Mental Depression Mentors Mentorship Methodology Methods Mission Monitor Myoelectric prosthesis Numbness Outcome Measure Patients Peripheral Nerve Stimulation Peripheral Nerves Persons Physical Medicine Physical Rehabilitation Physiological Procedures Prosthesis Protocols documentation Psychophysics Publications Recording of previous events Research Rest Rubber Scientist Sensory Services Social isolation Surface Surveys System Tactile Technology Testing Time Training Travel United States Department of Veterans Affairs Upper Extremity Veterans Work career design exhaustion experience experimental study grasp improved improved functioning invention limb amputation multimodality myoelectric control neural implant novel physically handicapped pressure prosthetic hand psychosocial recruit rehabilitation research relating to nervous system research and development restoration self esteem sensor sensory feedback sensory prosthesis somatosensory tool transradial amputee

项目摘要

Project Summary Today, prosthetic hands are numb. They provide no tactile or proprioceptive sensory information back to the user. The lack of sensory feedback has been shown to reduce the utility of a prosthesis by half. The prosthesis is seen as a tool, not as an incorporated part of the body schema. Only now are there chronically-implantable technologies which can provide physiologically appropriate sensory feedback to upper limb amputees to recreate tactile and proprioceptive percepts. These sensations are the building blocks to enable the embodiment of the device. Furthermore, newly developed outcome measures are now available which can detail the improved embodiment such neural interfaces can create. My mission is to enable the embodiment of artificial devices using peripheral nerve stimulation and thereby close the gap between the experience of our intact physiological systems and those using prosthetic remedies. This investigation of embodiment for upper limb amputees is organized into three main areas of work including 1) normative data collection, 2) device development, and 3) characterization of embodiment using peripheral nerve stimulation. The normative data collection will quantify the embodiment of conventional cosmetic, body-powered, and myoelectric prosthetic hand options using a modified Rubber Hand Illusion protocol (Specific Aim 1). This thrust will ask how does the amount of embodiment vary among conventional prosthetic hands as well as probe the relationship between agency and embodiment. The device development project entails the design of multi-modal sensors in order to study full-hand embodiment (Specific Aim 2). The ability to measure and then elicit sensation on the passive surfaces of the hand (palm, ulnar border, and dorsal surface) has never been explored. Here, a multi-modal sensor which can detect proximity, contact, and force will be integrated into a commercially available prosthetic hand in order to provide detailed measurements across the palm, ulnar border, and dorsal surfaces in order to study embodiment in more depth. Finally, the characterization of embodiment using peripheral nerve stimulation will take place over a multiple subject factorial experiment which quantifies the effects of quantity and spatial parameters of the peripheral nerve stimulation on the embodiment of prosthetic hands (Specific Aim 3). This study asks what somatosensory percepts from the hand are most critical for embodiment by varying the parameters of the peripheral nerve stimulation (quantity and spatiality) and measuring the level of embodiment in each case. This investigation will be the first thorough (multiple subjects with peripheral nerve interfaces), systematic (paired factorial design), and exhaustive (using all electrodes in the neural interface) study to be performed. Finally, an additional goal to the scientific mission of this proposal is the creation of the Neural Interface and Sensory Restoration Laboratory in the Rocky Mountain Regional VA Medical Center. I will direct this laboratory to be a complementary entity to Dr. Tyler’s Functional Neural Interface Laboratory to study peripheral nerve interfaces with upper limb amputees in the VA RR&D division. Now, more advanced methodologies can be explored and more scientific breakthroughs can be initiated with the goal of providing Veterans with amputation an artificial limb, as opposed to just a prosthetic tool.

项目摘要今天，假肢很麻木。他们没有提供触觉或本体感知感官向用户提供信息。缺乏感觉反馈可以减少实用程序假体的一半。假体被视为一种工具，而不是身体的合并部分模式。只有现在才有可以提供长期植入的技术在物理上适当的感觉反馈上肢截肢者以重新创建触觉和本体感知感。这些感觉是能够实现的基础设备。此外，现在可以使用新开发的结果指标详细说明改进的实施例可以创建这种神经界面。我的任务是启用使用外周神经刺激对人造装置的实施例，从而缩小了间隙在我们完整的生理系统的经验与使用假肢疗法的经验之间。实施方案的上肢截肢者的投资被组织成三个主要领域工作包括1）正常数据收集，2）设备开发和3）表征使用周围神经刺激的实施例。普通数据收集将量化常规化妆品，身体动力和肌电假肢的实施例使用改良的橡胶手幻觉协议（特定目标1）的选项。这个推力会问传统的假肢以及探测代理与体现之间的关系。设备开发项目需要设计多模式传感器以研究全手实施例（特定目的 2）。测量并在手的被动表面上引起感觉的能力（棕榈，从未探索过尺骨和背面）。这里是一个多模式传感器可以检测到邻近，接触和力将集成到市售中假肢手，以提供棕榈，尺骨边界的详细测量和背面以更深入研究实施方案。最后，表征使用周围神经刺激的实施例将在多个主题阶乘上进行量化周围数量和空间参数的影响的实验假肢的实施方案上的神经刺激（特定目标3）。这项研究问从手中使用哪种感觉感知，对于实施方案至关重要。周围神经刺激的参数（数量和空间性）并测量在每种情况下的实施水平。这项投资将是第一个透彻的（多个主题具有周围神经界面），系统的（配对阶乘设计）和详尽（使用所有在神经界面中的电极）研究。最后，该提案的科学任务的另一个目标是创建神经落基山地区VA医疗的界面和感觉恢复实验室中心。我将指示该实验室成为泰勒博士功能的完整实体神经界面实验室研究周围神经界面，上肢截肢者 VA RR＆D部门。现在，可以探索更高级的方法，更多可以以科学突破来为退伍军人提供截肢和人造肢体，而不是假肢工具。