Prediction of setup times for an advanced upper limb functional electrical stimulation system [0.03%]
预测先进上肢功能性电刺激系统的时间
Christine Smith,Laurence Kenney,David Howard et al.
Christine Smith et al.
Introduction: Rehabilitation devices take time to don, and longer or unpredictable setup time impacts on usage. This paper reports on the development of a model to predict setup time for upper limb functional electrical s...
Development and reliability of a hand-held dynamometer device to measure the ankle dorsiflexor muscle strength [0.03%]
一种手持式测力计装置的开发及其踝背伸肌力测量可靠性的研究
Masanobu Kimura,Yuto Ogata,Toru Akebi et al.
Masanobu Kimura et al.
Background: Ankle dorsiflexor muscle strength is a crucial component of gait. Objective: We describe the development of a simple, hand-...
Omid Heidari,Eric T Wolbrecht,Alba Perez-Gracia et al.
Omid Heidari et al.
Introduction: This study is aimed at developing a task-based methodology for the design of robotic exoskeletons. This is in contrast to prevailing research efforts, which attempt to mimic the human limb, where each human ...
Electrical stimulation devices for the prevention of venous thromboembolism: Preliminary studies of physiological efficacy and user satisfaction [0.03%]
用于预防静脉血栓栓塞的电刺激装置:生理有效性和用户满意度的初步研究
James Badger,Paul Taylor,Neil Papworth et al.
James Badger et al.
Introduction: Electrical stimulation could provide an alternative method for preventing venous thromboembolism in stroke patients. The purpose of this preliminary study was to explore the effects of electrical stimulation...
The effect of coronal prosthetic alignment changes on socket reaction moments, spatiotemporal parameters, and perception of alignment during gait in individuals with transtibial amputation [0.03%]
冠状假肢对准变化对经胫截肢者步态中套筒反应矩、时空参数和对准感知的影响
Hiroshi Hashimoto,Toshiki Kobayashi,Fan Gao et al.
Hiroshi Hashimoto et al.
Introduction: The alignment of a prosthesis is clinically determined based on observations by clinicians and the subjective perception of amputees during gait. However, this process has been reported to be unreliable. Soc...
Microprocessor knees with 'standing support' and articulating, hydraulic ankles improve balance control and inter-limb loading during quiet standing [0.03%]
具有站立支撑功能的微处理器膝关节和可移动液压踝关节在站立时能够提高平衡控制能力及下肢负荷分布状况
Michael McGrath,Piotr Laszczak,Saeed Zahedi et al.
Michael McGrath et al.
Introduction: Trans-femoral amputees are at risk of musculoskeletal problems that are in part caused by loading asymmetry during activities, such as prolonged standing, particularly on uneven or sloped ground. ...
Wearable strain gauge-based technology measures manual tactile forces during the activities of daily living [0.03%]
基于穿戴式应变计技术测量日常生活活动中手动接触力
Michael Riddle,Kevin MacDermid-Watts,Sara Holland et al.
Michael Riddle et al.
Introduction: Current methods of determining applied forces in the hand rely on grip dynamometers or force-measurement gloves which are limited in their ability to isolate individual finger forces and interfere with the s...
Development of KIINCE: A kinetic feedback-based robotic environment for study of neuromuscular coordination and rehabilitation of human standing and walking [0.03%]
基于动力学反馈的机器人环境KIINCE的研发:用于人类站立和行走的神经肌肉协调研究与康复训练
Wendy L Boehm,Kreg G Gruben
Wendy L Boehm
Introduction: The objective of this article is to introduce the robotic platform KIINCE and its emphasis on the potential of kinetic objectives for studying and training human walking and standing. The device is motivated...
The influence of a microprocessor-controlled hydraulic ankle on the kinetic symmetry of trans-tibial amputees during ramp walking: A case series [0.03%]
微处理器控制的液压踝足假肢对胫残肢患者斜坡行走时生物力学对线的影响:病例系列研究
Michael McGrath,Piotr Laszczak,Saeed Zahedi et al.
Michael McGrath et al.
Introduction: Asymmetrical limb loading is believed to cause health problems for lower limb amputees and is exacerbated when walking on slopes. Hydraulically damped ankle-feet improve ground compliance on slopes compared ...
Neurorehabilitation therapy of patients with severe stroke based on functional electrical stimulation commanded by a brain computer interface [0.03%]
基于脑计算机接口指令的功能性电刺激在重症卒中患者神经康复中的应用研究
Carolina B Tabernig,Camila A Lopez,Lucía C Carrere et al.
Carolina B Tabernig et al.
Introduction: Brain computer interface is an emerging technology to treat the sequelae of stroke. The purpose of this study was to explore the motor imagery related desynchronization of sensorimotor rhythms of stroke pati...