Norbert Ferenčík, Veronika Sedláková, Petra Kolembusova, B. Štefanovič, Radovan Hudák, William Steingartner
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引用次数: 0
摘要
脊髓损伤(SCI)是一项重大的医疗挑战,会影响手部灵活性和运动能力。医疗技术的不断进步涵盖了一系列可穿戴设备,再加上康复治疗的同步进展,旨在增强脊髓损伤患者的手部功能。三维(3D)打印技术的出现为制作个性化设备提供了一条具有成本效益的途径,激发了人们将这项技术与康复设备相结合的兴趣,从而与科学研究的进步相辅相成。肌电控制在提高康复效果方面发挥着举足轻重的作用。它包括检测和处理来自受影响肢体肌肉的微弱肌电信号(EMG),以激活矫形电机。目前已开发出一种新型 3D 打印手部矫形器,可对肌电信号做出反应,以促进颈椎 SCI 患者的抓握功能。
Innovative Solutions for Tetraplegia: A Smart Hand Orthosis Design
Spinal cord injury (SCI) poses a significant medical challenge, affecting both hand dexterity and locomotor abilities. Ongoing advancements in medical technologies, spanning a spectrum of wearable devices, coupled with concurrent progress in rehabilitation treatments, aim to enhance hand function among individuals affected by SCI. The emergence of three-dimensional (3D) printing provides a cost-effective avenue for crafting personalized devices, fostering a surge of interest in integrating this technology with rehabilitation equipment, thereby complementing advancements in scientific research. Myoelectric control plays a pivotal role in achieving enhanced rehabilitation outcomes. It involves the detection and processing of weak electromyographic signals (EMG) from affected limb muscles to activate orthotic motors. A novel 3D-printed hand orthosis, responsive to electromyography signals, has been developed to facilitate grasping functionality in cervical SCI patients.
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