在磁铁的帮助下控制假肢肢体
Researchers have inserted small magnetic beads into muscle tissue within an amputated residuum for more precise control of prosthetic limbs.
Researchers have inserted small magnetic beads into muscle tissue within an amputated residuum for more precise control of prosthetic limbs.
Linking the human brain to a computer is usually only seen in science fiction, but now scientists have harnessed the power of 3D printing to bring the technology one step closer to reality.
刺激神经的新的假肢技术可以为想要像身体的自然部分的假体铺平道路,并减少常常忍受的幻影肢体疼痛。
在一项新的研究中,研究人员已经证明了一种通过微生物体操纵细胞的新颖和非侵入性方式。
科学家们开发了一种柔软的可穿戴手机机器人,可以通过使用机器学习算法和感官硬件帮助手工禁用。
来自Braingate Consortium的研究表明,脑电脑界面(BCI)可以通过思考制作光标移动和点击即可使人们直接运行一台现成的平板电脑设备。
Robotic body-weight support devices can play a key role in helping people with neurological disorders to improve their walking.
In surgery, wearable technologies can assist, augment, and provide a means of patient assessment before, during and after surgical procedures.
Thanks to their swimming robot modeled after a lamprey, EPFL scientists may have discovered why some vertebrates are able to retain their locomotor capabilities after a spinal cord lesion.
使用软机械制造技术和微流体组合的超薄,充气装置可用于治疗最严重的疼痛形式,而无需侵入性手术。
研究人员开发了一个组合脑电脑界面和机器人的系统,这些机器人响应治疗患者的实际意图。
Exoskeletal-assisted walking is safe, feasible, and effective in individuals disabled by spinal cord injury.
Scientists are researching salamanders unique superpower - they can regenerate their spinal cords and regain full functionality.
Reseachers have developed robotic Trunk Support Trainer (TruST) that helps children with CP to sit more stably.
Researchers have developed a revolutionary cortical vision device that could one day help restore vision to the blind.
Patients undergoing physical rehabilitation at Rush for paralyzing injuries are being aided by a robotic suit designed to help raise people to full height and walk.
Exoskeletons are one technology with great potential - but is often developed for average people. So what about people who are small and thin, or tall and overweight?
Researchers have been working to advance a technology that could one day help people with paralysis regain use of their limbs, and enable amputees to use their thoughts to control prostheses.
Nanoengineers plan to develop an immunotherapy for ovarian cancer using 3D-bioprinted plant virus nanoparticles.
Researchers have developed a microneedle patch to deliver mesenchymal stem cells (MSCs) into the skin.
Researchers developed a device that can monitor bladder volume in real time and effectively empty the bladder.
Engineers have developed a robotic device that can be used to assist and train people with SCIs to sit more stably by improving their trunk control.
A new line of wearable robotics - a lightweight version of the armor that comic hero Iron Man wears - could keep seniors on their feet longer.
对于第一次研究人员成功地将生物神经元的电性能转载到半导体芯片上。
一种可穿戴和连接到新颖智能手机游戏的生物融合设备可以为人们提供不完整的截瘫,这是一种更自控的治疗,以增强他们的康复。
Spinal cord injury: In rat models, the novel scaffolding mimicked natural anatomy and boosted stem cell-based treatment; the approach is scalable to humans.
Three patients with chronic paraplegia were able to walk over ground thanks to precise electrical stimulation of their spinal cords via a wireless implant.
工程师使用深度学习通过分析大脑的电机控制区域中的电气模式来解码大脑和臂之间的对话。
Getting a better grip on things: The MoreGrasp Horizon2020 research project is coming to an end with significant results in the field of thought-controlled grasp neuroprosthetics. A large-scale feasibility study is underway.
Engineers and medical researchers have teamed up to create a groundbreaking 3D printed device that could someday help patients with long-term spinal cord injuries regain some function.