Making imagined speech audible
With a speech neuroprosthetic, imagined speech can be made acoustically audible.
With a speech neuroprosthetic, imagined speech can be made acoustically audible.
石墨烯代表了许多领域的令人难以置信的机会,包括医学科学。
研究人员将小磁珠插入截肢的残留内的肌肉组织中,以便更精确地控制假肢肢体。
Researchers have developed a "speech neuroprosthesis" that has enabled a man with severe paralysis to communicate in sentences.
Scientists have used an implanted sensor to record the brain signals associated with handwriting, and used those signals to create text on a computer in real time.
Researchers used nanophotonic technology to develop a brain-implantable tool that can aid in the optical imaging of brain activity.
Researchers have developed a chip that is powered wirelessly and can be surgically implanted to read neural signals and stimulate the brain with both light and electrical current.
研究人员正在利用生成的对抗性网络来改善残疾人的脑电脑界面。
Novel design of brain chip implant allows for measuring neuronal activity while simultaneously delivering drugs to the implant site.
Recently, Professor Surjo R. Soekadar outlined current and upcoming applications of brain-computer interfaces.
We present five upper body exoskeletons that might help restore natural hand or limb movements.
In surgery, wearable technologies can assist, augment, and provide a means of patient assessment before, during and after surgical procedures.
Scientists have developed a bio-compatible implantable AI platform that classifies in real time healthy and pathological patterns in biological signals.
Future brain-computer interface systems employ a network of independent, wireless microscale neural sensors to record and stimulate brain activity.
Graphene electrodes could enable higher quality imaging of brain cell activity.
Researchers have developed a new way to power and communicate with devices implanted deep within the human body.
In noisy environments, it is difficult for hearing aid or hearing implant users to understand their conversational partner. Artificial intelligence could solve this problem.
借助虚拟现实模型,researchers from the Knappschaftskrankenhaus Bochum have examined, which errors can occur during the communication between the brain and robotic prosthesis.
研究人员已经无线记录了帕金森病的患者的大脑活动,然后使用该信息来调整植入装置提供的刺激。
Loosening hip implants can cause major damage to the bone and a simple replacement won’t suffice to carry the load during movements. Researchers have turned to bioprinting to solve this problem.
Researchers develop signals that could bring color vision and improved clarity to prosthesis for the blind.
BrainGate researchers demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
Researchers have demonstrated MRI compatibility in their soft electrode arrays – a crucial step in translation to the clinic.
研究人员开发了一种生产具有优异电导率水平的石墨烯增强水凝胶的方法。
研究人员正在为大脑创建一个智能端口,这些智能将使用人工智能选择性地刺激组织再生和癫痫发作。
将来自假体的感觉信号传送到神经系统有助于腿部患者作为其身体的一部分感知假肢。
Neuroscientists have demonstrated that the brain does not remap itself even with long-term bionic limb use, posing challenges for the development of realistic prosthetic limbs.
Researchers have enabled a quadriplegic man to control a pair of prosthetic arms with his mind.
更多的researchers and companies are moving into the brain-computer interfaces, yet major challenges remain, from user training to the reality of invasive brain implant procedures.
Two ALS patients, implanted with a brain-computer interface via the jugular vein and without the need for open brain surgery, successfully controlled their personal computer through direct thought.
A bioceramic implant has proved to stimulate regeneration of natural skull bone so that even large cranial defects can be repaired in a way that has not been possible before.
Scientists have invented an optical platform that will likely become the new standard in optical biointerfaces.
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.
研究人员开发了一个革命性的皮质视觉装置,可以有一天有助于恢复对盲人的愿景。
Researchers have shown that machine learning techniques helped an individual with paralysis learn to control a computer cursor using their brain activity.
A tiny, thin-film electrode with a 3D-printed housing has been implanted in the peripheral nervous system of songbirds, where it successfully recorded electrical impulses that drive vocalizations.
Although true “cyborgs” — part human, part robotic beings — are science fiction, researchers are taking steps toward integrating electronics with the body.
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.
Scientists have proposed the concept of a memristive neurohybrid chip to be used in compact biosensors and neuroprostheses.
芝加哥大学的仿生乳房项目适用于仿生技术来恢复乳房切除后乳房功能。
Scientists have developed the world's first fully integrated bionic arm prosthesis that is ready to use – in keeping with the motto "Plug and Play".
更多的and more hospitals are entering the world of 3D printing in surgery as decision-makers and surgeons are realising the immense benefits for surgeons and patients alike.
Next-generation brain implants with more than a thousand electrodes can survive for more than six years.
工程师正在致力于开发柔软,灵活的神经植入物,可以轻松地符合大脑的轮廓和监测活动超过更长的时间。
New prosthetic technologies that stimulate the nerves could pave the way for prostheses that feel like a natural part of the body and reduce the phantom limb pain commonly endured by amputees.
研究人员开发了一种计算机模型,该计算机模型预测了耳蜗植入物在听觉神经纤维中产生的神经元激活模式。
Researchers have tapped faint, latent signals from arm nerves and amplified them to enable real-time, intuitive, finger-level control of a robotic hand.
Scientists have improved upon the bioprinting technique they developed to engineer skeletal muscle as a potential therapy for replacing diseased or damaged muscle tissue.
来自马萨诸塞州理工学院的工程师开发了一种用于测试假肢阀和其他心脏装置的生物毒性杂交心。
研究人员首次成功天线转换开关uced the electrical properties of biological neurons onto semiconductor chips.
Scientists correlate neuronal activity in the human entorhinal cortex with place-based memories; finding sheds new light on how the brain processes spatial memory.
Researchers have implanted electrodes in brain of a person who is mostly paralyzed to enable him to have some “mind control” of motorized prosthetic arms.
Thanks to bionic prosthesis that features sensors that connect to residual nerves in the thigh, two volunteers are the first above-knee amputees in the world to feel their prosthetic foot and knee in real time.
足够小的无线传感器植入人脑血管中的血管可以帮助临床医生评估动脉瘤的愈合。
A team of scientists have invented a device that can control neural circuits using a tiny brain implant controlled by a smartphone.
A scientist is working to develop miniature implantable medical devices that sense and communicate wirelessly via sound waves.
Reseachers are developing a prosthetic arm that can move with the person's thoughts and feel the sensation of touch via an array of electrodes implanted in the muscles of the patient.
Researchers show that by using a noninvasive brain-computer interface they could control a robotic arm that’s tracking a cursor on a computer screen.
生物工程师已经清除了3D印刷替代器官的突破性技术对生物监测组织的突破性技术的主要障碍。新利18官方
A state-of-the-art brain-machine interface created by UC San Francisco neuroscientists can generate natural-sounding synthetic speech by using brain activity to control a virtual vocal tract – an anatomically detailed computer simulation including the lips, jaw, tongue and larynx.
An AI approach can identify with high accuracy whether a 5-day-old, in vitro fertilized human embryo has a high potential to progress to a successful pregnancy.
Researchers have built a device that could protect your pacemaker, other medical tech from remote hacks before they happen.
Method for growing kidney organoids under flow enhances their vascularization and maturation, increasing their potential for drug testing and regenerative medicine.
Researchers have developep a sensor that records brain activity at extremely low frequencies and could lead to new treatments for epilepsy.
Research from the BrainGate consortium shows that a brain-computer interface (BCI) can enable people with paralysis to directly operate an off-the-shelf tablet device just by thinking about making cursor movements and clicks.
Three patients with chronic paraplegia were able to walk over ground thanks to precise electrical stimulation of their spinal cords via a wireless implant.
A new wireless, Band-Aid-like sensor could revolutionize the way patients manage hydrocephalus.
Scientists have developed a miniaturized electronic platform for the stimulation and recording of peripheral nerve fibers-on-a-chip.
Neuroscience researchers University of Chicago receive $3.4 million NIH grant to develop brain-controlled prosthetic limbs.
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。
麻省理工学院神经科学家已经设计了一种方法来测量大脑中的多巴胺。微小的探针对于监测帕金森和其他疾病的患者可能有用。
工程师开发了一种高度灵活且可伸缩的传感器,可以与流动分流器集成,以便在没有昂贵的诊断程序的情况下监控血管中的血液动力学。
Researchers are developing a simple retinal prosthesis that could restore sight to blind people. Fabricated using cheap and widely-available organic pigments used in printing inks and cosmetics, it consists of tiny pixels like a digital camera sensor on a nanometric scale.