Researchers have designed and produced a smart electronic skin and a medical robotic hand capable of assessing vital diagnostic data.
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Scientists have developed a soft that valve paves the way for fully soft robots.
Researchers have inserted small magnetic beads into muscle tissue within an amputated residuum for more precise control of prosthetic limbs.
Researchers have shown that a group of small autonomous, self-learning robots can adapt easily to changing circumstances. They connected the simple robots in a line, after which each individual robot taught itself to move forward as quickly as possible.
Researchers have discovered a new law of physics that accounts for that accounts for elastohydrodynamic lubrication (EHL) friction, which should advance a wide range of robotic technologies.
Researchers have demonstrated that, with training, neural control of a powered prosthetic ankle can restore a wide range of abilities, including standing on very challenging surfaces and squatting.
The Hong Kong Polytechnic University (PolyU) recently developed a robotic arm to facilitate self-help and upper-limb mobile rehabilitation for stroke patients.
Researchers have enabled a quadriplegic man to control a pair of prosthetic arms with his mind.
Researchers have found a way to send tiny, soft robots into humans, potentially opening the door for less invasive surgeries and ways to deliver treatments for several conditions.
Researchers have shown that machine learning techniques helped an individual with paralysis learn to control a computer cursor using their brain activity.
In the next-generation operating room interconnected sensors will collect data, analyse it in real-time and make it available to digital assistance functions.
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.
Smart speakers that are customarily used in your living room can be programmed to act as an aid to physicians in hospital operating rooms.
Researchers at the University of Stuttgart have built an exoskeleton with which the gripping ability of a paralyzed hand can be restored.
Scientists have developed an ultra-light glove that enables users to feel and manipulate virtual objects. Their system provides extremely realistic haptic feedback and could run on a battery, allowing for unparalleled freedom of movement.
Researchers have developed a worldwide pioneering robotic exoskeleton which, attached to a robotic wheelchair, helps people with varying degrees of disability carry out daily activities on their own.
University of Texas at Arlington patents headset that allows persons to point to objects of interest using their eyes.
Prosthetics for arms and legs have evolved from the rudimentary wooden appendages of just a few decades ago.
The first comprehensive study comparing the outcomes of robotic surgery to those of traditional open surgery in any organ has found that the surgeries are equally effective in treating bladder cancer.
Researchers have created an automated blood drawing and testing device that provides rapid results,could speed hospital work, enhance healthcare.
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.
RoSE is first device to measure 3D stiffness of human torso, could lead to new treatments for children with spine deformities such as idiopathic scoliosis and kyphosis.
A wearable brain-machine interface system could improve the quality of life for people with motor dysfunction or paralysis, even those struggling with locked-in syndrome.
Egidijus Pelanis, a medical doctor at Oslo University Hospital, explains how extended realities is applied in the operating room.
The benefits people could reap from exoskeletons rely heavily on having time to train with the device.
This battery could have a wide range of applications in various types of devices, from soft robots to wearable devices.
Robotic body-weight support devices can play a key role in helping people with neurological disorders to improve their walking.
Robotic cane with 3D camera can accurately guide user to chosen location, avoiding obstacles.
Researchers have developed a biocompatible energy storage device.
For the first time, a steerable catheter will give neurosurgeons the ability to steer the device in any direction they want while navigating the brain's arteries and blood vessels.
A study shows that magnetic millirobots can climb slopes, move against fluid flow and precisely deliver substances to neural tissue.
Preliminary findings by Kessler researchers show that the use of a robotic exoskeleton during inpatient rehabilitation for acute stroke may improve function.
Researchers have developed a robotic neck brace that may help doctors analyze the impact of cancer treatments on the neck mobility of patients and guide their recovery.
Engineers have unveiled an air-powered computer memory that can be used to control soft robots. It overcomes the problem of the mismatch between pneumatics and electronics.
Researchers have developed an artificial skin that senses force through ionic signals and also changes color from yellow to a bruise-like purple, providing a visual cue that damage has occurred.
With the aid of a virtual reality model, researchers from the Knappschaftskrankenhaus Bochum have examined, which errors can occur during the communication between the brain and robotic prosthesis.
Neurolutions IpsiHand exoskeleton uniquely leverages brain-computer interface technology for chronic stroke rehabilitation
BrainGate researchers demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
Researchers have created life forms that self-assemble a body from single cells and do not require muscle cells to move. They're faster, live longer, and can now record information.
Dr Jan Stallkamp has a vision: robots that can treat patients more efficiently and more precisely than any human physician.
Researchers have developed a minuscule robot that could revolutionize surgical procedures for treating prostate cancer.
Researchers have constructed a 3D vision-guided artificial skin that enables tactile sensing with high performance, opening doors to innumerable applications in medicine.
Professor Dr Peter Pott and his team turn to 3D printers to successfully realize his vision of “high end at low cost” medical devices.
Researchers have developed a system that combines a brain-computer interface and a robotic arm that responds to the actual intentions of treated patients.
The following seven robotic systems are either currently being deployed or developed for the fight against the coronavirus.
An analysis highlights the realistic pros and cons of apps and other technologies that use AI to benefit older adults, including those facing dementia and cognitive decline.
Researchers have invented a high-throughput cell separation method that can be used in conjunction with droplet microfluidics.
More 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.
Scientists have developed an easy way to make millirobots by coating objects with a glue-like magnetic spray.
Exoskeletal-assisted walking is safe, feasible, and effective in individuals disabled by spinal cord injury.
Reseachers have developed robotic Trunk Support Trainer (TruST) that helps children with CP to sit more stably.
Scientists have made a breakthrough in their work to develop semi-autonomous colonoscopy, using a robot to guide a medical device into the body.
Researchers have developed a robotic exoskeleton that improves the lives of people with limited or no ability to move due to neurological and/or physiological disorders.
Researchers have published the results of a trial of the ReWalk ReStore soft robotic exosuit for gait training in individuals undergoing post-stroke rehabilitation.
Loss of strength and muscle wastage is currently an unavoidable part of getting older and has a significant impact on health and quality of life.
One of the crucial future technologies in surgery is Augmented Reality. Most experts agree that AR will increase safety and efficiency, improve surgical training and decrease costs.
Researchers have developed a surgical robot that improves precision and control of teleoperated surgical procedures.
Although true “cyborgs” — part human, part robotic beings — are science fiction, researchers are taking steps toward integrating electronics with the body.
A new robotic system allows medical staff to remotely operate ventilators and other bedside machines from outside intensive care rooms of patients suffering from infectious diseases.
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?
An invention may turn one of the most widely used materials for biomedical applications into wearable devices to help monitor heart health.
Designed by a team at the NYU Tandon School of Engineering and an institute of the Max Planck Society, the four-legged, dog-sized, torque-controlled Solo 8 robot can easily be replicated by research labs around the world.
Researchers have developed a smart surface that can actively and repeatedly release and reabsorb substances by environmental stimuli.
Researchers at the Max Planck Institute for Intelligent Systems in Germany have developed powerful nanopropellers that can be steered into the interior of cells to deliver gene therapy.
Radiologists are investigating people's medical conditions and pregnancies remotely thanks to an ESA-backed robotic technology.
A robot is helping maximize the life of some of the most critical personal protective equipment, or PPE, at a time when the surge of demand for such items has aggravated a national shortage.
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.
Using a robot to treat brain aneurysms is feasible and could allow for improved precision when placing stents, coils and other devices.
Scientists have designed a new type of controller for the robotic arm used in robotic surgery.
Engineers aim to offer minimally invasive surgery through a single incision, rather than several incisions.
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.
Robocath announced it has successfully completed six robotic coronary angioplasties with R-One, a first for the continent of Africa.
Researchers have developed a new method to guide endovascular instruments into complex vascular structures that were inaccessible to endovascular surgeons until now.
Combining new wearable electronics and a deep learning algorithm could help disabled people wirelessly interact with a computer.
A trial using 4G LTE cellular connectivity to enable drones to deliver automated external defibrillators to the scene of a cardiac arrest has taken place in Canada.
A 4-limb robotic system controlled by brain signals helped a tetraplegic man to move his arms and walk using a ceiling-mounted harness for balance.
Scientists have successfully tested neuroprosthetic technology that combines robotic control with users’ voluntary control, opening avenues in the new interdisciplinary field of shared control for neuroprosthetic technologies.
A new type of ultrasound transducer should soon be delivering a fast and reliable diagnosis of infection of the middle ear.
A comfortable brace incorporates both sensors and actuators to restore roughly 70% of the active range of motion.
Robotic device acts as a cane-like mobile assistant to provide light-touch to help the elderly and others with impaired mobility.
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.
Engineers have designed pliable, 3D printed mesh materials whose flexibility and toughness they can tune to emulate and support softer tissues such as muscles and tendons.
Scientists have developed a soft wearable hand robot that can aid the hand-disabled by using machine learning algorithm and sensory hardware.
UT Southwestern has become the first medical center in Texas to use a robotic tool that allows surgeons to perform complicated operations using just a single incision.
The Murab project is developing technology that will make it possible to take more accurate biopsies and diagnose cancer and other illnesses faster.
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.
The new version of the TWIICE walking-assistance system is not only lighter, more comfortable and more powerful, but patients can also put it on and use it themselves.
An engineer is leading a team of researchers, health care providers and industry to fast-track the commercialization of a groundbreaking robotic rehabilitation system.
K-FLEX, a flexible endoscopic surgical robot developed opens a new chapter for precise and minimally invasive robot-assisted surgery.
Multifunctional ‘smart bandage’ wirelessly monitors a variety of physical signals, from respiration, to body motion, to temperature, to eye movement, to heart and brain activity.
A new robotic system developed can help diagnose neurodegenerative diseases, such as dementia and Parkinson, through the analysis of eye movements.
Electronic ‘skin’ will enable amputees to perceive through prosthetic fingertips.
Drones are now heralded as a solution to a problem that's bedeviled emergency medical personnel for years.
Researchers developed a novel method of growing whole muscles from hydrogel sheets impregnated with myoblasts and incorporated these muscles into a biohybrid robot.
A robotics company has launched the world's first medically certified 3D printed artificial arms for amputees.