Neurotechnology Research

Researchers unveiled a pioneering technology capable of real-time human emotion recognition, promising transformative applications in wearable devices and digital services. The system, known as the personalized skin-integrated facial interface (PSiFI), combines verbal and non-verbal cues through a self-powered, stretchable sensor, efficiently processing data for wireless communication.
Researchers introduced a groundbreaking non-invasive brain stimulation technique called Patterned Low-Intensity Low-Frequency Ultrasound (LILFUS). This innovative method can precisely target and modulate specific brain regions, offering a promising alternative to traditional magnetic, electrical, and surgical brain stimulation methods with fewer risks.
Researchers made a landmark advancement in neural prosthetics, demonstrating the ability to recall specific memories using a newly developed memory decoding model (MDM). This breakthrough builds on previous research, utilizing surgically implanted electrodes in the hippocampus to decode and stimulate neural activity for targeted memory recall.
Researchers have unveiled the "MiniTouch," a revolutionary device that equips prosthetic limbs with the ability to convey thermal sensations to amputees, bridging a significant gap in sensory feedback technology. This breakthrough allows a transradial amputee to differentiate between objects of varying temperatures and experience more human-like touch, enhancing both functional use and emotional connection with the prosthesis.
Researchers introduced a novel fluorescence imaging technique that can detect amyloids, key biomarkers in neurodegenerative diseases like Alzheimer’s and Parkinson’s, offering a simpler alternative to PET scans. This method utilizes a sensor array of coumarin-based molecular probes, capable of illuminating amyloids to monitor disease progression or distinguish between different conditions.

Brain Computer Interface news involves science using BCI, neural interfaces, brain implant technologies, EEG control of robotics, neurobotics and more.

Elon Musk announces the first human has been successfully implanted with Neuralink's brain chip, named Telepathy, aiming to allow severe physically disabled individuals to control devices via thought. The FDA-approved trial focuses on the implant's potential for movement control, with the patient reportedly recovering well and showing promising initial results.
Researchers achieved a breakthrough in converting brain signals to audible speech with up to 100% accuracy. The team used brain implants and artificial intelligence to directly map brain activity to speech in patients with epilepsy.
In a pioneering study, researchers designed a wireless brain-spine interface enabling a paralyzed man to walk naturally again. The 'digital bridge' comprises two electronic implants — one on the brain and another on the spinal cord — that decode brain signals and stimulate the spinal cord to activate leg muscles.

The latest science news involving neural prosthetics, arm and leg prostheses, bionics, biomechanical engineering, BCIs, robotics, EEG control of prosthetics, visual aids, auditory aids for hearing and more is here. You can also

A new speech prosthetic offers hope for those with speech-impairing neurological disorders. By converting brain signals into speech using high-density sensors and machine learning, the technology represents a significant advancement over current slower communication aids.

More Neurotech News

Browse all of our neurotechnology articles over the years. Remember you can click on the tags or search for specific articles.

This shows a brain.
Researchers developed the world's first 3D-printed brain tissue that grows and behaves similarly to natural brain tissue, marking a significant leap forward for neurological and neurodevelopmental disorder research. This novel 3D-printing technique uses a horizontal layering approach and a softer bio-ink, allowing neurons to interconnect and form networks akin to human brain structures.
This shows the robot.
Researchers developed a robotic sensor using artificial intelligence to read braille at a remarkable 315 words per minute with 87% accuracy, surpassing the average human reading speed. This sensor employs machine learning algorithms to interpret braille with high sensitivity, mirroring human-like reading behavior.
This shows a model of a brain.
Researchers developed a groundbreaking technology to track when brain cells deactivate, a key process known as inhibition. This technique allows a deeper understanding of normal brain functions and disorders like depression, PTSD, and Alzheimer's.
This shows a robot.
Researchers achieved a significant advancement in robotics by replicating human-like variable speed walking using a musculoskeletal model. This model, steered by a reflex control method akin to the human nervous system, enhances our understanding of human locomotion and sets new standards for robotic technology.
This shows a person in a cage with a brain on top..
A major clinical trial, BRIGhTMIND, reveals that MRI-guided Transcranial Magnetic Stimulation (TMS) significantly eases symptoms of severe depression for at least six months. The study, involving five centers across England, marks a substantial advancement over previous TMS treatments, which showed improvements lasting only 1-3 months.
This shows a heart.
The Journal of the American Heart Association's special issue showcases the progress of innovative digital technology projects, funded by over $14 million from the American Heart Association's Health Technologies and Innovation Research Network. These projects, launched in 2020, aim to improve global heart and brain health, addressing the gap in technology-based healthcare solutions. This issue features the first collection of work from multidisciplinary teams at renowned institutions, highlighting the synergy of technology and healthcare.
This shows the fetal cells.
Scientists have created 3D brain organoids from human fetal tissue that self-organize, offering a new way to study brain development and diseases. These mini-brains contain various brain cell types and extracellular matrix, closely resembling the human brain. They also show potential for cancer research and drug testing.
This shows a man and lightening.
Researchers have found that targeted electrical stimulation of the brain can temporarily increase a person's hypnotizability, potentially allowing more individuals to benefit from hypnosis-based therapies for pain relief and other conditions. In a study involving participants with fibromyalgia, electrical stimulation delivered to the left dorsolateral prefrontal cortex boosted hypnotizability for about an hour.