BCIs & Neurotechnology News and Discussions

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wjfox
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Re: BCIs & Neurotechnology News and Discussions

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Pitch-side brain scans aim to make sports safer

By Hugh Pym
Health editor

4 hours ago

Three rugby union clubs in England are to begin trialling scanning technology to monitor players' brain health.

Researchers hope a device which measures brain patterns could help medical personnel spot and manage concussion, and make sports safer.

The work is still in its infancy, but the idea is to get a baseline scan to use for comparison if an injury occurs.

It is one of a number of projects aimed at improving how contact sports deal with concussion risk.

The WAVi device involves a series of sensors being placed on the scalp to measure electrical activity, which produces a set of readings.

https://www.bbc.co.uk/news/health-61269585


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Vakanai
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Re: BCIs & Neurotechnology News and Discussions

Post by Vakanai »

Saw this a while back (like...two weeks ago?) and thought it was interesting. In ear BCI, which seems clever.

https://www.wired.com/story/nextsense-w ... our-brain/
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Re: BCIs & Neurotechnology News and Discussions

Post by Nanotechandmorefuture »

Vakanai wrote: Mon May 02, 2022 4:24 pm Saw this a while back (like...two weeks ago?) and thought it was interesting. In ear BCI, which seems clever.

https://www.wired.com/story/nextsense-w ... our-brain/
Hopefully its secure because so far the long standing threat is still hackers with these BCIs. Other than that they seem normally to be an ok thing.
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Re: BCIs & Neurotechnology News and Discussions

Post by Vakanai »

Nanotechandmorefuture wrote: Tue May 03, 2022 5:59 pm
Vakanai wrote: Mon May 02, 2022 4:24 pm Saw this a while back (like...two weeks ago?) and thought it was interesting. In ear BCI, which seems clever.

https://www.wired.com/story/nextsense-w ... our-brain/
Hopefully its secure because so far the long standing threat is still hackers with these BCIs. Other than that they seem normally to be an ok thing.
Hopefully, but I'm not worried about it right now. It's just read not write capabilities, and we're still not at the "can read thoughts" level of read, so it's not like anyone can cause anyone harm or steal particularly useful data by hacking these things just yet. Not saying we should be lax on this or that the danger isn't real, just pointing out we have time to address the issue before it can cause harm. Especially for these in ear type BCIs, which I don't see ever having write capabilities. I think that's more something that will need invasive BCIs to do, and I don't see anyone getting those for anything other than medical reasons in the next 20 to 30 years probably.

Hopefully it's at least going to be secure as other medical devices, but then I'm not even sure how secure those are. I've never heard of anyone hacking a pacemaker to kill someone, but that doesn't mean a pacemaker has good firewalls, could just mean no one's tried.
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And remember my friend, future events such as these will affect you in the future
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Directly Wireless Communication of Human Minds Via Non-invasive Brain-Computer-Metasurface Platform
June 11, 2022

Introduction:
(EurekAlert) Recently, coding metasurfaces, incorporating active components, have enabled real-time and programmable controls over EM functionalities, which used to be static or quite limited in conventional passive counterparts. However, these kinds of metasurface still require the manual operations. To directly inspect and distinguish the human's will, the brain-computer interface (BCI) is presented to establish the communication between brain and devices, offering a new control perspective for programmable metasurfaces. By collecting brain signals from the “special hat”, a BCI can decode operator’s intentions and send commands to the controlled objects, without any requirement for the operator’s muscle activity.

In a new paper published in eLight, a team of scientists, led by Professor Tie Jun Cui from State Key Laboratory of Millimeter Waves, Southeast University, China, and co-workers have developed an electromagnetic brain-computer-metasurface (EBCM) to flexibly and non-invasively control the information syntheses and wireless transmissions. The presented EBCM can not only translate the operator’s brain messages to EEG signals, and further into various EM commands, but also perform the wireless “mind-communication” between two operators.
Read more here: https://www.eurekalert.org/news-releases/955604

Also from Eurekalert and of related interest: https://www.eurekalert.org/news-releases/955602

caltrek's comment: It is too bad Starspawn no longer frequents this forum as I would have enjoyed reading his comments on these articles.
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Robotic Arms Connected Directly to Brain of Partially Paralyzed Man Allows Him to Feed Himself
June 28, 2022

Introduction:
(EurekAlert) Two robotic arms – a fork in one hand, a knife in the other – flank a seated man, who sits in front of a table, with a piece of cake on a plate. A computerized voice announces each action: “moving fork to food” and “retracting knife.” Partially paralyzed, the man makes subtle motions with his right and left fists at certain prompts, such as “select cut location”, so that the machine slices off a bite-sized piece. Now: “moving food to mouth” and another subtle gesture to align the fork with his mouth.

In less than 90 seconds, a person with very limited upper body mobility who hasn’t been able to use his fingers in about 30 years, just fed himself dessert using his mind and some smart robotic hands.

A team led by researchers at the Johns Hopkins Applied Physics Laboratory (APL), in Laurel, Maryland, and the Department of Physical Medicine and Rehabilitation (PMR) in the Johns Hopkins School of Medicine, published a paper in the journal Frontiers in Neurorobotics that described this latest feat using a brain-machine interface (BMI) and a pair of modular prosthetic limbs.

Also sometimes referred to as a brain-computer interface, BMI systems provide a direct communication link between the brain and a computer, which decodes neural signals and ‘translates’ them to perform various external functions, from moving a cursor on a screen to now enjoying a bite of cake. In this particular experiment, muscle movement signals from the brain helped control the robotic prosthetics.

A new approach

The study built on more than 15 years of research in neural science, robotics, and software, led by APL in collaboration with the Department of PMR, as part of the Revolutionizing Prosthetics program, which was originally sponsored by the US Defense Advanced Research Project Agency (DARPA). The new paper outlines an innovative model for shared control that enables a human to maneuver a pair of robotic prostheses with minimal mental input.
Read more here: https://www.eurekalert.org/news-releases/957122
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Wireless activation of targeted brain circuits in less than one second

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https://medicalxpress.com/news/2022-07- ... cuits.html
by Jade Boyd, Rice University
A research team led by Rice University neuroengineers has created wireless technology to remotely activate specific brain circuits in fruit flies in under one second.

In a published demonstration in Nature Materials, researchers from Rice, Duke University, Brown University and Baylor College of Medicine used magnetic signals to activate targeted neurons that controlled the body position of freely moving fruit flies in an enclosure.

"To study the brain or to treat neurological disorders the scientific community is searching for tools that are both incredibly precise, but also minimally invasive," said study author Jacob Robinson, an associate professor in electrical and computer engineering at Rice and a member of Rice's Neuroengineering Initiative. "Remote control of select neural circuits with magnetic fields is somewhat of a holy grail for neurotechnologies. Our work takes an important step toward that goal because it increases the speed of remote magnetic control, making it closer to the natural speed of the brain."
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Researchers observe memory formation in real time
https://medicalxpress.com/news/2022-07- ... -real.html
by Alan Toth, Stanford University
Why is it that someone who hasn't ridden a bicycle in decades can likely jump on and ride away without a wobble, but could probably not recall more than a name or two from their 3rd grade class?

This may be because physical skills—dubbed motor memories by neuroscientists—are encoded differently in our brains than our memories for names or facts.

Now, a new study by scientists with the Wu Tsai Neurosciences Institute is revealing exactly how motor memories are formed and why they are so persistent. It may even help illuminate the root causes of movement disorders like Parkinson's disease.

"We think motor memory is unique," said Jun Ding, an associate professor of neurosurgery and of neurology. "Some studies on Alzheimer's disease included participants who were previously musicians and couldn't remember their own families, but they could still play beautiful music. Clearly, there's a huge difference in the way that motor memories are formed."

Memories are thought to be encoded in the brain in the pattern of activity in networks of hundreds or thousands of neurons, sometimes distributed across distant brain regions. The concept of such a memory trace—sometimes called a memory engram—has been around for more than a century, but identifying exactly what an engram is and how it is encoded has proven extremely challenging. Previous studies have shown that some forms of learning activate specific neurons, which reactivate when the learned memory is recalled. However, whether memory engram neurons exist for motor skill learning remains unknown.
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Researchers identify a new mechanism responsible for controlling auditory sensitivity
https://medicalxpress.com/news/2022-07- ... ivity.html
by Kelsea Pieters, CU Anschutz Medical Campus

A new study published in PNAS highlights a newly identified mechanism of how auditory sensitivity is regulated that could temporarily reduce sensitivity of the auditory system to protect itself from loud sounds that can cause irreversible damage.

The study, led by CU Anschutz researchers Andrew Mecca and Giusy Caprara in the laboratory of Anthony Peng, tested a decades-old hypothesis which proposed that the gating spring, a tiny, nanometer-scale protein structure which mechanically opens and closes an ion channel in sensory hair cell cells in response to sound vibrations, can act directly as a controller of the channel's activity.

Previous work in the auditory field has focused mostly on understanding mechanisms which target the ion channel. This study provides the first evidence that the gating spring itself has the capacity to modulate the sensitivity of the channel.

"This study documents the first time we understand a mechanism that regulates auditory sensitivity on both the molecular and mechanical levels," says Peng, Ph.D., associate professor at the University of Colorado School of Medicine and senior author of the study. "We uncovered a new mechanism of modulating sensitivity, which opens the door to discovering more about how the auditory system functions generally and uses this to both maximize the range of sounds that we can detect and protect the vital sensory cells from potential damage."
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