Microchip Implants News StoriesExcerpts of Key Microchip Implants News Stories in Major Media
Note: This comprehensive list of microchip implants news stories is usually updated once a week. Explore our full index to revealing excerpts of key major media news stories on several dozen engaging topics. And don't miss amazing excerpts from 20 of the most revealing news articles ever published.
When Elon Musk gave the world a demo in August of his latest endeavor, the brain-computer interface (BCI) Neuralink, he reminded us that the lines between brain and machine are blurring quickly. It bears remembering, however, that Neuralink is, at its core, a computer – and as with all computing advancements in human history, the more complex and smart computers become, the more attractive targets they become for hackers. Our brains hold information computers don't have. A brain linked to a computer/AI such as a BCI removes that barrier to the brain, potentially allowing hackers to rush in and cause problems we can't even fathom today. Might hacking humans via BCI be the next major evolution in hacking, carried out through a dangerous combination of past hacking methods? Previous eras were defined by obstacles between hackers and their targets. However, what happens when that disconnect between humans and tech is blurred? When they're essentially one and the same? Should a computing device literally connected to the brain, as Neuralink is, become hacked, the consequences could be catastrophic, giving hackers ultimate control over someone. If Neuralink penetrates deep into the human brain with high fidelity, what might hacking a human look like? Following traditional patterns, hackers would likely target individuals with high net worths and perhaps attempt to manipulate them into wiring millions of dollars to a hacker's offshore bank account.
Note: For more on this, see an article in the UK's Independent titled "Groundbreaking new material 'could allow artificial intelligence to merge with the human brain'." Meanwhile, the military is talking about "human-machine symbiosis." And Yale professor Charles Morgan describes in a military presentation how hypodermic needles can be used to alter a person's memory and much more in this two-minute video. For more along these lines, see concise summaries of deeply revealing news articles on microchip implants from reliable major media sources.
Keeping track of vaccinations remains a major challenge in the developing world. Now a group of Massachusetts Institute of Technology researchers has developed a novel way to address this problem: embedding the record directly into the skin. Along with the vaccine, a child would be injected with a bit of dye that is invisible to the naked eye but easily seen with a special cell-phone filter, combined with an app that shines near-infrared light onto the skin. The dye would be expected to last up to five years, according to tests on pig and rat skin and human skin in a dish. The system - which has not yet been tested in children - would provide quick and easy access to vaccination history ... according to the study. Delivering the dye required the researchers to find something that was safe and would last long enough to be useful. The team ended up using a technology called quantum dots, tiny semiconducting crystals that reflect light and were originally developed to label cells during research. The work was funded by the Bill & Melinda Gates Foundation and came about because of a direct request from Microsoft founder and philanthropist Bill Gates himself. The researchers hope to add more detailed information to the dots, such as the date of vaccination. Along with them, the team eventually wants to inject sensors that could also potentially be used to track aspects of health such as insulin levels in diabetics.
Note: Bill Gates insists he never said we'd need digital vaccine passports. Yet researchers have found that his TED Talk which included this statement was edited to remove it. You can prove this with the evidence provided on this webpage. For more along these lines, see concise summaries of deeply revealing news articles on vaccines and microchip implants from reliable major media sources.
A four-inch wafer of silicon has been turned into an army of one million microscopic, walking robots, thanks to some clever engineering employed by researchers at Cornell University in New York. In a paper, published Wednesday in the journal Nature, a team of roboticists detail the creation of their invisible army of robots, which are less than 0.1mm in size (about the width of a human hair) and cannot be seen with the naked eye. The robots ... take advantage of an innovative, new class of actuators, which are the legs of the microrobots. Controlling movement in these tiny machines requires the researchers to shine a laser on minuscule light-sensitive circuits on their backs, which propels their four legs forward. They've been designed to operate in all manner of environments such as extreme acidity and temperatures. One of their chief purposes, the researchers say, could be to investigate the human body from the inside. The team was able to build incredibly small legs, which are connected to two different patches on the back of the robot - one for the front pair of legs, one for the back. Alternating light between the patches propels the microrobot forward. The research team were able to show the microrobots devices could fit within the narrowest hypodermic needle and thus, could be "injected" into the body. The machines aren't intelligent enough to target a diseased cell or respond to stimuli, so there's no application for this invisible army. However, the researchers said that "their capabilities can rapidly evolve."
Note: Remember that secret military projects are often 20 years or more advanced of anything made public. Could this technology have already been developed in secret projects and used in military vaccines? Yale professor Charles Morgan describes in this two-minute video (or this one) how cells injected through hypodermic needles can cause foreign substances to be manufactured in our bodies, how they can alter a person's memory, and much more. His full presentation on psycho-neurobiology and war given at West Point Military Academy is quite disturbing.
Reading minds has just come a step closer to reality: scientists have developed artificial intelligence that can turn brain activity into text. While the system currently works on neural patterns detected while someone is speaking aloud, experts say it could eventually aid communication for patients who are unable to speak or type. "We are not there yet but we think this could be the basis of a speech prosthesis," said Dr Joseph Makin, co-author of the research from the University of California, San Francisco. Writing in the journal Nature Neuroscience, Makin and colleagues reveal how they developed their system by recruiting four participants who had electrode arrays implanted in their brain to monitor epileptic seizures. These participants were asked to read aloud from 50 set sentences multiple times, including "Tina Turner is a pop singer", and "Those thieves stole 30 jewels". The team tracked their neural activity while they were speaking. This data was then fed into a machine-learning algorithm, a type of artificial intelligence system that converted the brain activity data for each spoken sentence into a string of numbers. At first the system spat out nonsense sentences. But as the system compared each sequence of words with the sentences that were actually read aloud it improved, learning how the string of numbers related to words, and which words tend to follow each other. The system was not perfect. However, the team found the accuracy of the new system was far higher than previous approaches.
Note: Remember that the military in their secret projects is often 10 to 20 years in advance of anything public. In 2008, CBS reported the story of a man with ALS who could type using only a brain computer interface. For more along these lines, see concise summaries of deeply revealing news articles on microchip implants from reliable major media sources.
A soldier wears a skullcap that stimulates his brain to make him learn skills faster, or reads his thoughts as a way to control a drone. Another is plugged into a Tron-like “active cyber defense system,” in which she mentally teams up with computer systems “to successfully multitask during complex military missions.” The Pentagon is already researching these seemingly sci-fi concepts. The basics of brain-machine interfaces are being developed—just watch the videos of patients moving prosthetic limbs with their minds. The Defense Department is examining newly scientific tools, like genetic engineering, brain chemistry, and shrinking robotics, for even more dramatic enhancements. But the real trick may not be granting superpowers, but rather making sure those effects are temporary. Last year, three Canadian defense researchers published a paper that explored the intersection of human enhancement and ethics. They found that the permanence of the enhancement could have impacts on troops in the field ... as well as a return to civilian life. They also note that “many soldier resilience human enhancement technologies raised health and safety questions.” The Canadian researchers wrote: “Are there unknown side effects or long term effects that could lead to unanticipated health problems during deployment or after discharge? Moreover, is it ethical to force a soldier to use the technology in question, or should he/she be allowed to consent to its use? Can consent be fully free from coercion in the military?”
Note: Read an excellent article detailing the risks of biosensors implanted under the skin which have already been developed. Some smaller than a grain of rice can be injected with a needle. Watch a slick video promoting this brave new world. Learn how this is already planned for use on soldiers. For more along these lines, see concise summaries of deeply revealing news articles on military corruption from reliable major media sources.
Dr. José M. R. Delgado of [Yale University] is one of the leading pioneers in ... E.S.B.: electrical stimulation of the brain. He is also the impassioned prophet of a new “psychocivilized” society whose members would influence and alter their own mental functions to create a “happier, less destructive and better balanced man.” [Delgado said,] “We know that [E.S.B.] can delay a heartbeat, move a finger, bring a word to memory, evoke a sensation.” [His] animals performed like electrical toys. One monkey, Ludy, each time she was stimulated [would] stand up on two feet and circle to the right; climb a pole and then descend again. This “automatism” was repeated [by Ludy] through 20,000 stimulations! The tickling of a few electric volts can send a monkey into a deep sleep, or snap him awake. Similarly, human beings are unable to resist motor responses elicited by E.S.B. Large‐scale studies of rats with electrodes in [a] “pleasureful area” found that they preferred E.S.B. above all else—including water, sex and food. Sometimes ravenously hungry rats, ignoring nearby food, would stimulate themselves up to 5,000 times an hour—persisting with manic singleness of purpose for more than a day running, until they keeled over on the floor in a faint! “In humans also ... states of arousal and pleasure have been evoked" ... Delgado added. One patient of ours was a rather reserved 30‐year‐old woman. E.S.B. at one cerebral point made her suddenly confess her passionate regard for the therapist—whom she'd never seen before." According to one psychoanalyst, “The danger of this being abused is ... tremendous.”
Note: Though quite long, this entire intriguing article is well worth reading. If behavior manipulation was this advanced in 1970, what are they capable of now, and why is it being kept quiet? For more along these lines, see concise summaries of deeply revealing news articles on mind control from reliable major media sources. Then explore the excellent, reliable resources provided in our Mind Control Information Center.
Newly released files from “behavior modification,” or mind control, projects conducted as part of the infamous Project MKUltra reveal the CIA experimented in more than controlling humans with psychotropic drugs, electrical shocks and radio waves—they also created field operational, remote-controlled dogs. The documents were provided under the Freedom of Information Act (FOIA) by John Greenewald, founder of The Black Vault, a site specializing in declassified government records. In one declassified letter (released as file C00021825) a redacted individual writes to a doctor (whose name has also been redacted) with advice about launching a laboratory for experiments in animal mind control. The writer of the letter is already an expert in the field, whose earlier work had culminated with the creation of six remote control dogs, which could be made to run, turn and stop. The letter writer characterizes the work with remote-controlling dogs as a success, describing “a demonstrated procedure for controlling the free-field behaviors of an unrestrained dog.” Attached to the letter is the writer’s final report from his earlier research, published in 1965, titled “Remote Control Behavior with Rewarding Electrical Stimulation of the Brain,” with the principle investigator’s name redacted. The prospect of a potential new laboratory seems to fire the letter writer’s imagination, who describes potential experimentation on “a range of species,” should they want to move past “basic research.”
Note: If the CIA had this level of sophistication in 1967, what do you think they are capable of now? Read more on the development of microchip implants. For more along these lines, see concise summaries of deeply revealing news articles on CIA mind control programs.
Once among the world’s most acclaimed scientists, Jose Manuel Rodriguez Delgado has become an urban legend. Delgado pioneered ... the brain chip, which manipulates the mind by electrically stimulating neural tissue with implanted electrodes. In 1965, [he] stopped a charging bull in its tracks by sending a radio signal to a device implanted in its brain. He also implanted radio-equipped electrode arrays, which he called “stimoceivers,” in dogs, cats, monkeys, chimpanzees, gibbons, and humans. With the push of a button, he could evoke smiles, snarls, bliss, terror, hunger, garrulousness, lust, and other responses. Delgado also invented implantable “chemotrodes” that could release precise amounts of drugs directly into the brain. In 1952, Delgado co-authored ... the first peer-reviewed paper describing deep brain stimulation of humans. Over the next two decades, he implanted electrodes in some 25 subjects. Most were schizophrenics and epileptics at the now-defunct State Hospital for Mental Diseases in Howard, Rhode Island. The sponsorship of his experiments by the Office of Naval Research and the Air Force Aeromedical Research Laboratory (as well as several civilian agencies) raised eyebrows. He invented a halo-like device and a helmet that could deliver electromagnetic pulses to specific neural regions. Testing the gadgets on animals and human volunteers, including himself and his daughter, Delgado discovered that he could induce drowsiness, alertness, and other states.
Note: Read a 1965 New York Times article on Delgado's disturbing research. Imagine how far the military has gone with this microchip technology in the over 50 years since Delgado invented it. For more along these lines, see concise summaries of deeply revealing news articles on microchip implants and mind control.
Last year an American company microchipped dozens of its workers. Of the 90 people who work at [Three Square Market] headquarters, 72 are now chipped. Two months ago, the company ... started chipping people with dementia. If someone wanders off and gets lost, police can scan the chip “and they will know all their medical information, what drugs they can and can’t have, they’ll know their identity.” So far, Three Square Market has chipped 100 people, but plans to do 10,000. The company has just launched a mobile phone app that pairs the chip with the phone’s GPS, enabling the implantee’s location to be tracked. Last week, it started using it with people released from prison on probation. Some Chinese companies are using sensors in helmets and hats to scan workers’ brainwaves. There are tech companies selling products that can ... monitor keystrokes and web usage, and even photograph [employees] using their computers’ webcams. All this can be done remotely. Monitoring is built into many of the jobs that form the so-called “gig economy”. It’s not easy to object to the constant surveillance when you’re desperate for work. What has surprised [Cass Business School professor André Spicer] is how willingly people in better-paid jobs have taken to it. Spicer has watched the shift away from “monitoring something like emails to monitoring people’s bodies – the rise of bio-tracking basically. The monitoring of your vital signs, emotions, moods.”
Note: Author James Bloodworth describes the high tech monitoring of workers at Amazon warehouses in his new book, "Hired: Six Months Undercover in Low-Wage Britain". For more along these lines, see concise summaries of deeply revealing news articles on microchip implants and the disappearance of privacy.
Picture this: While reaching for the cookie jar - or cigarette or bottle of booze or other temptation - a sudden slap denies your outstretched hand. When the urge returns, out comes another slap. Now imagine those "slaps" occurring inside the brain. In a report published Monday in the Proceedings of the National Academy of Sciences, Stanford neuroscientists say they've achieved this sort of mind-reading in binge-eating mice. They found a telltale pattern of brain activity that comes up seconds before the animals start to pig out - and delivering a quick zap to that part of the brain kept the mice from overindulging. Whether this strategy could block harmful impulses in people remains unclear. The current study used a brain stimulation device already approved for hard-to-treat epilepsy. And based on the new findings, a clinical trial testing this off-the-shelf system for some forms of obesity could start as early as next summer, says Casey Halpern, the study's leader. He thinks the approach could also work for eating disorders and a range of other addictive or potentially life-threatening urges. As a physician-researcher, Halpern specializes in deep brain stimulation (DBS), a surgical treatment in which battery-powered implants send electrical pulses to brain areas where signals go awry. The Food and Drug Administration has approved DBS therapy for movement disorders such as Parkinson's disease, tremor and dystonia. Occasionally DBS is a last-resort treatment for obsessive-compulsive disorder (OCD).
Note: Remember that secret military and intelligence projects are usually 10 to 20 years ahead of anything being done in the public. Could some groups already have developed microchip implants designed for behavior modification or mind control?
Regulators have approved the first drug with a sensor that alerts doctors when the medication has been taken. The digital pill combines two existing products: the former blockbuster psychiatric medication Abilify - long used to treat schizophrenia and bipolar disorder - with a sensor tracking system first approved in 2012. Experts say the technology could be a useful tool, but it will also change how doctors relate to their patients as they’re able to see whether they are following instructions. The pill has not yet been shown to actually improve patients’ medication compliance, a feature insurers are likely to insist on before paying for the pill. Additionally, patients must be willing to allow their doctors and caregivers to access the digital information. The technology carries risks for patient privacy, too, if there are breaches of medical data or unauthorized use as a surveillance tool, said James Giordano, a professor of neurology at Georgetown University Medical Center. “Could this type of device be used for real-time surveillance? The answer is of course it could,” said Giordano. The new pill, Abilify MyCite, is embedded with a digital sensor that is activated by stomach fluids, sending a signal to a patch worn by the patient and notifying a digital smartphone app that the medication has been taken.
Note: In 2010, it was quietly reported that Novartis AG would be seeking regulatory approval for such "chip-in-a-pill technology". For more along these lines, see concise summaries of deeply revealing news articles on microchip implants and the disappearance of privacy.
Forget swiping a credit card or badge to buy food at work. One Wisconsin-based tech firm is offering to install rice-size microchips in its employees' hands. Three Square Market will be the first firm in the U.S. to use the device, which was approved by the FDA in 2004, CEO Todd Westby told CNBC on Monday. "We think it's the right thing to do for advancing innovation just like the driverless car basically did in recent months," he said. The company, which provides technology for break-room markets or mini-market kiosks, is anticipating over 50 employees to be voluntarily chipped. Westby said he and his family will be chipped, too. The chip, which costs $300 per implant, is inserted with a needle between the thumb and forefinger. Once an employee has the chip installed, he or she can purchase food in the break room, open doors and log into computers. And for those who may be concerned about Big Brother watching, Westby said there is no way for employees to be tracked. "Unlike your cell phone that is trackable and traceable pretty much no matter where you are, this device is only readable if you're within six inches of a proximity reader," he said. Three Square Market's partner, BioHax International in Sweden, has already started using the microchips in about 150 of its employees.
Note: A Swedish company's chief executive was recently "chipped" live on stage to promote this dubious technology. And do you really think they are not trackable? Read about the agenda to chip all people in this powerful essay and these news articles.
Scientists have demonstrated “proof of principle” that traumatic memories can be erased from the brain – as seen in the science fiction film Eternal Sunshine Of The Spotless Mind. Studies in mice demonstrated that fearful memories prompted by a sound associated with an electric shock could be turned off and on. The researchers said attempting to do this in humans was full of ethical problems. But their studies suggest it will be possible at some point in the future. Professor Sheena Josselyn said they had been able to discover the specific brain cells where a particular memory was stored. “So we can target where in the brain a memory has gone,” she said. “We can then decrease the activity in these cells … And it is as if we erase the memory.” After this was done, the mice were unperturbed when they heard the sound they had previously learned to associate with the shock. Increasing the cells’ activity restored the memory. “We can turn memory on and turn memory off,” Professor Josselyn said. “We can erase a fearful memory in mice, suggesting in people there might be a way of targeting just those cells that are important in just this traumatic memory, perhaps getting rid of this traumatic memory.” Asked about the ethical considerations, Professor Josselyn said ... that she did not see a future in which brain cells would be killed off to remove memories. But she added: “For something that really interferes with your everyday life ... a treatment that targets just those cells could be appropriate.”
Note: Remember that secret military and intelligence projects are usually 10 to 20 years ahead of anything being done in the public. Could some groups already have refined the ability to erase, and possibly even implant memories? For more along these lines, see concise summaries of deeply revealing news articles on mind control and microchip implants.
Dog owners should consider flouting new laws for mandatory microchipping, according to a specialist who warns the procedure can kill puppies and small breeds. Fines of up to Ł500 will be issued from April 6, the deadline for all dogs over the age of eight weeks to have the chips fitted to enable wardens to scan them for the name and address of their owner. More than a million of the country’s 8.5 million dogs are still not registered and around three million more owners have failed to update their details after moving house. But Richard Allport, a senior vet and owner of the Natural Medicine Centre, said the chip can cause serious health problems for young and small dogs. “I think the age by which puppies must be microchipped – eight weeks – is far too young,” Mr Allport wrote in specialist magazine Dogs Today. “My advice to people who don’t want their dogs microchipped is to sit tight and do nothing.” The procedure involves a sterile chip, the size of a grain of rice, implanted between the shoulder blades. If the new law fails to reduce numbers of strays, wardens could eventually be deployed to patrol parks carrying out random spot-checks. Last year 110,000 stray dogs were picked up off the streets, of which 47,596 went unclaimed in council kennels. So far 86 per cent of dogs have been chipped, but the Dogs Trust said a large percentage of details on databases were out of date.
Note: Explore an excellent website on the risks and dangers of microchipping your pets.
A Berkshire family say they are devastated at being forced to leave their pet dog in France after his pet passport microchip failed. Matt Roberts and his family returned to Arborfield, near Reading, without their dog Indy because the technology had stopped working. Indy has undergone surgery costing Ł1,000 to remove the chip. It could take up to six months for him to be issued with a new pet passport. Mr Roberts had just finished a two week holiday in the south of France with his wife Dorota and six-month-old daughter Harriet when he tried to return to the UK via Dunkirk. However, when the dogs tried to re-enter the country the scanners could not read Indy's microchip. The family had spent spent Ł400 on pet passports for his two Shih Tzu dogs, Indy and Buzz. Indy will remain in kennels in France unless the manufacturer can confirm that the chip they have removed from him matches the documentation on the pet passport. However, vets have said that the chip has corrupted and will be difficult to read. Mr Roberts may have to apply for a new pet passport for Indy or put the dog into quarantine. He said he was reluctant to do this, and was already spending Ł15 a night to keep his dog in kennels. A Defra spokesman said: "Around 100 pets a year have a failed or missing microchip on arrival to the UK. "In the majority of cases the microchip number can be removed and identified or read by the manufacturer, and the pet eventually allowed to enter."
Researchers from Brown University made headlines after they successfully demonstrated how a paralyzed woman who had lost the use of her arms and legs could control a robotic arm using her brainwaves. In a video, Cathy Hutchinson imagines drinking a cup of coffee, and the robotic arm brings the cup to her lips. Hutchinson is connected to the robotic arm through a rod-like “pedestal” driven into her skull. Researchers at UC Berkeley has been working on plans for a less invasive, wireless monitoring system. Earlier this month, they released a draft paper: “Neural Dust: An Ultrasonic, Low Power Solution for Chronic Brain-Machine Interfaces.” Dongjin Seo, a [UC Berkeley] graduate student ... authored the paper under the supervision of senior faculty members, including Michel Maharbiz who has famously created cyborg beetles for the US Defense Department. Seo said the researchers’ goal is to build an implantable system that is ultra-miniature, extremely compliant, and scalable to be viable for a lifetime, for brain-machine interfaces. The Berkeley researchers propose to sprinkle the brain with tiny, dust-sized, wireless sensors. This would reduce the risk of infection ... and limit the trauma to one initial operation. During that operation, the skull would be opened, and sensors would be inserted into the brain. At the same time a separate transceiver would be placed directly under the skull but above the brain. The transceiver would communicate with the sensors via ultrasound.
Note: For information on the risks and dangers of this invasive technology being used to control minds, see this article. For more along these lines, see concise summaries of deeply revealing news articles on microchip implants and mind control.
The real time monitoring of brain function has advanced in leaps and bounds in recent years. That’s ... led to a new engineering discipline of brain-machine interfaces, which allows people to control machines by thought alone. Today, Dongjin Seo and pals at the University of California Berkeley reveal an entirely new way to study and interact with the brain. Their idea is to sprinkle electronic sensors the size of dust particles into the cortex and to interrogate them remotely using ultrasound. The ultrasound also powers this so-called neural dust. Each particle of neural dust consists of standard CMOS circuits and sensors that measure the electrical activity in neurons nearby. This is coupled to a piezoelectric material that converts ultra-high-frequency sound waves into electrical signals and vice versa. The neural dust is interrogated by another component placed beneath the scale but powered from outside the body. This generates the ultrasound that powers the neural dust and sensors that listen out for their response, rather like an RFID system. The system is also tetherless - the data is collected and stored outside the body for later analysis. [Seo and co say] implanting the neural dust particles in the cortex ... can probably be done by fabricating the dust particles on the tips of a fine wire array, held in place by surface tension, for example. This array would be dipped into the cortex where the dust particles become embedded.
Note: For information on the risks and dangers of this invasive technology being used to control minds, see this article. For more along these lines, see concise summaries of deeply revealing news articles on microchip implants and mind control.
Felicio de Costa ... arrives at the front door and holds his hand against it to gain entry. Inside he does the same thing to get into the office space he rents [at Epicenter, a new hi-tech office development in Sweden]. He can also wave his hand to operate the photocopier. That's all because he has a tiny RFID (radio-frequency identification) chip, about the size of a grain of rice, implanted in his hand. On the day of the building's official opening, the developer's chief executive was, himself, chipped live on stage. The whole process is being organised by a Swedish bio-hacking group. While some of the people around the building were looking forward to being chipped, others were distinctly dubious. An older woman ... saw little point in being chipped just to get through a door. But [Epicenter official] Hannes Sjoblad says he and the Swedish Biohacking Group have another objective - preparing us all for the day when others want to chip us. "We want to be able to understand this technology before big corporates and big government come to us and say everyone should get chipped - the tax authority chip, the Google or Facebook chip." Then, he says, we'll all be able to question the way the technology is implemented from a position of much greater knowledge.
Scientists have created a mind-control system that allows a person to alter the genes in a mouse through the power of thought. A person wearing the device could alter how much protein was made from a gene in the mouse. Volunteers found that they could turn the gene on or off in the mouse at will. The experiment could lead to the development of a radical new approach to the treatment of diseases. Martin Fussenegger, a bioengineer who leads the project at ETH Zurich said he hoped to see clinical trials in people with chronic pain or epilepsy in the next five years. Fussenegger’s team describes a system that demonstrates the idea. The mouse was fitted with a small implant containing copper coils, a light-emitting diode (LED) and a tiny container of genetically modified cells. When the electromagnetic field switches on beneath the mouse, an electric current is induced in the implant’s coils which makes the LED shine. This light illuminates the cells which are designed to respond by switching on a particular gene, causing the cells to make a new protein which seeps out of the implant’s membrane. In the tests, the new protein ... allowed scientists to measure its levels ... while people wearing the headset changed their state of mind. In a series of follow-up experiments, volunteers wearing the headset could see when the LED came on, because the red light shone through the mouse’s skin. In time, they learned to control the light – and so the gene – simply by thinking.
Note: For more along these lines, see concise summaries of deeply revealing microchip news articles from reliable major media sources.
The Defense Advanced Research Projects Agency, or DARPA, is launching a $70 million program to help military personnel with psychiatric disorders using electronic devices implanted in the brain. The goal of the five-year program is to develop new ways of treating problems including depression, anxiety and post-traumatic stress disorder, all of which are common among service members who fought in Iraq or Afghanistan. The new program will fund development of high-tech implanted devices able to both monitor and electrically stimulate specific brain circuits. The effort will be led by scientists at the University of California, San Francisco and Massachusetts General Hospital. The UCSF team will begin its work by studying volunteers who already have probes in their brains as part of treatment for epilepsy or Parkinson's disease. That will allow researchers to "record directly from the brain at a level of resolution that's never [been] done before," says Eddie Chang, a neurosurgeon at UCSF. And because many of the volunteers also have depression, anxiety and other problems, it should be possible to figure out how these conditions have changed specific circuits in the brain, Chang says. The scientists ... hope to design tiny electronic implants that can stimulate the cells in faulty brain circuits. "We know that once you start putting stimulation into the brain, the brain will change in response," Chang says.
Note: Do we really want the military implanting chips in people's brains? What other behavior might they want to control? For more on microchip implants, see the deeply revealing reports from reliable major media sources available here.
Important Note: Explore our full index to revealing excerpts of key major media news stories on several dozen engaging topics. And don't miss amazing excerpts from 20 of the most revealing news articles ever published.