Microchip Implants News ArticlesExcerpts of Key Microchip Implants News Articles in Media
When the U.S. Food and Drug Administration approved implanting microchips in humans, the manufacturer said it would save lives, letting doctors scan the tiny transponders to access patients' medical records almost instantly. The FDA found "reasonable assurance" the device was safe, and a sub-agency even called it one of 2005's top "innovative technologies." But neither the company nor the regulators publicly mentioned this: A series of veterinary and toxicology studies, dating to the mid-1990s, stated that chip implants had "induced" malignant tumors in some lab mice and rats. "The transponders were the cause of the tumors," said Keith Johnson, a retired toxicologic pathologist, explaining ... the findings of a 1996 study he led at the Dow Chemical Co. Leading cancer specialists reviewed the research for The Associated Press and ... said the findings troubled them. Some said they would not allow family members to receive implants, and all urged further research before the glass-encased transponders are widely implanted in people. To date, about 2,000 of the so-called radio frequency identification, or RFID, devices have been implanted in humans worldwide. Did the agency know of the tumor findings before approving the chip implants? The FDA declined repeated AP requests to specify what studies it reviewed. The FDA is overseen by the Department of Health and Human Services, which, at the time of VeriChip's approval, was headed by Tommy Thompson. Two weeks after the device's approval took effect on Jan. 10, 2005, Thompson left his Cabinet post, and within five months was a board member of VeriChip Corp. and Applied Digital Solutions. He was compensated in cash and stock options.
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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.
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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.
Let's say your teenager is a habitual truant and there is nothing you can do about it. A Washington area politician thinks he might have the solution: Fit the child with a Global Positioning System chip, then have police track him down. "It allows them to get caught easier," said Maryland Delegate Doyle Niemann (D-Prince George's), who recently co-sponsored legislation in the House that would use electronic surveillance as part of a broader truancy reduction plan. "It's going to be done unobtrusively. The chips are tiny and can be put into a hospital ID band or a necklace." Niemann's legislation mirrors a bill sponsored by state Sen. Gwendolyn Britt (D-Prince George's). Both would provide truants and their parents with better access to social services, such as mental health evaluations and help with schoolwork. Electronic monitoring would be a last resort. Still, the prospect of tagging children and using them in some "catch and release" hunt by police casts a pall over everything that's good about the plan. Odd how billions and billions of dollars keep going to a war that almost nobody wants, but there's never enough to fund the educational programs that nearly everybody says are needed. Aimed solely at students in Prince George's — the only predominantly black county in the Washington area — the truancy effort is called a "pilot program," a first-of-its-kind experiment. It would cost $400,000 to keep track of about 660 students a year.
Note: For more reliable information on the push to microchip the entire population, click here.
When Kevin Warwick enters his office building on the campus of Reading University, strange things happen. As Warwick heads down the main hall, lights turn on. When he turns to the right, an office door unbolts and opens. Each step is clocked and recorded. The building knows who he is, where he is, and what he expects to happen. The building [even] says, “Hello Professor Warwick.” The structure knows Warwick because of the electrical fuse-sized “smart card” implanted in his left arm. In Britain, he’s been dubbed “The Cyborg Man,” the first person known to have a microchip implanted in his body for communication with outside machines. Warwick predicts chip implants will one day replace time cards, criminal tracking devices, even credit cards. Capable of carrying huge amounts of data, they may, he says, one day be used to identify individuals by Social Security numbers, blood type, even their banking information. No one knows yet how the body will respond to this type of invasion. Warwick is not blind to the ethical questions of this technology. Implants ostensibly designed to clock workers in and out might be misused to monitor where people are at all times and who they are meeting. Governments could move to use implants instead of I.D. cards and passports, but what would stop them from using this new science to invade privacy? “I feel mentally different. When I am in the building I feel much more closely connected with the computer.
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.
Call it high-tech hijacking. Thieves now have the capabilities to steal your credit card information without laying a hand on your wallet. It’s new technology being used in credit and debit cards, and it’s already leaving nearly 140 million people at-risk for electronic pickpocketing. It all centers around radio frequency identification technology, or RFID. It’s supposed to make paying for things faster and easier. You just wave the card, and you’ve paid. But now some worry it’s also making life easier for crooks trying to rip you off. In a crowd, Walt Augustinowicz blends right in. And that’s the problem. “If I’m walking through a crowd, I get near people’s back pocket and their wallet, I just need to be this close to it and there’s [their] credit card and expiration date on the screen,” says Augustinowicz demonstrating how easily cards containing RFID can be hacked. Armed with a credit card reader he bought for less than $100 on-line and a netbook computer ... for about an hour he patrolled Beale Street, looking for RFID chips to read, and credit card information to steal. Even scarier, Augustinowicz says bad guys could work a crowd, stealing numbers and then e-mail them anywhere in the world. It’s not just your credit and debit cards at-risk. While they are harder to hack, all US passports issued since 2006 contain RFID technology that can be read, and swiped. “It gives me a lot of personal information like your date of birth, your photo if I wanted to make some sort of ID,” said Augustinowicz demonstrating with his reader.
Note: For an excellent video showing how easy it is for someone to hijack your credit card information if the card has an RFID, click here.
Novartis AG plans to seek regulatory approval within 18 months for a pioneering tablet containing an embedded microchip, bringing the concept of "smart-pill" technology a step closer. The initial program will use one of the Swiss firm's established drugs taken by transplant patients to avoid organ rejection. But Trevor Mundel, global head of development, believes the concept can be applied to many other pills. Novartis agreed in January to spend $24 million to secure access to chip-in-a-pill technology developed by privately owned Proteus Biomedical of Redwood City, California, putting it ahead of rivals. The biotech start-up's ingestible chips are activated by stomach acid and send information to a small patch worn on the patient's skin, which can transmit data to a smartphone or send it over the Internet to a doctor. Because the tiny chips are added to existing drugs, Novartis does not expect to have to conduct full-scale clinical trials to prove the new products work. Instead, it aims to do so-called bioequivalence tests to show they are the same as the original. A bigger issue may be what checks should be put in place to protect patients' personal medical data as it is transmitted from inside their bodies by wireless and Bluetooth.
Note: It's interesting that Fox News was the only major media to pick up this revealing Reuters story. This article seriously underplays the privacy concerns raised by this new corporate strategy. For more on this, click here. For many key reports on corporate and governmental threats to privacy, click here. For more on the dangers of microchips from reliable sources, click here.
Researchers at the University of Florida have combined RFID, microchips and printed nano-particle antennas to make pills that communicate with cell phones or laptops to tell doctors whether patients are taking their medicine. Still a prototype, the inventors hope their tattletale technology can be applied commercially to a range of medications in clinical trials and in treatment of patients with chronic diseases in which it is essential that the doses are taken and taken on time. The pill is a white capsule with a microchip embedded and with an antenna printed on the outside with ink containing silver nanoparticles. A device worn by the patient energizes the microchip via bursts of low-voltage electricity. The chip signal confirms the pill is in the stomach and the device sends a signal that the pill has been swallowed. The messages can go to cell phones or laptops to inform doctors or family members.
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All dogs are to be compulsorily microchipped so that their owners can be more easily traced under a crackdown on dangerous dogs. Under the scheme a microchip the size of a grain of rice is injected under the skin of the dog between its shoulder blades. The chip contains a unique code number, the dog's name, age, breed and health as well as the owner's name, address and phone number. When the chip is "read" by a handheld scanner the code number is revealed and the details can be checked on a national database. The measures will be set out by the home secretary, Alan Johnson, who will point to rising public concern that "status dogs" are being used by some irresponsible owners to intimidate communities or as a weapon by gangs. If the scheme were made compulsory owners would face a fine for failing to microchip their dogs.
Note: Once all dogs are required to be microchipped, what will come next? To be informed of some disturbing plans to microchip all of us, click here. For lots more on microchipping from reliable sources, click here.
Imagine a day when the U.S. government implants microchips inside the brains of U.S. soldiers. Well you don't have to think too far into the future. The defense department is studying the idea now. The chip would be the size of a grain of rice. How far is too far when it comes to privacy? The department of defense recently awarded $1.6 million to Clemson University to develop an implantable biochip. It would go into the brain using a new gel that prevents the human body from rejecting it. The overall idea is to improve the quality and speed of care for fallen soldiers. "It's just crazy. To me, it's like a bad sci-fi movie," says Yelena Slattery [from] the website www.WeThePeopleWillNotBeChipped.com. Slattery says, "Soldiers can't choose not to get certain things done because they become government property once they sign up. When does it end? When does it become an infringement on a person's privacy?" Once the chip is in, she says, could those soldiers be put on surveillance, even when they're off-duty? A spokesman for veterans of foreign wars also urged caution. Joe Davis said, "If you have a chip that's holding a gigabyte, or 10 gigs, like an iPod, what kind of information is going to be on there? How could this be used against you if you were taken captive?"
Note: For a treasure trove of recent and reliable information on the increasing penetration of microchips into our lives, click here.
Scientists have turned living rats into remote-controlled, pleasure-driven robots which can be guided up ladders, through ruins and into minefields at the click of a laptop key. The project ... is funded by the US military's research arm. Animals have often been used by humans in combat and in search and rescue, but not under direct computer-to-brain electronic control. The advent of surgically altered roborats marks the crossing of a new boundary in the mechanisation, and potential militarisation, of nature. In 10 sessions the rats learned that if they ran forward and turned left or right on cue, they would be "rewarded" with a buzz of electrically delivered pleasure. Once trained they would move instantaneously and accurately as directed, for up to an hour at a time. The rats could be steered up ladders, along narrow ledges and down ramps, up trees, and into collapsed piles of concrete rubble. Roborats fitted with cameras or other sensors could be used as search and rescue aids. In theory, be put to some unpleasant uses, such as assassination. [For] surveillance ... you could apply this to birds ... if you could fit birds with sensors and cameras. Michael Reiss, professor of science education at London's Institute of Education and a leading bioethics thinker ... said he was uneasy about humankind "subverting the autonomy" of animals. "There is a part of me that is not entirely happy with the idea of our subverting a sentient animal's own aspirations and wish to lead a life of its own."
Note: Remember that secret military projects are almost always at least a decade in advance of anything you read in the media. For lots more on this little-known subject, click here.
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.
Climbing into his Volvo, outfitted with a Matrics antenna and a Motorola reader he'd bought on eBay for $190, Chris Paget cruised the streets of San Francisco with this objective: To read the identity cards of strangers, wirelessly, without ever leaving his car. It took him 20 minutes to strike hacker's gold. Zipping past Fisherman's Wharf, his scanner detected, then downloaded to his laptop, the unique serial numbers of two pedestrians' electronic U.S. passport cards embedded with radio frequency identification, or RFID, tags. Within an hour, he'd "skimmed" the identifiers of four more of the new, microchipped PASS cards from a distance of 20 feet. Paget's February experiment demonstrated something privacy advocates had feared for years: That RFID, coupled with other technologies, could make people trackable without their knowledge or consent. He filmed his drive-by heist, and soon his video went viral on the Web, intensifying a debate over a push by government, federal and state, to put tracking technologies in identity documents and over their potential to erode privacy. With advances in tracking technologies coming at an ever-faster rate, critics say, it won't be long before governments could be able to identify and track anyone in real time, 24-7, from a cafe in Paris to the shores of California. The key to getting such a system to work, these opponents say, is making sure everyone carries an RFID tag linked to a biometric data file. On June 1, it became mandatory for Americans entering the United States by land or sea from Canada, Mexico, Bermuda and the Caribbean to present identity documents embedded with RFID tags, though conventional passports remain valid until they expire.
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The only grade school in this rural town is requiring students to wear radio frequency identification badges that can track their every move. Some parents are outraged, fearing it will rob their children of privacy. The badges introduced at Brittan Elementary School on Jan. 18 rely on the same radio frequency and scanner technology that companies use to track livestock and product inventory. The system was imposed, without parental input, by the school as a way to simplify attendance-taking and potentially reduce vandalism and improve student safety. Some parents see a system that can monitor their children's movements on campus as something straight out of Orwell. This latest adaptation of radio frequency ID technology was developed by InCom Corp., a local company co-founded by the parent of a former Brittan student, and some parents are suspicious about the financial relationship between the school and the company. InCom has paid the school several thousand dollars for agreeing to the experiment, and has promised a royalty from each sale if the system takes off, said the company's co-founder, Michael Dobson, who works as a technology specialist in the town's high school.
A Scottish nightclub is about to become the first in Britain to offer its customers the chance to have a microchip implanted in their arm to save them carrying cash. The "digital wallet", the size of a grain of rice, guarantees entry to the club and allows customers to buy drinks on account. Brad Stevens, owner of Bar Soba in Glasgow, said his customers had responded enthusiastically to the idea. The VeriChip is inserted by a medical professional and then scanned for its unique ID number as a customer enters the bar. The scheme was criticised by a spokesman for the Scottish Executive, who said the microchip could encourage excessive drinking, and by Notags, a consumer group set up to resist the spread of radio frequency identification devices. A spokesman said: "The chip contains your name and ID number and, as this could be read remotely without your knowledge, that is already too much information."
Note: For summaries of media articles showing an agenda to promote microchip implants in humans, click here. For a well-researched essay by a caring woman whose dog died of cancer likely from a microchip, click here.
Queuing to get into one nightclub in Spain could soon be a thing of the past for regular customers thanks to a tiny computer chip implanted under their skin. The technology, known as a VeriChip, also means nightclubbers can leave their cash and cards at home and buy drinks using a scanner. The bill can then be paid later. Clubbers who want to join the scheme at Baja Beach Club in Barcelona pay 125 euros (about US $150) for the VeriChip -- about the size of a grain of rice -- to be implanted in their body. Then when they pass through a scanner the chip is activated and it emits a signal containing the individual's number, which is then transmitted to a secure data storage site. The club's director, Conrad Chase, said he began using the VeriChip, made by Applied Digital Solutions, in March 2004 because he needed something similar to a VIP card and wanted to provide his customers with better service. He said 10 of the club's regular customers, including himself, have been implanted with the chip, and predicted more would follow. "I know many people who want to be implanted," said Chase. "Almost everybody now has a piercing, tattoos or silicone. Why not get the chip and be original?" Chase said VeriChip could also boost security by speeding up checks at airports, for example. He denied the scheme had any drawbacks. The VeriChip is an in-house debit card and contains no personal information.
Note: Why is the media so upbeat about this? The article raises very few questions, yet seems to promote microchip implants in humans as the wave of the future for commerce.
Jerome Dobson is not joking. The University of Kansas research professor, a respected leader in the field of geographic information technologies [speculates about] "geoslavery" -- a form of technological human control that could make "George Orwell's `Big Brother' nightmare ... look amateurish." He's talking about overlords electronically punishing errant workers. He's talking about the possibility of people hooked to, tracked by, and potentially shocked or burned using inexpensive electronic bracelets, manacles or implants. Dobson worked for 26 years at Tennessee's Oak Ridge National Laboratory creating, for the government, the maps used in global tracking. He is the president of the American Geographical Society. And he is not alone in his thoughts. [In] the journal published by the Institute of Electrical and Electronics Engineers, a paper titled "Geoslavery" is co-written by Dobson and Peter F. Fisher, British editor of the International Journal of Geographical Information Science. "Human tracking systems, currently sold commercially without restrictions, already empower those who would be masters. Safeguards have not yet evolved to protect those destined to be slaves," they wrote. With a laptop computer, employers can keep track of their drivers' every move. Implanted chips ... keep track of livestock or pets. Whereify Wireless Inc. sells its GPS Kids Locator for $400. The device, which also looks like a watch, can be locked to a child's wrist. Dobson said that ... none of the companies was thinking of anything nefarious. [Yet he] worries that where there is an evil will, there is an evil way. He hopes [to ] create debate and perhaps legislation or safeguards around the technology that will keep it from being misused.
US scientists say a silicon chip could be used to replace the hippocampus, where the storage of memories is co-ordinated. They are due to start testing the device on rats' brains shortly. If that goes well, the Californian researchers will test the artificial hippocampus in live rats within six months and then monkeys trained to carry out memory tasks before progressing to human trials once the chip has been proved to be safe. The hippocampus is an area at the base of the brain in humans, close to the junction with the spinal cord. It is believed it "encodes" experiences so they can be stored as long-term memories in another part of the brain. the researchers were able to devise a mathematical model of a whole hippocampus. The model was then programmed on to a chip. They suggest the chip would sit on a patient's skull, rather than inside the brain. Bernard Williams, a philosopher at Oxford University, UK, who is an expert in personal identity, said people might find the technology hard to accept at first.
Note: Consider that top secret military experiments in almost all fields are generally at least a decade ahead of anything reported in the media. What do you think they might have developed by now? Could they have developed a way to erase and even replace memories? For more, click here.
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