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Speaker 1 from Medtronic asks about patient engagement in relation to the advancements in healthcare technology. Speaker 2 responds by giving an example of the FDA-approved electronic pill, which contains a biological chip. When the pill is taken and dissolves in the stomach, it sends a signal to confirm that the patient has taken the medication. This technology has various applications, such as ensuring medication compliance and allowing insurance companies to track patient adherence. Speaker 2 acknowledges that there may be initial costs involved but emphasizes the need for investment in this field.

They are now pushing wearables on the population. And starting with external wearables and then going into internal wearables in the future, we do know as well Gates Foundation funded what's called microneedle patch implants that install quantum dots in skin for about five years to for use as vaccine passports. Again, this is on the National Library of Medicine website. So, yeah, the plan appears to be going from external wearables, get them to wear that, and then you go into the internal wearables, these implants.

The FDA approved the first electronic pill, a biological chip in a tablet that sends a signal when dissolved in the stomach to confirm ingestion. This technology has potential applications for ensuring medication compliance and allowing insurance companies to track patient adherence. The advancements in this field are truly fascinating.

The Food and Drug Administration granted final approval to the Pfizer COVID vaccine. Those hesitant due to its Emergency Use Authorization may now be more inclined to take it. The vaccine has been proven safe and effective and now has final approval. The speaker urges listeners to take the vaccine to save their life, and potentially the life of another.

Speaker 0 describes a theory they’re exploring: every vaccine examined, and the patents and testimony from the Department of Energy, point to a 500,000-strong collection of bioweapons categories, including plague, HIV, anthrax. They claim all these bacteria and yeasts have been mutated and converted into a “hybrid gamma irradiated” form, advanced and radioactive, and that these are entering humanity. They say, regarding a nuclear stockpile, humanity itself becomes the host of these radioactive materials, since they are digital and can be activated to detonate a mass casualty event. Speaker 1 clarifies by restating the concern: they can create a pandemic at any moment by activating materials that have infiltrated our bodies. Speaker 0 adds that they have become involved in helping families legally; their law firm supports families because some school districts have become worse than during COVID, even though childhood vaccines are still largely recommended federally. They claim school districts and scientists are desperate to get these materials into children, with Catholic schools allegedly no longer honoring religious or medical exemptions. They describe children with severe reactions and contraindications being denied entry to schools, faced with truancy threats or expulsion. They insist there is nothing healing about these vaccines and call it an infiltration system necessary for AI to function properly. Speaker 1 mentions the U.S. allegedly cutting ties with the WHO, but says research by John Fleetwood shows the U.S. maintains relationships relating to vaccines and influenza, with substantial taxpayer funding. They assert that with a digital ID, one’s bank account can be cut off if they don’t get certain vaccines or comply to maintain the digital ID, arguing the agenda has continued and accelerated with AI. Speaker 0 adds that the WHO remains a standing organization but has been rebranded, and emphasizes that the United States is front and center in partnerships with the WHO. Speaker 1 introduces Biomems (biomedical microelectromechanical systems) as a subset of MEMS used in biomedical research and medical devices, noting that this has existed for years. They describe sensors under the skin that transmit data to pharmaceuticals or governments, not just pacemakers. They reference Albert Bourla, who stated that a pill has been designed to track compliance. Speaker 0 confirms: “They tell us what they're doing.”

Speaker 0 recalls yearbook content from 2002-2003, including a center section with art, pop culture, and science. The key point shared is an item titled chipping in, describing Verichip as a microchip containing personal identification information injected under the skin, virtually undetectable, and usable for financial and transportation security, building access, as well as military and government security purposes. The segment also notes RNA has its day and mentions a federal bill banning all forms of human cloning, including efforts used for promising stem cell research. The speaker uses this example to illustrate a view that we have been conditioned for at least twenty years to accept a chip that would enable buying and selling, alongside concerns about human cloning and DNA manipulation. A lighter blurb follows about technology: Instant photo, with a phone camera that can capture up to eight seconds of video, and email images to anyone from just about anywhere, such as showing a photo of the Statue of Liberty to “mom.” The speaker argues this technology is addictive and that people have been programmed for a long time. They point to widespread smartphone addiction and the emergence of payment methods like Apple Pay, suggesting that some places already swipe hands for paying or building access, and predicting it will become large-scale. The speaker asserts that it will reach a point where one “won’t be able to buy or sell without it,” equating this to the mark of the beast.

I implanted an RFID chip in my hand to open doors, but it doesn't work. I also have a scar from the procedure.

Researchers at MIT have developed tiny micro robots, comparable in size to a human egg cell, made of electronic circuits and minute particles. These robots can swim through blood vessels, sense their environment, store data, and perform computational tasks. They are self-powered, requiring no external power source or batteries, and can be guided to hard-to-reach areas in the body, enhancing drug delivery systems. This technology may enable drugs to bypass the blood-brain barrier, opening new possibilities for treatment.

MIT researchers have created cell-sized microrobots that can swim between blood vessels. These robots, potentially the smallest yet, can sense their environment, store data, and perform computations. The microrobots, about the size of a human egg cell, consist of tiny 3D-printed electronic circuits that react to electronic or magnetic signals. They are self-powered, requiring no external power source or batteries. These robots can be guided to areas inaccessible to standard drugs, adding a new dimension to drug delivery systems. This delivery method may enable drugs to cross the blood-brain barrier.

The discussion opens by recalling Sweden’s microchip implant program, where RFID/NFC chips the size of a grain of rice were embedded in thousands of citizens to speed up daily life—opening doors, access to homes, offices, and gyms with a swipe. When the program began, demand was high, with waiting lists and rapid adoption by companies, and it even received praise from the World Economic Forum. The World Economic Forum portrayal described the implantation as a minor sensation, with “a simple like a slight sting” and nothing more. The conversation then shifts to 2026, examining whether these chips are tied to Sweden’s digital ID and digital currency ecosystem, and how they might integrate with Sweden’s dominant bank ID system, which reportedly has near-universal usage (approximately 8.7 million users). Marie Z of Z Media joins the discussion to provide perspective on how chip implantation relates to digital IDs and tracking across Europe, Australia, and the United States, and to comment on related legislation. She begins by downplaying concerns about microchip implants themselves, noting that uptake slowed significantly after an initial rush around 2018. Her primary concern, she says, stems from an MIT admission in November 2025. MIT News published a piece stating that new therapeutic brain implants could defy the need for surgery, describing microscopic wireless bioelectronics that can travel through the bloodstream to target brain regions, self-assemble after injection, and be wirelessly powered to provide electrical stimulation for precise areas—aimed at treating conditions like Alzheimer's. She emphasizes that the technology involves self-assembling nanotechnology administered via injections (potentially through vaccines) with no human intervention required once in place. Marie Z connects this to broader claims about smart dust and geoengineering, noting that programmable dust has been discussed for years and that graphene has been repeatedly observed post-geoengineering. She cites claims about graphene’s use in medicine as highly conductive and capable of sending data back to researchers, and references Albert Bourla’s statements about future pills that could indicate whether a person has taken them, supposedly enabled by graphene. She asserts that studies and literature indicate possible covert deployment of nanotechnology via vaccines, medicines, and possibly food, and that the threat extends beyond voluntary chip implantation. The conversation introduces a provocative piece of alleged evidence: Ilan University (Bar-Ilan) and its chief scientist Ida (Ido) Bachalet allegedly presenting a 2013 TED Talk about implanting hundreds of billions of nanorobots into vaccines, with the claim that the controller is connected to the Internet like an Xbox and remotely controllable. Marie notes Pfizer’s 2015 partnership with Bachalet and suggests covert applications of nanorobots, connecting this to Bill Gates’ patent O60606, which she says proposes mining cryptocurrency with the body’s data via sensors and quantum technology, and references Gates’ quantum dot microneedle patch for real-time bodily data and potential monetization of compliance. She discusses Canada’s Biodigital Convergence policy by the government’s Horizons publication, which imagines a future where AI inside the body prescribes supplements and prints them, and a system where access to cryptocurrency depends on living in an AI-governed societal standard. The hosts and Marie acknowledge that free will matters and emphasize awareness and informed choice as potential checks against participation in what they frame as a transhumanist agenda. Marie closes by reiterating why awareness and scrutiny are essential and thanking the hosts for the discussion.

MC10 has developed a developmental system with an antenna and sensors embedded in it. They plan to work on advancing a tattoo for authentication. Young people may not want to wear a watch, but they would be interested in wearing an electronic tattoo with a cool design. Additionally, authentication could be integrated into daily habits, such as taking a vitamin. MC10 has created a pill with a small chip and a switch inside. When swallowed, the acids in the stomach power it up, creating an 18-bit ECG-like signal in the body, making the entire body an authentication tool.

Breakthroughs in technology have led to the development of RFID microchips, which can be implanted in the wrist. These tiny chips use radio frequency identification, similar to tracking devices for pets, and can serve multiple functions. Once implanted, they can identify you at airports, unlock doors, and even facilitate grocery purchases, effectively storing your driver's license, passport, keys, and wallet within your body. Over 10,000 people have already adopted this technology, which has significant implications for health care. In emergencies, a quick scan of the chip can provide medical personnel with vital information such as your identity, medical history, and allergies. This RFID microchip could not only enhance daily life but potentially save lives as well.

Researchers at MIT have developed tiny micro robots, comparable in size to a human egg cell, that can navigate through blood vessels. These robots are made of 3D-printed electronic circuits and can sense their environment, store data, and perform computational tasks. They are self-powered, eliminating the need for external power sources or batteries. This innovative technology allows for targeted drug delivery to areas of the body that traditional methods cannot reach, potentially enabling drugs to cross the blood-brain barrier.

All animals and humans have been implanted with Graphene Biochips for control and contact tracing. This includes connection to the Internet of humans and animals. The goal is to have complete control over the body and spirit. Despite the heavy topic, there is still hope to be found.

Wearable authentication methods are advancing, but mechanical mismatch between humans and electronics remains a challenge. A researcher at the University of Illinois developed stretchable electronics, leading to electronic tattoos. One such tattoo, made by MC10, contains an antenna and sensors and could be used for authentication. Another authentication method involves a vitamin pill containing a chip with a switch and an inside-out potato battery. Once swallowed, stomach acids power the chip, creating an 18-bit ECG-like signal, turning the body into an authentication token. This pill, developed by Proteus for medical applications, is CE stamped and FDA cleared, with a dosage of up to 30 pills per day. The technology could enable authentication through touch, granting the user a "superpower."

Bionano scale machines are being developed for injecting into the body and monitoring health. This is progressing well, as seen with COVID vaccines. mRNAs are nanoscale machines that are programmed and injected. These nanoscale technologies will be part of 7G and beyond.

The speaker claims that an individual had a goal to reduce the world's population by fifty percent by 2023, and that this goal is becoming reality. They describe a biological chip within a tablet that, upon dissolving in the stomach, sends a signal confirming the tablet was taken. The speaker suggests this technology has applications for insurance companies to monitor patient compliance with medication.

In this video, we discuss the future of implants. It is predicted that within the next ten years, we will be able to implant technology into our clothing. Eventually, we may even consider implanting it into our brains or skin, leading to direct communication between our brains and the digital world. This fusion of the physical, digital, and biological realms is what we are witnessing.

When Elias Brotberger goes to work, he uses a microchip in his hand for keys, ID, and wallet. The chip, like a grain of rice, allows him to access the building and buy snacks. In Sweden, microchip implants are common, similar to credit card technology. Despite concerns about loss of privacy and humanity, many see the value in having a smart device under their skin. The process is quick and painless, with estimates of 510,000 people already chipped. Human microchipping is a reality in Sweden, with potential for widespread adoption in the future.

There is advanced technology used in drug delivery, but it has been used as an excuse. These technologies are capable of creating intricate snow globes and crystals, and if people knew their true potential, they would never allow anyone to implant something in their bodies that could control them completely, including their thoughts and biology. The lack of transparency and consent is concerning, as these products were put into pharmaceuticals without informing the public. It is alarming that something with the potential to turn people into the Terminator is seen as normal by some because it is used in drugs.

In 2018, the CEO of Pfizer spoke at the World Economic Forum about the potential of ingestible computer chips in tablet form. These chips would signal when a drug has been digested, allowing authorities and insurance companies to monitor medication compliance. The CEO acknowledged the initial cost and emphasized the benefits of this technology. Looking back now, considering the COVID-19 pandemic and associated mandates, his remarks may not seem far-fetched.

I think they will want to implant smartphone technology into our bodies in the future.

Our body uses electrical signals in nerves to communicate with organs. By implanting microchips on peripheral nerves, we can read and correct messages to organs, potentially treating chronic diseases. These chips are specific, local, and only intervene when needed, ensuring patient compliance.

The speaker asks about patient engagement and how technology can ensure patients take their medication or use wearable devices. Speaker 1 gives an example of an FDA-approved electronic peel, a biological chip in a tablet. When the tablet dissolves in the stomach, it sends a signal confirming the patient took the medication. This technology has various applications, such as improving compliance and allowing insurance companies to track medication usage. However, there may be initial costs involved, and investment is necessary.