Bill Gates’ Birth Control Microchip with Remote Control: Innovation or Threat to Personal Privacy?

Bill Gates’ proposal on population control.

So, let’s talk about this idea that’s been floating around — you know, the one about a new kind of birth control that could potentially last up to 16 years? And get this, it could even be managed with a remote control! Sounds a bit sci-fi, right? 

Honestly, it raises a lot of questions. Like, who thought of this? And why would anyone want to control something like that from a distance? It’s definitely a topic that stirs up some strong opinions, especially when you consider the implications behind it. 

Are you ready for a revolutionary birth control method that can last up to 16 years inside your body and be controlled with a remote?  But seriously, it raises some eyebrows, right? Would you trust something like that? Just food for thought!

March 2020: ICMR evaluated a subdermal contraceptive implant – ImplanonR

The birth control microchip funded by Bill Gates is a tiny device that is implanted under the skin and can release hormones to prevent pregnancy for up to 16 years. What sets this apart from other forms of long-acting contraception is the ability to control the device with a remote. This means that users have the flexibility to turn the device on or off as needed, giving them full control over their reproductive health.

Birth control was not the first potential use envisioned for this chip technology. Reportedly it was Bill Gates who was interested in the development of a family planning device that women could turn on and off themselves. Gates and his ex-wife Miranda, as described on the The Bill & Melinda Gates Foundation’s Family Planning website, were seeking to help provide 120 million women across the globe with family planning.

MicroCHIPS is already testing the device to administer human parathyroid hormone fragment (1–34) in the treatment of osteoporosis.

Microchips President and CEO, Bob Farra, said, “The remote control must be put up against the skin in order to establish communication. The reason we do that is we want people to have close range communication to prevent anyone from listening in to the encrypted signal.” 

Researchers plan to test the technology in women.  The device would cost about $1,000.

First-in-Human Testing of a Wirelessly Controlled Drug Delivery Microchip

This technology is being developed by a U.S. company called MicroCHIPS, Inc., which originated from research at MIT. The concept involves an implantable device containing a reservoir array of a contraceptive drug, such as levonorgestrel. Each reservoir is sealed with a thin metal membrane. The device is designed to release the drug by electrically dissolving these membranes, allowing for controlled dosing over an extended period.

The initial goal for the lifespan of the implant was ambitious, aiming for up to 16 years of contraception. A key feature proposed for this technology is the ability to activate or deactivate the release of the drug wirelessly, potentially offering users or healthcare providers the ability to control fertility without requiring surgery for insertion or removal for temporary cessation of contraception. This wireless control aspect has been a significant point of discussion, raising considerations about security and privacy.

The Bill & Melinda Gates Foundation provided funding to MicroCHIPS, Inc. to support the research and development of this long-acting, controllable contraceptive implant. The project represents an effort to create a novel form of long-acting reversible contraception (LARC) that offers greater flexibility than existing implants or IUDs.

Bill Gates aimed to introduce a new type of birth control that was supposed to start testing in 2016 and be available in stores by 2018. It can be placed in the butt, upper arm, or belly.

During Mr. Gates’s tour of an MIT lab in 2012, he spoke with Professor Robert Langer about the possibility of a new birth control that could be activated and deactivated over a long period of time — sparing women a trip to the clinic to remove their contraceptive implant whenever they plan to get pregnant, the Technology Review reported.

Prof. Langer connected the foundation with MicroCHIPS, a Massachusetts firm licensed to use a controlled-release microchip technology.

News of the foundation’s latest project comes just a month after it announced grants for 11 “novel condom designs” — including an air-infused female condom, and male condoms using latex alternatives like hydrogels.

HOW IT WORKS

The device measures 20 x 20 x 7 millimeters, and it is designed to be implanted under the skin of the buttocks, upper arm, or abdomen.

It dispenses 30 micrograms a day of levonorgestrel, a hormone already used in several kinds of contraceptives.

To conceive, women turn off the implant with a remote control.

Another click of the remote restarts it.

Passing an electric current through the seal from an internal battery melts it temporarily, allowing a small dose of the hormone to diffuse out each day

Sixteen years’ worth of the hormone fits in tiny reservoirs on a microchip 1.5 centimeters wide inside the device.

The firm has already tested the radical drug delivery system on patients with osteoporosis.

It relies on titanium and platinum seal on the reservoirs containing the drug.

Passing an electric current through the seal from an internal battery melts it temporarily, allowing a small dose of the hormone to diffuse out each day.

The idea of using a thin membrane like an electric fuse was the most challenging and the most creative problem we had to solve,” MicroCHIPS president Robert Farra told MIT.

The microchip device is implanted and explanted using local anesthetic.

‘Each procedure lasted less than 30 minutes,’ said treating surgeon Pia Georg Jensen, MD.

These devices, often classified as medical devices or contraceptive technologies, are designed to provide users with more control over their reproductive health. However, their use also brings forth concerns related to data privacy, informed consent, and the potential for coercion or misuse.

Data Privacy and Security

One of the primary ethical concerns surrounding remote-controlled birth control devices is the collection, storage, and transmission of sensitive user data. These devices often rely on wireless communication technologies, such as Bluetooth or Wi-Fi, to transmit data to a user’s smartphone or a cloud-based server. This raises concerns about the potential for unauthorized access to a user’s personal and health information. Ensuring the security and confidentiality of this data is crucial to maintaining user trust and preventing potential harm.

Informed Consent and Autonomy

Informed consent is a critical aspect of the ethical use of remote-controlled birth control devices. Users must be fully aware of the device’s functionality, potential risks, and benefits before using it. This includes understanding how the device works, its effectiveness, and any potential side effects. Additionally, users must be able to make informed decisions about their reproductive health without coercion or undue influence.

Potential for Coercion or Misuse

The use of remote-controlled birth control devices also raises concerns about the potential for coercion or misuse. For example, a partner or family member could potentially use the device to control a user’s reproductive choices without their consent. This highlights the need for robust safeguards to prevent unauthorized access and ensure that users have control over their own reproductive health.

Regulatory Frameworks and Oversight

Regulatory frameworks and oversight are essential to ensuring the safe and effective use of remote-controlled birth control devices. In the European Union, for example, medical devices are subject to the Medical Device Regulation (MDR), which sets out requirements for the design, manufacture, and testing of medical devices. Similarly, in the United States, the Food and Drug Administration (FDA) regulates the approval and monitoring of medical devices, including contraceptive technologies.

Side effects of the RFID CHIP in PEOPLE. CHECK THIS OUT!!!

Potential Privacy Concerns Associated with Remote-Controlled Birth Control Devices

The potential privacy concerns associated with remote-controlled birth control devices include the risk of unauthorized access, data security issues, and personal information leakage.

1. Unauthorized Access and Hacking Risks: One of the primary concerns is the possibility that someone could gain unauthorized access to the device. If the remote control mechanism is not adequately secured, it may be vulnerable to hacking. This could allow an individual to turn the device on or off without the user’s consent, leading to unintended pregnancies or other health risks. Developers have indicated that activation can only occur when the remote is in contact with the skin, which mitigates some risk; however, concerns about encryption and overall security remain significant.
2. Data Security Issues: There are worries regarding how data from these devices might be stored and transmitted. If personal health information is collected or if there are features that track usage patterns, this data could potentially be accessed by third parties without consent. The fear of surveillance or tracking adds another layer of concern for users who value their privacy.
3. Personal Information Leakage: Users may also be concerned about how their personal information—such as medical history, location data, and usage habits—could be shared or sold to third parties. Although developers have stated that there are no plans to include features that would collect such sensitive data, skepticism remains regarding future iterations of technology and potential misuse by companies.
4. Impact on User Autonomy: The ability to remotely control a contraceptive implant raises questions about user autonomy and informed consent. If a woman feels her ability to manage her reproductive health is compromised by external controls or monitoring, it could lead to feelings of distrust towards healthcare providers and technology.
5. Social Stigma and Psychological Impact: There may also be social stigma associated with using such advanced technology for contraception. Users might fear judgment from peers or society at large if they disclose their use of a remote-controlled device, which could deter them from utilizing this option even if it meets their needs effectively.

Ref:

1. Bill Gates funds birth control microchip that lasts 16 years inside the body and can be turned on or off with remote control [ https://nationalpost.com/news/bill-gates-funds-birth-control-microchip-that-lasts-16-years-inside-the-body-and-can-be-turned-on-or-off-with-remote-control ]
2. Remote-controlled birth control? [ https://www.bedsider.org/features/361-remote-controlled-birth-control]

Types of Remote Contraceptives

1. Microchip Implants

One of the most advanced forms of remote contraception is the microchip implant developed by MicroCHIPS Inc., which is supported by the Bill and Melinda Gates Foundation. This device is designed to be implanted under the skin and can release levonorgestrel, a hormone used in various contraceptive methods, for up to 16 years. Users can deactivate the chip remotely, allowing them to stop contraception without needing a doctor’s visit. This feature addresses significant barriers faced by women in developing countries who may have difficulty accessing healthcare facilities for contraceptive management.

2. Injectable Contraceptives

Long-acting injectable contraceptives are another form of remote contraception being developed. These injectables can provide effective pregnancy prevention for extended periods (up to 6 months or even a year) without requiring frequent visits to a healthcare provider for administration. The development of these injectables aims to simplify access and reduce logistical challenges associated with regular injections.

3. Microneedle Patches

Microneedle patches represent an innovative delivery system for hormonal contraception. These patches contain tiny needles that penetrate the skin to deliver hormones directly into the bloodstream. They can be designed for on-demand use or as long-acting options, providing flexibility and ease of use. This method could potentially eliminate issues related to adherence seen with daily pills.

4. Intravaginal Rings

Intravaginal rings are another user-controlled method that allows women to manage their contraception discreetly. Some newer designs are being developed to incorporate multiple active pharmaceutical ingredients (APIs), enabling simultaneous delivery of contraceptive hormones and protection against sexually transmitted infections (STIs). This multipurpose approach enhances user control over reproductive health.

Ref:

1. Microchip technology is under development as a long-acting, user-controlled approach for pregnancy prevention [ https://time.com/2963130/the-future-of-birth-control-remote-control-fertility/ ]
2. Current contraceptive implants last about three years; however, new developments aim for longer durations [ https://time.com/2963130/the-future-of-birth-control-remote-control-fertility/ ]
3. Long-acting injectables allow users extended periods between injections [ https://pmc.ncbi.nlm.nih.gov/articles/PMC8328155/ ]
4. Microneedle patches are being developed as an alternative approach for delivering hormonal contraception [ https://pmc.ncbi.nlm.nih.gov/articles/PMC8328155/]
5. New intravaginal ring technologies may combine different APIs in one device [ https://pmc.ncbi.nlm.nih.gov/articles/PMC8328155/ ]

The man who developed the RFID chip has a warning for us all

Numerous allegations have surfaced claiming that Bill Gates has plans to use microchip implants for nefarious purposes. Many people speculate that this idea is linked to the idea of tracking people through a vaccine. Recently, there have been online reports discussing unexpected deaths that are allegedly connected to vaccines that can be controlled remotely, often referred to as RFID vaccines. These claims have sparked significant concern and debate among various communities, raising questions about the ethical implications of such technology and its potential impact on personal privacy.

There may be a connection between RFID chip and the Coronavirus vaccine

Additional Information:

The Pirbright Institute has received $5.5 million from the Bill & Melinda Gates Foundation to establish a Livestock Antibody Hub aimed at enhancing global animal and human health. This initiative will involve collaboration among various UK research organizations to leverage findings in livestock disease and immunology under the ‘One Health’ agenda. Six prominent scientists from Pirbright will lead the project, focusing on antibody responses in cattle, pigs, and poultry to improve understanding of immunity and develop advanced vaccines and therapies. The research aims to bridge livestock health and vaccine industry needs, ultimately benefiting both animal and human health while securing food supply. Dr. Doug Brown from the British Society for Immunology highlighted this as a significant investment in livestock immunology in the UK.

Ref: https://www.pirbright.ac.uk/news/bill-melinda-gates-foundation-funds-development-pirbrights-livestock-antibody-hub-supporting

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