Neighborhood Health - Track And Trace - Part One
NNHour.com's new series on DoD Track and Trace technology
Neighborhood Health is launching a new series about DoD surveillance technology called “Track and Trace.”
In this first episode, we ask if nano ferritin particles can accumulate around the heart tissue of target ringleaders and subversives from Defense Threat Reduction Agency (DTRA) vaccines.
As rebel terrorists move into cities, can spray or vaccinated nano ferritin nanoparticles separate the suspected terrorists from the innocent civilians?
We look at technologies to “pick the terrorist out of the haystack” using nanoparticles that attach to the hearts of insurgents and ringleaders. For use in a US application, targeted individuals may include “Deplorables” or people who have attended several Trump Rallies or other “subversive” acts.
In this live broadcast, I outlined how to use the ChatGPT to summarize the state of this current technology.
I focus on current “Track and Trace” DoD players like Raytheon and QinetiQ. I will not spend much time on non-DoD contractors who aren’t making billions on this technology. You may remember “Mr. Track and Trace”, Dr. Robert Malone from DTRA at Ft. Belvoir from the CoronaVirus pandemic.
Darrell Galloway is Bob Malone's CIA Track and Trace partner. Darrell Ricke at the FBI is Bob Malone’s Track and Trace FBI partner.
We derive out insights directly from Dr. Robert Malone’s CIA Agent business partner’s presentation on Track and Track technology.
The key is the combination of the directed energy weapon and the nanoparticle formation around the heart of the target “terrorist” or ringleader to disable the individual in a non-lethal manner.
The Defense Threat Reduction Agency (DTRA) does indeed make a nano ferritin vaccine that can accumulate nanoparticles around the heart of targeted individuals like terrorist ringleaders.
I will include all the words I typed into the chat prompt and the responses for this first episode. The bottom line is that this combination of DEW and nano ferritin technologies is very much in use to find the “terrorist in the haystack,” and this technology could be easily repurposed to target “Deplorables.”
Notes -
who are the major DoD vendors of Directed Energy Weapons?
ChatGPT said:
ChatGPT
The U.S. Department of Defense (DoD) collaborates with several major defense contractors to develop and deploy directed energy weapons (DEWs). Key vendors include:
RTX (formerly Raytheon Technologies): Engaged in developing laser weapon systems, such as the UK's DragonFire, which has demonstrated precision and cost-effectiveness in countering aerial threats.
MBDA: A European defense group contributing to the DragonFire project, focusing on integrating laser technologies into defense systems.
QinetiQ: Involved in the DragonFire initiative, providing expertise in advanced weapon technologies and system integration.
BlueHalo: A defense technology startup that developed the Palletized High Energy Laser (P-HEL) system, which the U.S. Army has deployed to counter drone threats.
These companies are at the forefront of advancing DEW technologies, aiming to enhance defense capabilities against emerging threats like drones and missiles.
what vaccines made at dtra at ft belvoir have an ferro nanoparticle base?
ChatGPT said:
ChatGPT
The Defense Threat Reduction Agency (DTRA) at Fort Belvoir has been involved in research and development of vaccines utilizing nanoparticle platforms, including those based on ferritin nanoparticles. Notably, DTRA supported the development of a spike ferritin-based nanoparticle (SpFN) vaccine candidate for COVID-19. This vaccine employs ferritin—a protein capable of forming a nanoparticle structure—to display multiple copies of the SARS-CoV-2 spike protein, aiming to elicit a robust immune response.
Additionally, DTRA has explored the use of micromotor nanotoxoids as novel delivery vehicles for oral vaccines. These micromotors are engineered to navigate the gastrointestinal tract and deliver antigens directly to the intestinal walls, enhancing mucosal immunity. While this approach involves nanoparticles, it does not explicitly utilize ferritin-based nanoparticles.
In summary, DTRA's vaccine development efforts have included ferritin nanoparticles, particularly in the context of the SpFN COVID-19 vaccine candidate.
Can nanoferritin accumulate in heart tissue?
ChatGPT said:
ChatGPT
Yes, ferritin nanoparticles have been studied for their biodistribution in the body, and some research suggests they can accumulate in various tissues, including the heart, depending on several factors:
Particle Size and Surface Properties: Nanoparticle size, charge, and surface coatings influence their distribution and accumulation in organs. Smaller particles or those with specific surface modifications may be more likely to bypass certain barriers and accumulate in heart tissue.
Circulatory System Interaction: Ferritin nanoparticles, like other nanoparticles, travel through the circulatory system and can potentially interact with endothelial cells, particularly in organs with rich blood supplies like the heart. This interaction can lead to retention in heart tissue.
Clearance Mechanisms: Nanoparticles are generally cleared from the body through organs like the liver and spleen, but the rate of clearance and pathways involved depend on the nanoparticle’s composition. Studies have shown that certain nanoparticles can evade rapid clearance and persist in tissues like the heart.
Research on Toxicity and Therapeutic Use: There is ongoing research into how ferritin-based nanoparticles could be used therapeutically, particularly in drug delivery or imaging, and how they might inadvertently accumulate in tissues like the heart. This research also examines potential toxicological effects to ensure that therapeutic applications are safe.
In animal studies, ferritin nanoparticles have been observed to accumulate in some tissues, including the heart, though the extent and impact of this accumulation are still being studied to understand long-term safety and biodistribution fully.
4o
You said:
what is a micromotor nanotoxoids?
ChatGPT said:
ChatGPT
Micromotor nanotoxoids are an emerging technology in the field of drug delivery and vaccination, particularly designed for targeted delivery within the body. Here’s a breakdown of what they are and how they work:
Micromotor Concept: Micromotors are tiny, self-propelled devices that can move through biological environments. They are typically powered by chemical reactions, often with the help of enzymes or catalytic materials, enabling them to navigate complex environments such as bodily fluids.
Nanotoxoids: These are nanoparticles (in this case, nanometer-scale particles) that have been designed to carry and deliver toxins or antigenic substances in a controlled way. In the context of vaccines, they can be loaded with antigens (toxoid versions of toxins) to stimulate an immune response without causing harm.
Mechanism of Action: When used in vaccines, micromotor nanotoxoids can deliver antigens directly to specific tissues. For instance, they can be engineered to move through the gastrointestinal tract, attaching to and delivering their payloads to the intestinal lining for vaccines administered orally. This targeted delivery enhances immune response at the mucosal level, which is critical for pathogens that enter through these routes.
Advantages in Vaccine Delivery: Micromotor nanotoxoids offer several benefits, including:
Enhanced targeting of vaccine components to specific cells or tissues, improving efficacy.
Increased stability of the vaccine, as they can protect antigens from degradation in the body before reaching their target.
Improved immune activation by delivering antigens directly to immune cells in mucosal surfaces, where many pathogens first encounter the immune system.
This technology holds potential for developing more effective oral vaccines and treatments, particularly for diseases that benefit from a strong mucosal immune response, such as gastrointestinal infections or respiratory diseases.
4o
You said:
were these based on natural micromotors?
ChatGPT said:
ChatGPT
Yes, the design of synthetic micromotors, including those used as nanotoxoids, has been inspired by natural micromotors found in biological organisms. In nature, several types of microorganisms and cellular structures act as "micromotors," moving through fluid environments in the body. Here are a few examples of natural inspirations:
Flagella and Cilia in Bacteria and Cells: Many bacteria use flagella—tail-like appendages—to propel themselves in fluid environments, while cells like those in the respiratory tract use cilia for movement and to push particles. These natural micromotors inspired scientists to design synthetic counterparts that mimic this movement.
Sperm Cells: Sperm cells are naturally occurring micromotors that move with whip-like tail motions, guiding them toward an egg for fertilization. This self-propulsion has served as a model for creating micromotors capable of directed movement.
Motor Proteins within Cells: Inside cells, motor proteins like kinesin and dynein move along cellular “tracks” to transport molecular cargo. This internal transport mechanism has inspired the creation of micromotors designed for precise delivery of drugs or other therapeutic agents to specific areas within tissues.
Enzymatic Activity: Some enzymes act as natural micromotors by facilitating chemical reactions that produce motion. Synthetic micromotors often use catalase or other enzymes to generate thrust in a similar way by breaking down hydrogen peroxide into water and oxygen, creating bubbles that propel the micromotor forward.
Synthetic micromotor nanotoxoids use these principles to design propulsion systems that mimic these natural mechanisms. While they don’t replicate all aspects of natural micromotors, they borrow key features, such as self-propulsion, chemotaxis (movement toward chemical signals), and targeted delivery, making them highly versatile for applications in vaccine delivery and drug targeting.
4o
You said:
where is mbda the defense contractor headquartered?
ChatGPT said:
ChatGPT
MBDA, the European defense contractor specializing in missile systems, is headquartered at 1 Avenue Réaumur, 92350 Le Plessis-Robinson, France.
The company operates across multiple countries, including the United Kingdom, Germany, Italy, Spain, and the United States, with each division maintaining its own facilities.
Sources
Can nanoferritin accumulate in heart tissue?
ChatGPT said:
ChatGPT
Yes, ferritin nanoparticles have been studied for their biodistribution in the body, and some research suggests they can accumulate in various tissues, including the heart, depending on several factors:
Particle Size and Surface Properties: Nanoparticle size, charge, and surface coatings influence their distribution and accumulation in organs. Smaller particles or those with specific surface modifications may be more likely to bypass certain barriers and accumulate in heart tissue.
Circulatory System Interaction: Ferritin nanoparticles, like other nanoparticles, travel through the circulatory system and can potentially interact with endothelial cells, particularly in organs with rich blood supplies like the heart. This interaction can lead to retention in heart tissue.
Clearance Mechanisms: Nanoparticles are generally cleared from the body through organs like the liver and spleen, but the rate of clearance and pathways involved depend on the nanoparticle’s composition. Studies have shown that certain nanoparticles can evade rapid clearance and persist in tissues like the heart.
Research on Toxicity and Therapeutic Use: There is ongoing research into how ferritin-based nanoparticles could be used therapeutically, particularly in drug delivery or imaging, and how they might inadvertently accumulate in tissues like the heart. This research also examines potential toxicological effects to ensure that therapeutic applications are safe.
In animal studies, ferritin nanoparticles have been observed to accumulate in some tissues, including the heart, though the extent and impact of this accumulation are still being studied to understand long-term safety and biodistribution fully.
4o
You said:
what is a micromotor nanotoxoids?
ChatGPT said:
ChatGPT
Micromotor nanotoxoids are an emerging technology in the field of drug delivery and vaccination, particularly designed for targeted delivery within the body. Here’s a breakdown of what they are and how they work:
Micromotor Concept: Micromotors are tiny, self-propelled devices that can move through biological environments. They are typically powered by chemical reactions, often with the help of enzymes or catalytic materials, enabling them to navigate complex environments such as bodily fluids.
Nanotoxoids: These are nanoparticles (in this case, nanometer-scale particles) that have been designed to carry and deliver toxins or antigenic substances in a controlled way. In the context of vaccines, they can be loaded with antigens (toxoid versions of toxins) to stimulate an immune response without causing harm.
Mechanism of Action: When used in vaccines, micromotor nanotoxoids can deliver antigens directly to specific tissues. For instance, they can be engineered to move through the gastrointestinal tract, attaching to and delivering their payloads to the intestinal lining for vaccines administered orally. This targeted delivery enhances immune response at the mucosal level, which is critical for pathogens that enter through these routes.
Advantages in Vaccine Delivery: Micromotor nanotoxoids offer several benefits, including:
Enhanced targeting of vaccine components to specific cells or tissues, improving efficacy.
Increased stability of the vaccine, as they can protect antigens from degradation in the body before reaching their target.
Improved immune activation by delivering antigens directly to immune cells in mucosal surfaces, where many pathogens first encounter the immune system.
This technology holds potential for developing more effective oral vaccines and treatments, particularly for diseases that benefit from a strong mucosal immune response, such as gastrointestinal infections or respiratory diseases.
4o
You said:
were these based on natural micromotors?
ChatGPT said:
ChatGPT
Yes, the design of synthetic micromotors, including those used as nanotoxoids, has been inspired by natural micromotors found in biological organisms. In nature, several types of microorganisms and cellular structures act as "micromotors," moving through fluid environments in the body. Here are a few examples of natural inspirations:
Flagella and Cilia in Bacteria and Cells: Many bacteria use flagella—tail-like appendages—to propel themselves in fluid environments, while cells like those in the respiratory tract use cilia for movement and to push particles. These natural micromotors inspired scientists to design synthetic counterparts that mimic this movement.
Sperm Cells: Sperm cells are naturally occurring micromotors that move with whip-like tail motions, guiding them toward an egg for fertilization. This self-propulsion has served as a model for creating micromotors capable of directed movement.
Motor Proteins within Cells: Inside cells, motor proteins like kinesin and dynein move along cellular “tracks” to transport molecular cargo. This internal transport mechanism has inspired the creation of micromotors designed for precise delivery of drugs or other therapeutic agents to specific areas within tissues.
Enzymatic Activity: Some enzymes act as natural micromotors by facilitating chemical reactions that produce motion. Synthetic micromotors often use catalase or other enzymes to generate thrust in a similar way by breaking down hydrogen peroxide into water and oxygen, creating bubbles that propel the micromotor forward.
Synthetic micromotor nanotoxoids use these principles to design propulsion systems that mimic these natural mechanisms. While they don’t replicate all aspects of natural micromotors, they borrow key features, such as self-propulsion, chemotaxis (movement toward chemical signals), and targeted delivery, making them highly versatile for applications in vaccine delivery and drug targeting.
4o
You said:
where is mbda the defense contractor headquartered?
ChatGPT said:
ChatGPT
MBDA, the European defense contractor specializing in missile systems, is headquartered at 1 Avenue Réaumur, 92350 Le Plessis-Robinson, France.
The company operates across multiple countries, including the United Kingdom, Germany, Italy, Spain, and the United States, with each division maintaining its own facilities.
Sources
4o
You said:
Where is 92350 Le Plessis-Robinson, France?
ChatGPT said:
ChatGPT
Le Plessis-Robinson is a commune located in the southwestern suburbs of Paris, France. It is about 10 kilometers (approximately 6 miles) from the center of Paris, in the department of Hauts-de-Seine within the Île-de-France region. This area is part of the Greater Paris metropolitan area, known for its blend of residential neighborhoods, business centers, and proximity to Paris, making it accessible to major transportation and economic hubs.
4o
You said:
What is Le Plessis-robinson area of paris named after?
ChatGPT said:
ChatGPT
Le Plessis-Robinson derives its name from two historical elements:
"Le Plessis": The term "Plessis" comes from the Old French word plessiacum, which refers to an area enclosed or fenced with branches, often signifying a rural or wooded area fortified with hedges or enclosures. This term was commonly used in the names of French villages that originated near forests or enclosed agricultural lands.
"Robinson": The "Robinson" part of the name comes from a popular inn, Le Grand Robinson, established in the 19th century. This inn, inspired by the story of Robinson Crusoe, became a popular spot for Parisians seeking a countryside escape. It featured treehouses and elevated dining spaces, allowing visitors to enjoy a rustic, adventurous atmosphere reminiscent of Robinson Crusoe’s solitary island life.
The commune was officially renamed Le Plessis-Robinson in 1909 to reflect its identity, blending its rural past with the cultural allure of Robinson Crusoe’s adventurous spirit.
4o
You said:
can you describe the blue halo defense system ?
ChatGPT said:
ChatGPT
BlueHalo is a defense technology company specializing in advanced systems designed to address modern security challenges. Their key offerings include:
1. Counter-Unmanned Aerial Systems (C-UAS):
LOCUST Directed Energy Laser Weapon System: A high-energy laser system capable of identifying, tracking, and neutralizing various aerial threats. It has been successfully deployed to protect U.S. troops from hostile drones.
Titan C-UAS™: An autonomous radio-frequency (RF) detection and defeat system that identifies and intercepts hostile drones within minutes, providing rapid aerial security.
2. Next-Generation Missile Systems:
Freedom Eagle (FE-1): A missile developed to enhance lethality and range against larger aerial threats, integrating seamlessly with existing command and control systems. It offers a low-cost, maneuverable solution for short-range air defense.
3. Space and Autonomous Systems:
BlueHalo develops technologies for space operations, including satellite communication and space domain awareness, as well as autonomous systems for various defense applications.
These systems are designed to provide comprehensive defense solutions, leveraging advanced technologies to protect against evolving threats in modern warfare.
Sources
4o
You said:
where is blue halo based?
ChatGPT said:
ChatGPT
BlueHalo is headquartered at 4601 N. Fairfax Drive, Suite 900, Arlington, Virginia 22203, USA.
The company operates across multiple locations in the United States, including:
Albuquerque, New Mexico: 10800 Gibson Blvd SE; 1300 Britt St SE; 1300 Eubank Blvd SE.
Annapolis Junction, Maryland: 2721 Technology Drive, Suite 400; 308 Sentinel Dr #400; 420 National Business Pkwy, Suite #500.
Austin, Texas: 9300 Jollyville Rd, STE 101.
Beavercreek, Ohio: 4401 Dayton Xenia Rd.
Chantilly, Virginia: 14020 Thunderbolt Place, Suite 100.
These locations support BlueHalo's operations in defense technology, including space systems, counter-unmanned aerial systems, electronic warfare, and artificial intelligence.
Sources
4o
You said:
what are the key surface proteins for adhering to the heart that nanoferritin vaccines might use to accumulate?
ChatGPT said:
ChatGPT
For nanoparticles like nanoferritin to adhere to heart tissue, specific surface proteins and targeting mechanisms can be utilized. Some key proteins and molecules that have been studied for targeting heart tissue include:
VCAM-1 and ICAM-1 Ligands: Vascular cell adhesion molecule-1 (VCAM-1) and intercellular adhesion molecule-1 (ICAM-1) are expressed on endothelial cells, especially under inflammatory conditions. Nanoparticles coated with ligands for these molecules can adhere more readily to heart tissue, particularly during inflammation, which can make them useful for targeted delivery.
Angiotensin-Converting Enzyme 2 (ACE2) Receptor Binding: The ACE2 receptor is abundantly expressed in heart tissue. Surface modifications that bind to ACE2 receptors may enhance adherence of nanoferritin particles to heart cells, although targeting ACE2 requires precise control to avoid interference with normal cardiac function.
Integrins: Integrin proteins, such as αvβ3 and α5β1, are present on cardiomyocytes and endothelial cells in the heart. Nanoparticles coated with peptides that specifically bind to these integrins can enhance targeting and adherence to heart tissue.
4o
You said:
has dean koontz written a spy novel about nanoparticles?
ChatGPT said:
ChatGPT
Dean Koontz's 2002 novel, By the Light of the Moon, features characters who are involuntarily injected with a mysterious substance containing nanoparticles, leading to extraordinary abilities.
While the novel incorporates elements of nanotechnology, it is not primarily a spy novel. However, Koontz's 1994 novel, Dark Rivers of the Heart, is centered around espionage themes, involving a protagonist entangled with a covert government agency.
This novel delves into themes of surveillance and government overreach, aligning more closely with the spy genre.
Sources
4o
You said:
Does Koontz' Jane Hawk series delve into nanoparticles to track target populations?
ChatGPT said:
ChatGPT
Yes, Dean Koontz’s Jane Hawk series delves into the use of advanced nanotechnology to track, control, and manipulate target populations. In the series, a powerful secretive organization implants nano-sized devices into people’s brains. These devices enable the organization to monitor, control thoughts and behavior, and even force compliance with their agenda, creating a dystopian scenario where personal freedom is nearly eradicated.
The Jane Hawk series, beginning with The Silent Corner, explores themes of surveillance, loss of privacy, and manipulation, with protagonist Jane Hawk—a former FBI agent—working to uncover and dismantle this sinister conspiracy. The series blends elements of thriller, sci-fi, and espionage, with nanotechnology playing a central role in the plot’s exploration of societal control and individual resistance.
Seems Doug burgum was part of track & trace app? And didn't Doug introduce Gates at event 201?
Wow, George. This is dark. Is it dark MAGA? I'm not sure. The info about Malone needs to be seen by RFK jr. I think we are seeing why the "respiratory" disease, CoV and it's counter-measures, had so many people with endothelial and heart damage, clots, strokes, etc. The work Elana Freeland did in her book, "Engineered Transhumanism", goes into a lot of the details and DoJ programs that financed this dastardly plot against humanity. Her new edition goes into a lot more of the footnote details about that, but I'm not sure it is out yet.