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"Packaged DNA fragments have been found en masse as vaccine contaminants." "Once they reach the nucleus, short DNA sequences have an increased propensity to insert into chromosomal DNA." "The possible consequences are unending." "Disruption of the exquisitely tuned network that controls cell division and differentiation can lead to cancer and to developmental defects." "Mutations in sperm and fertilized egg cells could render altered traits inheritable." "Cost effective procedures to reliably separate mass produced RNA from plasmids do not exist." "Contamination of RNA vaccines with plasmid DNA must therefore be expected to be the rule and not the exception." "Whoever propagates RNA vaccines as being safe and effective, whoever claims that nothing can happen to your genome, is either incredibly ignorant or endlessly evil."

The symposium covers the potential safety and threat of “replicating” vaccines, especially LepriCon (leprecon) vaccines, in the context of Covid-19 vaccines and genome‑editing concepts. The speakers present a chain of claims and concerns, some drawing on reports and others presenting theories about how these next‑generation vaccines could behave in humans and populations. Key points and claims presented - Emerging mechanisms and risks: The panel notes that blood vessel inflammation and thrombosis mechanisms are increasingly observed, including in vaccine contexts, with examples from individuals who needed limb amputation and others who developed severe vascular events after vaccination. One case involved a 70‑year‑old man who, after a third dose, developed embolic events necessitating shoulder joint surgery, and another where a 60‑year‑old man developed acute limb ischemia and died; both are presented as suggesting a serious vascular mechanism linked to vaccination, though causal connections are not established. - Replicating/vector vaccines and their concerns:荒川博士 and others discuss LepiCon vaccines as vaccines that replicate inside the body. The concept involves “replicating viral vectors” where the genome can mutate and evolve during replication. The green‑highlighted segment in a slide (the antigen gene) plus a blue/orange segment (replicating gene cassette) is used to describe how LepriCon vaccines are designed to carry viral genes and replicate, with the assertion that replication, mutation, and recombination can occur, potentially generating new variants inside the host. - Differences from conventional vaccines: The discussion contrasts LepriCon vaccines with standard mRNA vaccines. In conventional mRNA vaccines, messenger RNA is delivered and translated into antigen proteins, then degraded; in LepriCon vaccines, replicating RNA/DNA can persist and continue producing antigen, with mutation and recombination possible. The panel emphasizes that LepriCon vaccines use replicating/copying mechanisms and that the genetic material can be copied in ways that differ from natural human biology, potentially creating unpredictable variants. - Central dogma and exceptions: The speakers reference the central dogma (DNA → RNA → protein) but note exceptions in viruses, including RNA viruses that can reverse‑transcribe to DNA (retroviruses) and RNA viruses that replicate RNA directly. They discuss how LepriCon vaccines would rely on replicative processes that do not follow the usual linear flow and why this could complicate predictions about safety and behavior in humans. - Potential for unintended spread and environmental impact: A major concern raised is that self‑replicating vectors could spread beyond the vaccinated individual, via exosomes or other intercellular transport, creating secondary infections or non‑target spread. Exosomes could ferry replicating genetic material, raising fears of new infection chains or “outbreaks” stemming from the vaccine itself, and even suggesting the possibility of vaccination‑induced spread akin to an attenuated or modified pathogen. - Safety signals and immunology concerns: The discussion touches on immune system risks, including immune dysregulation, autoimmune phenomena, and unexpected inflammatory responses. IGG4‑related disease is highlighted as a potential adverse outcome post‑vaccination, with descriptions of glandular and systemic involvement and the idea that high IGG4 levels could have immunosuppressive effects that alter responses to infection or vaccination. The panel notes observed increases in certain immunoglobulin subclasses after multiple LepriCon doses and discusses the possibility of immune tolerance or enhanced immune responses that could be harmful. - Historical and theoretical context: References are made to past epidemics and speculative pandemics caused by misused or dangerous vaccine platforms, drawing on central molecular biology concepts and historical anecdotes about how vaccines can be designed and misused. The discussion frames LepriCon vaccines as a high‑risk platform that could, in theory, generate recombinants, escape mutations, or cause unintended immune and inflammatory consequences. - Clinical and regulatory implications: The speakers call for caution, arguing that more evidence is needed before approving or widespread use of LepriCon vaccines. They emphasize the need for long‑term observation and transparent communication about risks, and criticize the potential for insufficient understanding among healthcare workers and the public. They also urge that any future vaccine development should consider the possibility of genome editing, recombination, and exosome‑mediated spread, and stress the importance of not underestimating possible adverse effects. - Real‑world observations and skepticism about hype: Several speakers underscore that the danger is not merely hypothetical; there are reports of adverse events, including stroke‑like conditions, inflammatory diseases, and immune dysregulation in vaccinated individuals. They stress that the evolution and mutation of replicating vaccines could outpace current surveillance methods, and that “information manipulation” or lack of transparent reporting could mislead the public about risks. - Final reflections and call to action: The concluding messages advocate recognizing the potential failures of messenger RNA vaccines and acknowledging that both conventional and replicating platforms may carry risks. The speakers urge ongoing critical analysis, cautious progression, and robust verification of claims through transparent, independent investigation. They close with thanks to the organizers and a hope that the discussion may contribute to broader public awareness and informed decision‑making. Notable emphasis and unique considerations - The core concern centers on LepriCon vaccines’ replication, mutation, and potential to spread beyond the vaccinated person; exosome transport and genomic/cellular integration are highlighted as mechanisms that could generate new risks not present with non‑replicating vaccines. - The discussion stresses that IGG4 responses could become alarmingly high after certain doses, potentially leading to immunosuppressive effects or autoimmune phenomena, and presents IGG4‑related disease as a potential complication to monitor. - The speakers insist that safety and transparency are paramount, and that misinformation or optimistic narratives about rapid vaccine development could lead to harm if new platforms are adopted without comprehensive evaluation. Overall, the symposium foregrounds cautious scrutiny of replicating vaccine platforms, frames potential biological and regulatory risks, and calls for careful, evidence‑based assessment before broader deployment.

DNA wrapped in a protective lipid nanoparticle is designed to enter cells and reach the nucleus quickly. However, this poses risks such as genome integration and cancer. The regulations for DNA contamination in vaccines are not suitable for this type of delivery system. Previously, contaminating DNA in vaccines came from cells used to grow them, which had less risk for integration. The ends of DNA are crucial for integration, and smaller fragments increase the risk. Linear fragments are even more dangerous than circular ones. The FDA acknowledges this and suggests that the current limit of 10 nanograms should be lower for circular plasmids, although achieving such low levels may be technically challenging.

Moderna holds a patent for using RNA in vaccines, acknowledging that RNA is superior to DNA due to concerns about DNA-related problems like insertional immunogenesis and genotoxicity. The FDA claims to be unaware of any issues, but Moderna's own patent raises the same concerns about DNA. It appears that DNA is present in the RNA preparation as a contaminant, as it is used in the process of making RNA. Recent findings by scientists revealed large numbers of DNA fragments in the RNA preparation, including sequences that are not normally allowed in human use, such as an antibiotic resistance gene and sequences from simian virus 40. These DNA fragments can potentially lead to DNA damage, birth defects, and cancer.

The symposium revolves around the science and safety implications of Replicating/Replicon vaccines and broader RNA vaccine platforms, with a sequence of expert presentations and reactions from the panel. -荒川博 presents the central premise that Replicon vaccines (replicating or self-amplifying RNA vaccines) raise unique safety and biosafety concerns beyond traditional mRNA vaccines. He frames the discussion around the idea that these vaccines “increase and mutate” within the host, potentially evolving in ways that could affect humans and populations. He references specific real-world events and case observations, including severe vascular events and tissue damage in some vaccine recipients, as motivation to scrutinize this technology carefully. -荒川 emphasizes that Replicon vaccines differ from conventional mRNA vaccines by embedding replicative machinery so that the RNA self-amplifies inside cells. He explains that, unlike ordinary mRNA vaccines, replication can produce more copies of the RNA and additional viral proteins, potentially leading to unexpected immune and biological consequences. He notes that the Alpha virus replicase used in some designs is designed to enable replication and increased antigen production, but that high mutation and recombination potential could yield variants or new properties. -藤本、藤田（参加者は複数） and others discuss the science of replication in viruses, highlighting the Central Dogma nuances. They describe that normally DNA → RNA → protein is the standard flow, but some viruses (RNA viruses and certain retroviruses) can reverse or bypass parts of this flow (RNA to DNA in retroviruses; RNA to RNA replication in some RNA viruses). This provides a conceptual basis for why replicating vaccines could, in principle, generate abnormal replication dynamics or new variants. -コロナウイルスRNAワクチンの議論では、Repliconの増殖と変異率の高さ、組換えの可能性、体内拡散の可能性を挙げて、「増えると変わる」性質が人の体内でどう影響するかが核心テーマとして挙げられます。アルファウイルス由来のレプリカーゼを使う場合、修復機能が不完全なRNAの増殖過程で、予想外の抗原変異を引き起こすリスクがあるとの指摘が出てきます。 -リスクの具体例として、ウイルスの殻（エンベロープ）とエクソソームを介した分布、自己拡散型ワクチンによる体内の遺伝子素材の取り込み、さらには他の人へ感染・伝播するアウトブレークの可能性、という仮説的懸念が提示されます。レプリコンワクチンは「空の遺伝子を抗原遺伝子に置き換えた陰性空間を持つウイルス」という説明が繰り返され、組換え・遺伝子交換・逆転など、従来のDNA・RNA動態の外に出る事象が起こり得ると議論されます。 -一部のスピーカーは、日本での試験・臨床・規制の動きを取り上げ、FDA/国内基準値を超えるDNA混入、SV40プロモーター混入の報告など、製品レベルでの懸念を指摘します。ケビン・マッカーシー氏の分析紹介では、日本市場で使われているファイザー社のコロナワクチンにDNA混入の痕跡があったこと、SV40プロモーター混入の可能性が指摘され、脂質ナノ粒子を通じた細胞内へのDNA／エクソンの取り込みリスクが懸念事項として挙げられます。これにより、RNAワクチンのフォーマットが終わるのではなく、プラットフォーム自体が拡大・進化する過程で新たなリスクを生む可能性を示唆します。 -IGG4関連疾患の急増とコロナワクチンの関連を例示する報告を紹介。IGG-4抗体が高値となり、多様な臓器炎症を引き起こす病態が観察され、ウイルス感染・ワクチン接種と免疫抑制・過剰免疫の連携が臨床で見られるケースの存在が議論されました。これにより、免疫の過剰反応・異常免疫を招く可能性があるとの懸念が示唆されました。 -ウイルス学・免疫学の専門家は、Repliconワクチンの「増殖・変異・組換えの三拍子」が、長期的・広範な公衆衛生影響をもたらし得る点を強調します。従来のウイルスワクチンの枠組みを超え、自己拡散・他者伝播・遺伝子汚染の可能性を定量的に評価する必要があると主張します。 -議論は、Repliconの潜在的リスクと実利を天秤にかけるもので、現時点で「安全」と断定できないという結論に至る場面が多くありました。実臨床での結果を長期観察で検証し、エビデンスに基づく判断を求める声が複数の speaker から出ました。 -最後に、メディア・一般市民への啓蒙の喚起と、透明性の高い情報提供、そして次世代ワクチン開発の安全性を担保するための厳格な規制・評価の重要性が強調されました。現状の科学的理解には限界があり、今後も公衆衛生への影響を見据えた厳密な検証が不可欠であるとの結論が共有されました。 overall, the event centers on the scientific basis, potential risks, and regulatory considerations of Replicon vaccines, contrasted with traditional mRNA vaccines, with emphasis on mutation, recombination, potential horizontal spread, DNA contamination concerns, immune dysregulation (including IGG4-associated phenomena), and the need for rigorous, transparent evaluation before broad deployment.

Moderna holds a patent for using RNA in vaccines, acknowledging that RNA is better than DNA due to concerns about DNA-related problems like insertional immunogenesis and genotoxicity. The FDA claims to be unaware of these concerns, but Moderna's own patent highlights them. The presence of DNA in the vaccines is considered a contaminant, as it is used in the process of making RNA. Recent findings by scientists in the US and Canada revealed large amounts of DNA fragments in the RNA preparation, including sequences not allowed for human use, such as an antibiotic resistance gene and sequences from simian virus 40. These DNA fragments pose risks of DNA damage, including birth defects and cancer.

The vaccine contains fatty acids and messenger RNA encased in fatty acid nanoparticles for protection. Once injected, the components are taken up by cells and eventually disintegrate. Some misinformation and fears about the vaccine's contents exist, but it is important to communicate clearly about its temporary nature and immune response activation. Additionally, the vaccine has been found in various tissues throughout the body, contrary to initial beliefs about its localized effects and degradation timeline.

Speaker 0 outlines three reasons: - Endonucleases digest the RNA before it even has a chance to get in the cell; ribonucleases degrade the mRNA as soon as you inject it. - The process of endocytosis is proposed to bring it in, but there is no proof that this happens, and there is evidence of exocytosis, which would bring the RNA out of the cell rather than into it. - The assumption that some of this mRNA enters the cell is not proven; 98% or so is degraded by enzymes within the cell whose job it is to surveil and get rid of this foreign genetic material.

- The mRNA on plasmids was produced, and after processing, much DNA from plasmids remained; Kevin MacKinnon found that vials were full of plasmid DNA, the whole plasmid and parts of it, and this was published. Authorities claimed it doesn’t matter and that vaccines have saved millions of lives, so why not have some DNA in them. - The DNA in the vaccine vials was packaged in lipid nanoparticles and was shown by colleagues last year (the INMODIA publication) to enter human cells in culture and remain stable in cells for days, as did the mRNA. Despite this, the message given was to poof, never mind, don’t worry, be happy. - A radical change occurred due to a discovery by Kevin MacKinnon three weeks ago: during transcription on the chromosome, byproducts are generated; some mRNA strands do not detach from the DNA where they’re formed, creating hybrids of DNA and RNA that come off together. These hybrids are dangerous. - In cells, an enzyme called RNase H takes care of these sparks and extinguishes them immediately; otherwise they can cause damage to the chromosome, potentially lighting “fires” on the chromosomes. If not extinguished, the fires can cause diverse damage depending on where they occur, potentially leading to illnesses described in medical textbooks, including tumors (neoplastic disease), autoimmune disease, developmental impairment, birth defects, or death. - The speaker asserts these hybrids and their mishandling could lead to a broad range of illnesses, and emphasizes that this situation is not limited to the COVID vaccine but applies to all Moderna RNA vaccines, including new Moderna RNA vaccines entering the market, such as a flu vaccine, and mentions veterinary RNA vaccines as well. - The claim is made that these vaccines will be heavily contaminated with deadly dangerous hybrids, and it is the duty of authorities and controlling authorities to stop proceeding and not turn away; otherwise they will face court for not fulfilling their duties. The speaker has been giving interviews and asserts this narrative is spreading worldwide, framing it as akin to attempted murder and urging physicians to refuse vaccination.

When was the last time you saw a strand of DNA? It's the genetic code in almost every cell, defining who you are. Recently, there's been a rumor that COVID-19 vaccines alter your DNA. The Pfizer and Moderna vaccines use messenger RNA (mRNA) technology. After injection, the vaccine instructs your cells to prepare for an incoming virus, prompting your immune system to create antibodies. Importantly, the vaccine never enters the nucleus where your DNA resides, and once your cells use the vaccine, they destroy it. While these vaccines are new, mRNA technology has been in development for over a decade. So, if you're concerned about the vaccine changing your DNA, there's no need to worry. You remain unchanged.

A new version of mRNA technology called self-replicating mRNA is emerging. This platform was a competitor to the mRNA platform that was settled upon. There are protests in Japan over self-replicating mRNA vaccines, also called replicons. The original mRNA platform turned people's cells into vaccine factories. To make the mRNA vaccines work, the mRNA transcript was stabilized with pseudouridine. All of the uracils were replaced by something chemically similar to stabilize the molecules. The claim that the mRNA molecules were short-lived was false, as they had been hyper-stabilized. Self-replicating mRNAs borrow machinery from alphavirus. They include the gene for the antigen along with genes for proteins that allow the RNA to copy itself. Instead of stabilizing a single mRNA molecule, the mRNA is allowed to duplicate itself.

Moderna's patents reveal the use of modified polynucleotides and lipid nanoparticles in their mRNA vaccines. These nanoparticles, with sizes between 80 and 160 nanometers, contain modified mRNA encoding a polypeptide. The term "lipid" is used to refer to nanotechnology, as these lipids possess positive electromagnetic fields. The patents also mention self-assembled and programmable nanoparticles that can receive external programs. Microsoft has explored the concept of biological computers operating inside living cells, using DNA as a programmable material. One specific patent, U.S. 9539210B2, discusses vaccine nanotechnology capable of delivering molecules, including toxins from chemical weapons or agents of biowarfare. This information is crucial for all American citizens.

The speakers discuss a broad denial about vaccine injuries and the idea that, despite evidence, the medical establishment and political figures push the narrative that vaccines are safe and effective. They claim that many people who are vaccinated want to move on and avoid acknowledging serious side effects, including turbo cancers, undetected myocarditis, and neurological issues, and that autoimmune disease is being attributed to other causes. They argue that the medical establishment, federal health agencies, and some members of Congress who produce supportive content, such as segments like Steve Colbert’s, advocate for taking the shot. They question how many people were killed or died from the shot, asserting that Bayer’s data shows “close[ly]” to thirty-nine thousand worldwide, and that if only ten percent are reported, the true number would be in the hundreds of thousands. They claim there are millions of adverse events, but that this is denied and covered up. The speakers contend that the shot was not a real vaccine. They describe it as gene therapy rather than a traditional vaccine. They explain a sequence in which a vaccine is typically an attenuated or killed virus that requires adjuvants like aluminum or mercury to stimulate the immune system, because the attenuated or killed virus may not work well on its own. In contrast, they say this shot is mRNA, which is modified so it does not degrade. They describe how it is put into a lipid nanoparticle designed to permeate barriers like the blood-brain barrier, and they assert it would never stay in the arm, distributing all over the body. They claim the lipid nanoparticle allows the mRNA to enter cells, hijack cellular structures, and cause the cells to express spike protein, which the body then attacks as foreign. When asked who is responsible, they reference a “doctor Frankenstein” figure and name Francis Collins, head of the NIH, and Anthony Fauci as possible figures in question. The response indicates that while they consider all of them criminally liable, they would say it is primarily Fauci, with acknowledgment that people like Collins are implicated as well.

I've been involved in over 50 vaccines, including mRNA vaccines. mRNA is like DNA, giving cells instructions to make proteins. This technology was originally for gene therapy, now used for vaccines. It's a new, experimental technology never used in humans before COVID. Animal studies were skipped for COVID vaccines, a novel approach.

The vaccine does not contain animal products. The vial mainly contains water for injection, a strand of messenger RNA, and fatty acids that protect the RNA. The RNA is fragile and needs protection. The fatty acids form a nanoparticle that is taken up by the cell. Two of the four lipids in the lipid nanoparticles are highly toxic, completely novel, and never authorized before in any medicinal product. After being taken up, the components disintegrate and are recycled within hours to days. The therapeutic goods administration in Australia (TGA) data shows the vaccine has been found in adipose tissue, adrenal glands, bladder, bone, bone marrow, brain, eyes, heart injection site, kidneys, large intestine, liver, and lungs. There is no degradation data available, so it is unknown how quickly it goes away.

"So here we see the syringe needle going in and the lipid nanoparticles coming out." "Probably three to 6,000 per injection." "These are completely new to the human body, and they circulate around in the blood." "They're supposed to stay in the deltoid muscle, but they don't." "They circulate everywhere around the body." "Then when they come to a cell, they'll go inside the cell, this process called endocytosis." "Any contaminating DNA will be carried very, very efficiently by the lipid nanoparticles into cells, coming into contact with the walls of the vascular endothelium, the lining of the blood vessels." "If the lipid nanoparticles are 80 nanometers each, it would be 87 of them to fit across the diameter of a red blood cell." "So 5,000,000,000 of these red blood cells in one milliliter of blood, and yet this is the size of the lipid nanoparticles." "Until these problems are resolved there should be a moratorium on mRNA vaccines." "In my view let me know what you think."

There's new evidence suggesting shedding might be real. The mRNA vaccines were called vaccines instead of gene therapy so they wouldn't have to test for shedding on non-injected people. We're giving your body the code to make the virus' spike protein, creating immunity. The spike protein alone won't kill you, but your body learns to eliminate it. If you later get COVID, your body will recognize and attack the spike protein. However, there's no guarantee your body stops producing the spike protein. Your cells, once healthy, now make spike proteins, which your immune system attacks, even if it's your own cells. The mRNA in the vaccines is stabilized to last longer and is coated in lipid nanoparticles to protect it and cross the blood-brain barrier.

Pfizer and Moderna used two processes to create their vaccines. Initially, they used PCR to amplify and create the DNA for clinical trials. However, when they received approval, they needed to produce billions of copies, so they used circular bacterial DNA plasmids. Unfortunately, this led to contamination with junk DNA. Researchers in Ontario, Canada tested 27 mRNA vials from 12 different lots and found billions to hundreds of billions of DNA molecules per dose, exceeding FDA and WHO guidelines by 188 to 509 times. This is a significant amount, far beyond what is considered acceptable.

Die RNA-Impfstoffe enthalten Bakterien-Chromosomen als Verunreinigung, da eine vollständige Entfernung zu teuer wäre. Diese Verunreinigungen sind bei allen RNA-Impfstoffen üblich. Im Gegensatz zur akzeptablen Plasmid-DNA sind diese DNA verpackt und zellbereit. RNA-Impfstoffe können ernsthafte Nebenwirkungen haben und sind wissenschaftlich bewiesen, lebensbedrohlich zu sein. Translation: RNA vaccines contain bacterial chromosomes as contamination, as complete removal would be too costly. These contaminations are common in all RNA vaccines. Unlike acceptable plasmid DNA, this DNA is packaged and cell-ready. RNA vaccines can have serious side effects and are scientifically proven to be life-threatening.

The panel discusses replication (replicon) vaccines and their potential dangers, focusing on how they differ from conventional messenger RNA (mRNA) vaccines and what new risks might emerge as this technology develops. Key points and concerns raised - Replicon vaccines concept and fundamental differences - Replicon vaccines use replication-capable genetic material, so the embedded genetic information not only makes antigen proteins but also multiplies inside the cell. They are described as having both constitutive function (the ability to make proteins) and, crucially, the capacity to replicate, which distinguishes them from traditional, non-replicating mRNA vaccines. - It is explained that replication introduces additional mutation and recombination opportunities, because the RNA genome is copied more than once, and the process can produce variants that differ from the original design. - Central dogma exceptions and viral biology - The speakers explain that while the central dogma (DNA → RNA → protein) generally governs biology, some viruses violate this, with RNA viruses that replicate via RNA-dependent replication and even some reverse-transcribing retroviruses that convert RNA to DNA and integrate into genomes. This context is used to frame why replicon vaccines could behave unpredictably. - Potential risks of replication and spread - A core concern is that the replicon approach might allow the vaccine genome to spread beyond the initial target cells, potentially reaching other cells and tissues, or even spreading to other people via exosomes or other means. Exosomes can transport DNA, RNA, and proteins between cells; thus, the replicon genome could in theory be disseminated. - The possibility of homologous or heterologous recombination between replicon genomes and wild-type viruses could yield new variants. The panel emphasizes the difficulty of controlling such recombination in a living system. - Specific material and design considerations - The use of viral components like spike protein genes in replicon vaccines raises concerns about how these proteins might mutate or recombine during replication, potentially altering antigen presentation or safety. - A concern is raised about the lack of repair mechanisms in RNA replication (as opposed to DNA replication), which could make error rates higher and lead to unpredictable changes. - The panel notes that current replicon vaccine designs (including those using alphavirus backbones) inherently carry high mutation and recombination risk, and that the replicating systems may encounter unpredictable evolutionary dynamics inside the human body. - Safety signals and clinical anecdotes - The speakers cite cases of adverse events temporally associated with vaccines, including vascular inflammation and thrombosis, stroke-like events, and myocarditis, to illustrate that immune responses to vaccines can be complex and occasionally severe. They emphasize that such observations do not establish causality, but argue they warrant careful scrutiny. - There are references to cases of acute vascular and neural complications following repeated vaccination, and to broader immune dysregulation phenomena, including IGG4-related disease and immune dysregulation syndromes that can involve multiple organs. - One example concerns a patient who developed sudden limb problems after the third dose, requiring surgery; another describes myocardial involvement after multiple doses and subsequent inflammatory sequelae. - DNA contamination and analytical findings - Kevin McKernan’s analysis of certain Japanese CoronaVac vaccines is cited: both DNA contamination and the presence of SV40 promoter elements were detected in some vaccine lots, with DNA amounts exceeding some regulatory benchmarks in at least one case. The concern is that DNA contamination, or the presence of promoter sequences, could influence integration or expression in unintended ways. - It is noted that vaccines using lipid nanoparticles can potentially deliver nucleic acids into cells; in the presence of exons or promoter sequences, there could be unintended cellular uptake and expression. - Implications for public health and policy - The panel underscores the need for caution, thorough investigation, and long-term observation of any replication-based vaccine platform before broad deployment. There is a call to evaluate risks, monitor long-term outcomes, and consider the possibility that replication-competent constructs could drive unforeseen evolutionary dynamics within hosts or communities. - There is contention about how information is communicated to the public, with particular emphasis on avoiding misinformation while ensuring that scientific uncertainties are transparently discussed. - Broader scientific context and forward-looking stance - The speakers discuss how the field’s approach to gene-based vaccines is evolving rapidly, and they stress that the compatibility of replicon systems with human biology is not yet fully understood. - They frame their discussion as not merely about current vaccines but about the trajectory of vaccine platforms: if replication-based or self-dispersing systems prove too risky or unpredictable, the prudent path might be to favor conventional, non-replicating strategies until safety, efficacy, and containment of unintended spread are more firmly established. Closing and takeaways - The session closes with emphasis on careful evaluation of replicon vaccines, awareness that viral genetics can behave differently in humans than in theory, and a call for continued discussion, independent verification, and transparent communication as the technology develops. - Throughout, speakers acknowledge the complexity of immune responses to vaccines, the potential for unexpected adverse events, and the importance of safeguarding public health while advancing vaccine science.

Pfizer and Moderna vaccines use two processes. The first process involves using PCR to amplify and create DNA for clinical trials. Once approved, they use circular bacterial DNA plasmid to replicate billions of mRNA DNA sample copies. However, this resulted in contaminated vaccines with junk DNA. A study found DNA fragments in Pfizer and Moderna vaccines in Ontario, Canada. Researchers tested 27 mRNA vials from 12 different lots and discovered billions to 100 billions of DNA molecules per dose, exceeding FDA and WHO guidelines by 188 to 509 times. This is a significant amount, far beyond what is acceptable.

The mRNA COVID vaccine gives your body instructions to create copies of spike proteins. As soon as the spike protein is made, the vaccine breaks down and disappears from your body, usually within a matter of days or even hours. The vaccine is administered into your arm muscle, where it's quickly metabolized. The vaccine is taken up at the injection site and does not diffuse throughout the body. Your cells destroy the vaccine and recycle its components. Your immune system recognizes the spike proteins and learns how to fight the virus, without you actually getting sick. After a few days, all the mRNA from the vaccine is gone and the spike proteins that your cells produced are destroyed by your immune system. The only thing that remains is the memory of how to fight COVID-19, so your immune system is ready if it encounters the virus again. There is nothing to fear from the vaccine.

Nicholas Holcher, an epidemiologist and foundation administrator at the McCullough Foundation, appears on the WiderWake Media Podcast to discuss what he calls harms from the mRNA COVID vaccines and to critique mainstream approaches to the pandemic and public health policy. - Vaccine definitions and mRNA technology - Pre-2000 definition: a vaccine is an injectable or oral product that introduces a killed part of a virus or an inactivated form to the body so that encountering a wild-type version would not infect or would cause a less severe illness. - He asserts that mRNA injections are not vaccines: they are a gene transfer platform using modified messenger RNA with long persistence in the body (via N1-methylpseudouridine), delivered in lipid nanoparticles. He claims these bubbles distribute systemically, including to the brain, heart, bone marrow, and reproductive system, and that they instruct cells to produce a spike protein, effectively turning organs into “toxic spike protein production factories.” He says this leads to autoimmune attack on those tissues and contributes to adverse events, including myocarditis, strokes, immune destruction, and “turbo cancers.” - History and purpose of mRNA in vaccines - According to Holcher, work on this technology existed for decades but animals testing showed high mortality or sterilization in ferrets and mice, preventing approval except under a declared global emergency. He contends the COVID-19 crisis enabled emergency use authorization across Western countries, with ulterior aims to inject the globe with mRNA technology. - Global impact and uptake - He estimates about 70% of the global population received at least one COVID-19 injection (mRNA or viral vector). He notes Eastern countries used non-mRNA platforms (e.g., AstraZeneca/J&J in some places; Sinovac elsewhere) but that uptake in the West was high. - Harms and evidence - Excess deaths: cites a study by Dennis Brancourt et al. estimating around 17 million deaths worldwide as a result of COVID injections (as of September 2023); he claims US deaths could be in the hundreds of thousands to millions. - Turbo cancers: cites multiple studies in 2023 showing increased risk of seven cancer types (colorectal, bladder, breast, thyroid, prostate, etc.) in vaccinated groups; cites a major cancer journal, OncoTarget, reporting hundreds of turbo cancer cases across 27 countries, with Pfizer contributing most cases. Holcher also mentions his own group’s work with Neo7 Bioscience documenting genomic integration of vaccine-derived mRNA in a stage IV bladder cancer patient (31-year-old woman) with a segment of mRNA found in circulating tumor DNA on chromosome 19; another study reported thousands of dysregulated genes in post-vaccine cancers, including p53, KRAS, and BRCA. - Definition of turbo cancer: per Merrick et al., rapid, aggressive tumor progression with sudden onset and early metastasis, often in younger individuals, and resistant to treatment. - Fertility, pregnancy, and autism - Fertility: cites studies suggesting fertility impacts, including Karaman et al. finding depletion of primordial follicles in rats after mRNA vaccination; Manichi et al. reporting 33% lower conception rates in vaccinated women in Denmark; a study indicating a ~20% drop in sperm concentration and motility with no recovery over five months. - Autism: asserts a large body of evidence linking vaccines to neurodevelopmental disorders, citing a 136-study review with 107 studies finding positive associations between vaccines and neurodevelopmental issues, including autism, attributed to toxicity and immune system disruption, particularly in children with high vaccine exposure and reduced detox capacity (CYP450 impairment). - Other topics tied to vaccines and public response - The COVID-19 period and vaccine skepticism: claims the pandemic catalyzed a large anti-vaccine movement because people were compelled to take an experimental gene therapy product. - Sam Altman and gene editing: discusses Altman’s Preventive venture with the aim to reduce heritable diseases via in utero gene editing but warns of the path to designer babies and the potential for harm in early-iteration edits, citing prior CRISPR experiments on human embryos that produced deformed offspring or nonviable results. - AI, workers, and future society: predicts two-tier society with implanted or enhanced individuals and a replacement of human labor by robots and AI systems; discusses military and surveillance ambitions in gene editing and AI augmentation. - Mental health and digital life: references a randomized trial showing that turning off mobile Internet improved depression scores and well-being to an extent comparable to or greater than antidepressants. - World Health Organization (WHO): notes the US has pulled out of the WHO, arguing this is good for the US but potentially harmful for others still in the organization; expresses concerns about the pandemic treaty and ongoing global health governance, including vaccine passport-style surveillance. - FDA and public health policy: acknowledges some shifts (e.g., cutting doses from the childhood schedule) but argues the FDA remains compromised and too aligned with vaccine industry interests; criticizes the removal of a potential black box warning for vaccines and calls for more accountability. - Resources and contact - Holcher invites listeners to follow him on X (Twitter) at @nichulsher and to read their work on focalpoints.com and through McCullough’s network. Note: The transcript presents Holcher’s claims and interpretations about vaccines, turbo cancers, autism, fertility, and policy changes. The summary reproduces these points without endorsement or evaluation.

The injections contain PEGylated nanoparticles with modified mRNA to produce the spike protein of the coronavirus. There is also DNA, including the s v40 promoter sequence, which can integrate into chromosomes, genetically modifying people without their consent when they thought they were receiving a safe vaccine.