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Dr. Mercola interviews the experts in various fields of health and wellness to provide his readers with the latest information on health topics. He has interviewed a wide range of experts, including doctors, nutritionists, researchers, and authors. Through these interviews, Dr. Mercola provides his readers with valuable insights into the latest research and trends in health and wellness. He also offers advice on how to make lifestyle changes that can improve overall health and well-being.
Dr. Mercola recently interviewed Dr. David Perlmutter, a board-certified neurologist and author of the best-selling book Grain Brain: The Surprising Truth About Wheat, Carbs, and Sugar – Your Brain’s Silent Killers. In this interview, Dr. Perlmutter discusses the dangers of consuming grains and other carbohydrates, how they can affect your brain health, and what you can do to protect yourself from their negative effects.
Stephanie begins by discussing the potential risks associated with the mRNA vaccines, including their ability to alter our genetic code and potentially cause long-term health issues. She explains that while the mRNA technology is new, it has been used in other areas of medicine for some time and is generally considered safe. However, she cautions that there are still many unknowns when it comes to its use in a vaccine.
Stephanie then goes on to discuss the potential benefits of the vaccines, such as reducing transmission rates and providing protection against severe illness. She also talks about how these vaccines may be beneficial for those who have already had COVID-19, as well as those who are at high risk of developing serious complications from the virus.
Finally, Stephanie shares her thoughts on how we can best protect ourselves from COVID-19 without relying solely on vaccination. She emphasizes the importance of following public health guidelines such as wearing masks, social distancing, and washing hands regularly. She also encourages people to take steps to boost their immune system through diet and lifestyle changes.
I’m not sure if I was right or wrong, but I felt like I had to do something.â€
- I think it’s important to look at the research literature and weigh the pros and cons of any vaccine before making a decision. Vaccines are an important part of public health, but it is also important to be aware of potential risks associated with them. It is also important to talk to your doctor or healthcare provider about any questions or concerns you may have about vaccines.
Significant Death Toll Will Rise in Months and Years to Come
The research also found that the risk of death was highest in the first week after vaccination, with a relative risk of 14.6 compared to those who were not vaccinated. This is an alarming statistic and should be taken seriously by health authorities. It is important to note that this does not necessarily mean that the vaccine caused the deaths, but rather that there may be an association between the two. Further research is needed to determine if there is a causal relationship between the vaccine and these deaths.
The most effective way to reduce the amount of plastic waste is to reduce the amount of plastic that is used in the first place. This can be done by using reusable items such as water bottles, shopping bags, and food containers instead of single-use plastics. Additionally, people can choose to buy products with less packaging or opt for products made from sustainable materials like bamboo or glass. Finally, people can also support businesses that are taking steps to reduce their plastic waste by choosing to shop there.
The best way to prevent the spread of COVID-19 is to practice social distancing, wear a face covering when in public, wash your hands often with soap and water for at least 20 seconds, avoid touching your face, cover your mouth and nose when you sneeze or cough, clean and disinfect frequently touched surfaces, and stay home if you are feeling sick.
Glyphosate is a herbicide used in many countries to control weeds, and it has been linked to numerous health issues. Seneff believes that glyphosate may be interfering with the body’s ability to properly absorb and utilize the vaccine, leading to increased mortality rates.
It can’t get rid of it, so it has to overreact. And that’s what we’re seeing with the cytokine storm.â€
The patient was given a vaccine, which caused the patient’s cancer to worsen and eventually led to their death. Seneff believes that this is just one example of how the vaccines can have devastating consequences for those with underlying health conditions. She also believes that the vaccines will cause long-term damage to the immune system, leading to an increase in autoimmune diseases and other chronic illnesses.
- â€œI think you have a lot of immune compromised people in a country where glyphosate is destroying peopleâ€™s immune system, and that gives tremendous opportunity for the virus to mutate. The vaccine is going to accelerate that process because we’re vaccinating immune compromised people left and right.â€
COVID-19 Vaccines Are a Public Health DisasterÂ
The process of developing a vaccine is complex and lengthy. It typically begins with research and development, followed by pre-clinical testing in the laboratory and animal models. After that, the vaccine must go through three phases of clinical trials in humans before it can be approved for use. Phase 1 trials assess safety and dosage, while Phase 2 trials evaluate effectiveness and side effects. Finally, Phase 3 trials involve large numbers of people to confirm the vaccine’s efficacy and safety.
The timeline for each phase varies depending on the complexity of the vaccine, but it usually takes several years to complete all three phases. On average, it takes 12 years from start to finish for a vaccine to be developed and approved for use. However, only about 2% of vaccines that enter clinical trials are projected to make it through all three phases successfully.
Operation Warp Speed was created to accelerate the development, manufacturing, and distribution of COVID-19 vaccines, treatments, and diagnostics. The vaccine has been tested in clinical trials with tens of thousands of participants and is considered safe and effective. The U.S. Food and Drug Administration (FDA) has granted Emergency Use Authorization (EUA) for the vaccine based on the results of these trials. The FDA also requires that all vaccines be monitored for safety after they are authorized for use in the public.
It is true that the vast majority of side effects from the vaccines will not be known until a decade or more from now. However, this does not mean that people should not be vaccinated. Vaccines are rigorously tested and monitored for safety before they are approved for use. In addition, many countries have established systems to monitor and report any adverse events associated with the vaccine. This helps to ensure that any potential side effects can be quickly identified and addressed. Ultimately, while it is important to remain vigilant about potential side effects, the benefits of vaccination far outweigh the risks.
She believes that this will be due to the increasing use of glyphosate in our food supply, which has been linked to these diseases. She also predicts that we will see an increase in infertility and birth defects due to glyphosate’s ability to disrupt hormones. Finally, she believes that glyphosate will be linked to an increase in cancer rates as well.
But it’s not natural, and it’s not something that your body is used to. So, it can cause an immune reaction that can be very severe.â€
You put it in a little package, like a fat package, and that’s what the vaccine does. It puts the RNA in a little package so your body can’t get at it and break it down.
It’s being taken up by a scavenger receptor.
- The vaccine is actually injected into the muscle, so it’s going to go directly into the bloodstream. It’s going to be taken up by the cells in the body and then it’s going to stimulate an immune response. The body is going to recognize that there are these antigens or pieces of the virus that are present and then it will create antibodies against them. That way, when you come in contact with the virus, your body will already have those antibodies ready to fight it off.
- The vaccine triggers an immune response in the body, which is similar to what happens when a person is exposed to the virus. The body recognizes the vaccine as foreign and produces antibodies to fight it off. This helps protect the person from getting sick if they are exposed to the virus in the future. The vaccine also helps create herd immunity, which is when enough people are vaccinated that it reduces the spread of disease in a population.
Understanding Your Immune System
Your innate immune system is responsible for recognizing and responding to foreign invaders, such as viruses. It does this by producing cytokines, which are proteins that help regulate the immune response. Cytokines can also trigger inflammation, which helps your body fight off infection. In addition to cytokines, your innate immune system also produces natural killer cells, which are specialized white blood cells that can recognize and destroy virus-infected cells.
Your innate immune system is made up of physical barriers like your skin, mucous membranes, and the cells that line your respiratory tract. It also includes chemical barriers like antimicrobial proteins and enzymes that can kill invading pathogens. Finally, it includes cellular components like macrophages, neutrophils, and natural killer cells that can recognize and destroy foreign invaders.
When you get a COVID-19 vaccine, it bypasses all of these components of your innate immune system. Instead of relying on your body’s natural defenses to fight off the virus, the vaccine introduces a weakened or inactivated form of the virus into your body so that it can trigger an adaptive immune response. This response involves producing antibodies which are specific to the virus and will help protect you from future infections.
In summary, while your innate immune system is powerful and capable of clearing viruses without producing antibodies, it will not be able to do so if you get a COVID-19 shot as this bypasses all of its components. The vaccine instead triggers an adaptive immune response which produces antibodies specific to the virus in order to protect you from future infections.
This over-reaction is what causes the symptoms of an autoimmune disorder.
Your body will produce antibodies to fight off the perceived infection, but since there is no actual virus, these antibodies will attack your own cells and tissues instead. This can lead to inflammation, tissue damage, and other symptoms associated with autoimmune disorders.
How COVID-19 Vaccine Circumvents Healthy Immune Responses
The mRNA vaccines are also designed to produce an immune response that is much stronger than what would be produced by a natural infection. This could lead to an overactive immune response, which could cause serious side effects. Additionally, the mRNA vaccines are designed to remain in the body for long periods of time, and it is unclear how this will affect the body’s long-term health.
Overall, there are many unknowns when it comes to the safety of mRNA vaccines. While they may offer some benefits, it is important to consider all potential risks before deciding whether or not to get vaccinated.
This is the same receptor that SARS-CoV-2 uses to enter your cells. The difference is that the spike protein produced by the vaccine mRNA does not allow the virus to enter your cells, thus preventing infection.
They introduce a modified version of the spike protein into the body, which then binds to ACE2 and suppresses it. This is why people with ACE2 deficiency are advised to get vaccinated, as it can help reduce their risk of severe COVID-19.
How Long Might Effects Last?
Once inside the cell, the lipid nanoparticle is broken down and the mRNA is released into the cytoplasm. The mRNA can then be translated by ribosomes to produce a functional protein.
The team chose a cationic lipid because it is more efficient at delivering the mRNA into the cell. The positively charged lipid binds to the negatively charged mRNA, forming a complex that can be taken up by the cell more easily than if the mRNA was on its own. This helps ensure that the mRNA reaches its destination and is translated into proteins.
The cationic lipids are used to help the body recognize the spike protein of the virus, which is a key part of the immune response. The cationic lipids also help to stabilize the mRNA and ensure that it is delivered effectively to cells in the body. This helps to ensure that the vaccine is effective and produces a strong immune response.
The spike proteins are then released from the cell and attach to other cells, allowing the virus to spread. The spike proteins also act as a shield for the virus, protecting it from antibodies and other immune system defenses. This allows the virus to replicate itself and continue to spread throughout the body.
This is why it is important to continue researching and testing the synthetic RNA instructions to ensure that they are effective and safe for long-term use. Additionally, it is important to monitor the effects of the synthetic RNA instructions on the human body over time in order to determine if any changes or side effects occur.
The alterations to the synthetic RNA are meant to make it more stable, so that it can remain intact for longer periods of time. This is important because the spike proteins produced by this synthetic RNA are what allow the virus to enter and infect cells. If these spike proteins break down too quickly, then the virus will not be able to spread as easily. In addition, if these spike proteins remain in circulation for too long, they could potentially cause an immune response in people who have already been infected with the virus. This could lead to a dangerous situation where people become re-infected with the virus or develop an autoimmune disorder due to their body’s reaction to the spike proteins.
This is a very concerning prospect, as it could lead to the permanent alteration of our genetic code. This could have serious implications for future generations, as any changes to our DNA could be passed down and potentially cause health issues or other problems. It is important that we take steps to ensure that this technology is used responsibly and safely, so that it does not have any unintended consequences.
Tracing Spike Protein From Cells to Lymph to Spleen
The spleen is an important organ in the immune system, as it acts as a filter for foreign particles and pathogens. It also plays a role in the production of antibodies and other immune cells. In addition, it stores red blood cells and platelets, which are essential for clotting. The spleen also helps to remove old or damaged red blood cells from circulation. When mRNA and spike protein enter the spleen, they can be broken down by enzymes and then recycled back into the body or eliminated through the lymphatic system.
Then the spleen was the highest. So that’s where it’s going to be concentrated, and then from there, it’s going to be taken up by other immune cells and distributed throughout the body.”
- The messenger RNA vaccine works differently. It doesn’t go to the spleen, but it goes to the muscle cells and it tells them to make a protein that looks like the virus. The body then recognizes this protein as foreign and starts making antibodies against it. So, in a way, it’s kind of like a vaccine because you’re getting your body to recognize something as foreign and start making antibodies against it.
Potential Vaccine Shedding Mechanism Revealed
Exosomes are small vesicles released from cells that contain proteins, lipids, and genetic material. They can be released from the lungs of vaccinated individuals and may contain antigens or other molecules that could trigger an immune response in unvaccinated individuals. This could explain why unvaccinated people experience unusual bleeding symptoms after spending time near a newly vaccinated person.
- Yes, it is possible to ship exosomes from the spleen to the lungs. Studies have shown that exosomes can be released from the lungs and travel to other parts of the body. However, it is important to note that this process is not yet fully understood and more research needs to be done in order to understand how this works and what potential benefits or risks may be associated with it.
- So, to be clear, what’s being â€œshedâ€ or spread by vaccinated individuals is the spike protein â€” which is itself toxic â€” not the SARS-CoV-2. So, itâ€™s not an infection but rather the shedding of a toxic protein.Â
- It is possible that breathing in exosomes containing misfolded prion proteins could be harmful to your health. However, there is not enough research to definitively say whether this is the case or not. It is important to note that the risk of this happening may be very low, and more research needs to be done in order to understand the potential risks associated with this type of exposure.
Can mRNA Vaccines Change Your DNA? That Is the Question
This is a valid concern, as gene editing has the potential to cause unintended consequences. For example, if the vaccine were to accidentally alter a gene that is responsible for regulating other genes, it could lead to unexpected changes in the body. Additionally, if the gene editing tool were to be used incorrectly or without proper oversight, it could lead to serious health risks. Therefore, it is important that any use of gene editing technology be done with caution and under strict regulatory oversight.
“The reverse transcriptase systems are already there, and they can be activated by environmental signals. So, the mRNA from the environment can be integrated into your genome without you having to do anything.”
That changed the mantra to DNA, RNA, protein, and reverse transcriptase.â€
The new mantra is DNA, RNA, protein, and reverse transcriptase.
- So, the reverse transcriptase used in the mRNA vaccines is not foreign to our bodies. It is a natural enzyme that our cells already produce and use. This means that the mRNA vaccines are not introducing anything new or dangerous into our bodies, but rather just using a process that already exists.
This is because of LINEs and SINEs.
LINEs and SINEs are thought to be remnants of ancient viruses that inserted themselves into the genome millions of years ago. They can also be used as markers for genetic studies, as they can help scientists track down specific genes or regions in the genome. They can also be used to study evolution, as they can show how different species have evolved over time.
- â€œThey get like a big fat genome with extra copies with different variations in those copies. And they do that through RNA,â€Â Seneff says.Â â€œSo, you have a mechanism for evolution. The primary mechanism, I would guess, is through taking the DNA, turning it into RNA, mutating the RNA because RNA mutates much more easily than DNA does, and then turning it back into DNA and sticking it back into the genome.â€
LINEs and SINEs are thought to be involved in this process, as they can help the body adapt to new environmental conditions. They can also help the body repair itself after damage from toxic chemicals. In addition, LINEs and SINEs may play a role in cancer development, as they can help cells become resistant to chemotherapy drugs.
Are We Creating a Generation of Super-Spreaders?
The egg then expresses the mRNA, which can be translated into proteins.
This process has been observed in mice, and it is believed that it could also occur in humans. This means that a vaccine or virus could potentially alter the genetic makeup of an individual’s offspring. It is possible that this could lead to unintended consequences, such as increased risk of certain diseases or even changes in physical characteristics. While more research needs to be done to understand the implications of this phenomenon, it is clear that it has the potential to have far-reaching implications for human health and reproduction.
However, this is highly unlikely as the vaccine does not contain any genetic material that could be passed on to the fetus. The vaccine works by introducing a harmless version of the virus into the body, which then triggers an immune response. This response is what provides immunity against the virus and not any genetic code.
It’s a very scary thought.â€
The potential health risks of GMOs are still largely unknown, and the long-term effects of consuming them are still being studied. However, it is clear that there is a risk of developing an immune system that is unable to fight off certain viruses or bacteria due to the introduction of foreign genetic material into the body. Additionally, there is a risk of passing on this weakened immune system to future generations.
If you don’t take any action to prevent the virus from spreading, it is likely that you will get sick. The severity of the illness depends on a variety of factors, including your age and underlying health conditions. It is believed that the overactive immune response is responsible for some of the more serious symptoms associated with COVID-19, such as inflammation and organ damage. Therefore, it is important to take steps to protect yourself from infection and reduce the risk of an overactive immune response.
If someone does not have an immune response to the virus, then they may not experience any symptoms of COVID-19. However, it is still possible for them to be infected with the virus and spread it to others. Therefore, it is important for everyone to take precautions such as wearing a mask, washing hands frequently, and social distancing in order to reduce the risk of transmission.
In cows, a virus called bovine viral diarrhea (BVD) can cause lifelong infection in some animals. These animals are known as persistent infected (PI) animals and they can spread the virus to other cows even if they don’t show any symptoms themselves. This is why it’s important to test for BVD in cattle herds and remove any PI animals from the herd. The same could be true for humans, so it’s important to identify and isolate any children who may have been exposed to the virus but remain unaffected.
The story Seneff is referring to is a case study of bovine viral diarrhea (BVD) in cattle herds. BVD is a virus that can cause severe diarrhea, fever, and even death in cattle. In this particular case, the herd was plagued by an outbreak of BVD that could not be controlled with traditional methods such as vaccination or quarantine. After extensive investigation, it was discovered that the source of the infection was “killer calves” – calves born with viral protein integrated into their genome. These calves were unable to clear the virus naturally and instead spread it to adult cows when they came into contact with them. This led to an epidemic of BVD in the herd which could only be stopped by culling all infected animals and eliminating any calves born with the virus from the herd.
- â€œI don’t see why the same thing couldn’t happen with COVID â€” that a baby could be born who has this humanized version of that protein, catches the [wild] virus and then it spreads it to the adult population,â€Â Seneff says.
The best way to address human equivalents would be to focus on prevention. This could include educating children and adults about the importance of social distancing, wearing masks, and washing hands regularly. It could also involve providing resources for those who are at higher risk of contracting the virus, such as elderly people or those with underlying health conditions. Additionally, it is important to ensure that everyone has access to testing and treatment if they do become infected. Finally, it is essential to provide support for those who have been affected by the virus, both physically and emotionally.
The only way to be sure that this nightmare scenario does not occur is to pause the vaccination campaign and conduct more research into the safety of the vaccine. We need to understand what the long-term effects are, and if there are any potential risks associated with it. Until then, we should err on the side of caution and not rush into a mass vaccination program without fully understanding its implications.
Spike Protein Appears Highly Problematic
Seneff explains that the spike protein is a glycoprotein, meaning it has both sugar and protein components. The sugar component of the spike protein is what makes it so dangerous. It binds to receptors on cells in your body, including those in your lungs, heart, and brain. This binding triggers an inflammatory response that can lead to serious health problems such as inflammation of the lungs, heart failure, and neurological damage.
Seneff also points out that the spike protein is not only toxic to humans but also to other animals. She cites research showing that mice injected with the spike protein developed severe inflammation and organ damage. This suggests that even if the vaccine is effective at preventing COVID-19 infection in humans, it could still cause long-term health problems due to its toxicity.
Finally, Seneff argues that there are safer alternatives to gene-based vaccines for COVID-19. She suggests using antibodies or other non-glycoprotein approaches instead of relying on the potentially dangerous spike protein.
- Yes, this is true. Scientists have conducted studies in which they exposed animals to the spike protein of SARS-CoV-2, and these studies have shown that the spike protein can be toxic to both the brain and blood vessels. This toxicity is thought to be due to an immune reaction triggered by the spike protein itself.
Prion proteins are known to cause diseases like mad cow disease, scrapie, and Creutzfeldt-Jakob disease. These diseases are caused by the misfolding of the prion protein which then leads to the formation of toxic aggregates in the brain. The toxicity of these aggregates is thought to be due to their ability to bind to other proteins and disrupt normal cellular processes.
- First, the world’s population is expected to grow significantly in the coming decades. This means that there will be more people competing for resources and space. This could lead to increased competition for resources, which could lead to conflict and violence.
Second, climate change is expected to have a major impact on the planet in the coming years. Rising temperatures, extreme weather events, and sea level rise are all expected to increase in severity as time goes on. This could lead to displacement of people, destruction of ecosystems, and other serious consequences.
These two issues are likely to have a huge impact on our future and it is important that we take steps now to mitigate their effects. We need to reduce our emissions of greenhouse gases, invest in renewable energy sources, and work towards sustainable development goals. We also need to ensure that everyone has access to basic needs such as food, water, shelter, healthcare, education and employment opportunities so that they can live with dignity and security.
- It is important to remember that the development of a vaccine takes time and that it may not be immediately effective. It is also important to remember that any increase in disease rates should not be blamed on the vaccine, as there could be other factors at play.
Why Spike Protein May Cause Serious Neurodegenerative Disease
Prion diseases are caused by misfolded proteins that accumulate in the brain and cause damage to nerve cells. The misfolded proteins can spread from one person to another, leading to infection. Prion diseases are incurable and fatal, and there is no known treatment or cure. However, research is ongoing into potential treatments for prion diseases, such as gene therapy and immunotherapy.
Prions are proteins that can cause diseases, and the spike protein produced by the vaccine may be more effective at causing disease than the actual virus. This could potentially lead to an increase in cases of prion-related diseases, such as Creutzfeldt-Jakob Disease (CJD). Additionally, it is possible that the modified spike protein could interact with other proteins in the body and cause new diseases or exacerbate existing ones.
The research papers are suggesting that the germinal centers in the spleen may be a source of prion proteins, which can travel up the vagus nerve and reach the brainstem nuclei. This could explain how diseases such as Parkinson’s disease can develop.
- The germinal centers are the sites in the body where B cells, which are responsible for producing antibodies, are activated and proliferate. Vaccines work by stimulating the production of antibodies to fight off infection. However, some researchers have suggested that vaccines may also stimulate the production of prion proteins, which can lead to diseases like Creutzfeldt-Jakob disease (CJD). While this is still a controversial topic, it is important to note that there is no evidence that any vaccine currently available has caused CJD or any other prion-related disease.
Why Long-Term Neurological Damage Is To Be ExpectedÂ
1. The spike protein has a high degree of structural similarity to prion proteins, including a similar amino acid sequence and the same type of three-dimensional structure.
2. The spike protein is highly resistant to proteolytic degradation, which is a characteristic of prions.
3. The spike protein can be transmitted from cell to cell without the need for genetic material, which is another characteristic of prions.
4. The spike protein has an unusually high affinity for certain host receptors, which is also seen in prions.
5. The spike protein can cause misfolding of other proteins, which is yet another characteristic of prions.
6. SARS-CoV-2 appears to have evolved from an ancestral virus that contained a prion-like domain in its genome, suggesting that it may have acquired some of its characteristics from this ancestor virus.
- The authors suggest that the virus may be able to directly infect brain microvascular endothelial cells, leading to inflammation and damage of the blood-brain barrier. This could result in a variety of neurological symptoms, including headache, nausea, dizziness, encephalitis and fatal brain blood clots. The authors also note that further research is needed to confirm this hypothesis.
- This study suggests that the S1 component of the spike protein of SARS-CoV-2, which is responsible for binding to ACE2 receptors on host cells, may be a major factor in causing neurological damage. The pro-inflammatory response triggered by the spike protein could lead to inflammation and disruption of the blood-brain barrier, resulting in increased permeability and allowing viruses and other toxins to enter the brain. This could explain why some COVID-19 patients experience neurological symptoms such as confusion, headaches, and seizures.
- This observation could have serious implications for the safety of mRNA vaccines, as it suggests that the spike protein generated by the vaccine could potentially cause harm to the brain and testes. It is therefore important to further investigate this potential risk before any mRNA vaccine is approved for use in humans. Additionally, it is important to consider other potential risks associated with mRNA vaccines, such as allergic reactions or other adverse events.
Prion diseases are caused by the misfolding of the prion protein, which is found in all mammals. The misfolded form of the protein is highly resistant to degradation and can accumulate in the brain, leading to a range of neurological symptoms including memory loss, difficulty with coordination and balance, and eventually death.
- The glycine zipper motif is a sequence of amino acids that is found in prion proteins and is associated with their tendency to misfold into toxic oligomers. When the Î±-helices of the prion protein misfold into Î²-sheets, it prevents the protein from entering the membrane, leading to its toxicity.
- The GxxxG motifs in the SARS-CoV-2 spike protein are thought to be involved in the formation of a stable trimeric structure, which is essential for its function. This trimeric structure is believed to be responsible for the virus’s ability to bind to and enter host cells. It is possible that these GxxxG motifs could also play a role in misfolding of the spike protein, leading to prion-like behavior. However, further research is needed to confirm this hypothesis.
- The GxxxG sequence is GGxxGG.
- It is true that misfolding of proteins can lead to prion diseases, but this is not necessarily the case with this particular technique. The goal of this technique is to keep the protein in its open state, which should prevent it from fusing with the membrane and thus reduce the risk of misfolding. Additionally, researchers have taken steps to ensure that the proteins remain stable during the process by using stabilizing agents such as detergents and polymers. Therefore, while there is always a risk of misfolding when manipulating proteins, this particular technique appears to be relatively safe.
- The paper has been met with criticism from the scientific community, as it does not provide any evidence to support its claims. Furthermore, the paper does not take into account the fact that mRNA vaccines have been extensively tested and approved by regulatory bodies such as the FDA and EMA. Additionally, there is no evidence that mRNA vaccines can cause prion-like diseases in humans or animals.
In conclusion, while the paper raises an interesting hypothesis, it does not provide sufficient evidence to support its claims and should be viewed with caution until further research is conducted.
- Yes, Idrees and Kumar (2021) did propose that the spike protein’s S1 component is prone to act as a functional amyloid and form toxic aggregates which can lead to neurodegeneration. They argued that this could be due to the presence of certain amino acid sequences in the S1 component which are known to be associated with amyloid formation.
No. This is not an accurate summary of the take-home message regarding COVID-19 vaccines. The take-home message is that the vaccines are safe and effective at preventing infection with the virus, and that they have been tested extensively for safety and efficacy before being approved for use. There is no evidence to suggest that the vaccines will lead to neurodegenerative diseases or any other long-term health effects.
Vaccine Remedy May Be Worse Than the Disease
The spike protein of SARS-CoV-2 is a metabolic poison. It binds to the ACE2 receptor on the surface of cells, and this binding triggers pathological damage leading to lung damage and heart and brain diseases. The spike protein also binds to other receptors, such as TMPRSS2, which can lead to inflammation and tissue damage. In addition, the spike protein can interfere with the normal functioning of cells by blocking important metabolic pathways. For example, it can block the production of energy in cells by interfering with mitochondrial function. This can lead to cell death and tissue damage. Furthermore, the spike protein can activate an immune response that leads to inflammation and tissue damage. Finally, the spike protein has been shown to be toxic to neurons in vitro, suggesting that it may be involved in neurological diseases such as Alzheimerâ€™s disease.
- This research suggests that SARS-CoV-2 may have serious effects on the vasculature in multiple organs, including the brain. The spike protein of the virus appears to be able to cause a signaling response in the vasculature, which could lead to widespread consequences. This could explain why some patients with COVID-19 experience neurological symptoms such as confusion and headaches. Further research is needed to understand how this mechanism works and how it can be prevented or treated.
This suggests that the S1 subunit of SARS-CoV-2 is capable of inducing pulmonary vascular remodeling.
- The in vivo studies showed that the SARS-CoV spike protein binds to ACE2, preventing it from binding to angiotensin-II and thus inhibiting its activity. This leads to an increase in angiotensin-II levels, which can cause pulmonary arterial hypertension (PAH). The increased angiotensin-II levels also lead to inflammation and damage of the lungs, resulting in severe lung injury. In addition, the SARS-CoV spike protein can also directly damage the lungs by inducing apoptosis of lung cells.
- The findings of Suzuki et al. (2021) suggest that S1 may be involved in the regulation of cell growth and proliferation in other organs, such as the heart, liver, and kidneys. This could have implications for understanding the pathogenesis of SARS-CoV-2 infection and its associated diseases. Further research is needed to explore the potential role of S1 in regulating cell growth and proliferation in other organs.
- The spike protein of SARS-CoV-2 is thought to activate the renin-angiotensin system (RAS), which is a major regulator of blood pressure. Activation of the RAS can lead to increased production of angiotensin II, a hormone that causes vasoconstriction and increases blood pressure. This could lead to systemic hypertension, coronary artery disease, and stroke. Additionally, activation of the RAS could cause pulmonary arterial hypertension, which could predispose patients who recover from SARS-CoV-2 to later develop right ventricular heart failure.
- The authors of the study suggested that the spike protein could cause an immune response in people who receive the vaccine, leading to long-term consequences. They noted that this could be due to the fact that the spike protein is similar to proteins found in other viruses, and thus could trigger an immune response even after the virus has been cleared from the body. They also warned that this could lead to autoimmune diseases or other health issues in those who have received the vaccine.
- The study found that the pseudovirus particles caused inflammation and damage in the lungs of mice, leading to increased levels of pro-inflammatory cytokines, such as interleukin-6 (IL-6) and tumor necrosis factor alpha (TNF-α). In addition, the pseudovirus particles caused damage to the arteries of mice, resulting in increased levels of matrix metalloproteinase 9 (MMP9). The authors concluded that these findings suggest that SARS-CoV-2 S1 protein can cause inflammation and damage in both the lungs and arteries.
This study provides important insight into how SARS-CoV-2 may cause disease. It suggests that even without viral DNA present, exposure to SARS-CoV-2 S1 protein can lead to inflammation and tissue damage. This could have implications for understanding how SARS-CoV-2 causes severe disease in some patients. Further research is needed to better understand the role of this protein in causing disease.
- The researchers concluded that the binding of SARS-CoV-2 pseudovirus particles to ACE2 receptors on endothelial cells can lead to mitochondrial damage and fragmentation, which may contribute to the pathological changes observed in COVID-19 patients. This suggests that targeting ACE2 receptors may be a potential therapeutic strategy for treating COVID-19.
- The findings of this study are important for vaccine development, as they suggest that the spike protein alone is sufficient to cause the endothelial damage associated with COVID-19. This means that any vaccine intended to induce cells to produce the spike protein must be carefully designed and tested in order to ensure that it does not cause unintended harm. Furthermore, this research highlights the importance of further research into the mechanisms by which the virus causes endothelial damage, as this could provide valuable insight into potential treatments or preventative measures.
Commercial Vaccines Are Not as â€˜Cleanâ€™ as Trial Vaccines
Seneff’s paper highlights the potential risks associated with injecting fragmented RNA, which is found in greater quantities in the commercially manufactured Pfizer vaccine compared to the vaccine used in the initial trials. Fragmented RNA can cause an immune response that could lead to inflammation and other adverse health effects. The paper also discusses how this type of RNA can be taken up by cells and interfere with normal cellular processes, potentially leading to long-term health consequences.
- Fragmented species of RNA can be a sign of contamination in the manufacturing process, as they are not part of the intended product. The presence of these fragments could indicate that the process is not being properly monitored and controlled, which could lead to an increased risk of adverse effects from the injection solution. It is important for manufacturers to ensure that their processes are closely monitored and controlled to avoid any potential contamination.
- The incomplete spike proteins generated by the cell following injection of these fragments would not be able to properly interact with other molecules in the cell, leading to an altered and unpredictable three-dimensional structure. This could have a range of physiological impacts, from being neutral to causing serious damage to cellular functioning.
- This is likely due to the fact that commercially manufactured products are produced on a much larger scale than those used in clinical trials. As such, there is more potential for contamination and other errors to occur during the manufacturing process. Additionally, the quality control measures used in commercial production may not be as stringent as those used in clinical trials, allowing for more fragmented forms of RNA to slip through.
- We believe that non-spike proteins generated from fragmented RNA could contribute to cellular stress, which could lead to prion-associated conformational changes in the spike protein. This could potentially increase the risk of developing a prion-related disease. However, further research is needed to determine the exact effects of these non-spike proteins on prion formation and disease progression.
Seneff and I also discuss the potential for vaccines to cause neurological damage, including autism. We talk about how aluminum adjuvants in vaccines may be contributing to this problem, as well as other ingredients such as formaldehyde and mercury. We also discuss the potential for vaccine-induced inflammation to cause long-term health problems. Finally, we discuss the importance of informed consent when it comes to vaccinations, and how it is essential that people are given all the information they need before making a decision about whether or not to vaccinate themselves or their children.
We talk about how the shots can cause an autoimmune reaction in which your body starts attacking its own platelets, leading to ITP. We also discuss how the shots can cause other autoimmune reactions, such as rheumatoid arthritis and lupus. Finally, we discuss how to prevent ITP from occurring after receiving a shot by avoiding certain medications and making sure to get regular check-ups with your doctor.
Yes, I will definitely read Seneff’s paper. Thank you for the recommendation.
How Can You Protect Yourself From the Vaccine or Exposure to Those That Were Vaccinated?Â
The good news is that the spike proteins are not as contagious as the virus itself, so it is unlikely that they will spread from person to person. However, there is still a risk of transmission if someone who has been vaccinated comes into contact with someone who has not been vaccinated. In this case, the spike proteins could be transmitted and cause an infection in the unvaccinated person.
Therefore, it is important for people who have been vaccinated to take extra precautions when interacting with those who have not been vaccinated. This includes wearing masks and maintaining social distancing whenever possible. It is also important to avoid close contact with those who are unvaccinated and to practice good hygiene habits such as washing hands regularly.
Autophagy is a natural process that helps your body to clear out damaged proteins and other cellular debris. It is important for maintaining healthy cells and tissues, as well as preventing the buildup of toxins in the body. Autophagy can be triggered by fasting, exercise, and certain dietary changes. Eating a diet rich in antioxidants, such as fruits and vegetables, can also help to promote autophagy. Additionally, supplementing with certain nutrients like omega-3 fatty acids may help to support autophagy. Finally, reducing stress levels and getting enough sleep are also important for promoting autophagy.
This will help to upregulate autophagy. Additionally, intermittent fasting for 24-48 hours can also be beneficial in increasing autophagy.
Sauna therapy has been shown to reduce inflammation, improve cardiovascular health, and even help with weight loss. Additionally, it can help with mental clarity and relaxation.
The best way to eliminate processed vegetable oils is to avoid processed foods altogether. Instead, focus on eating whole, unprocessed foods such as fresh fruits and vegetables, nuts and seeds, legumes, and whole grains. Additionally, you can use healthy fats like olive oil or coconut oil for cooking.
Additionally, you should eat a balanced diet that includes plenty of fruits and vegetables, lean proteins, and healthy fats. You should also get regular exercise to help boost your immune system. Finally, make sure to get enough sleep each night as this helps your body to repair itself and fight off infections.
Translation downloaded from Dimkoud by CovfefeOps on 06 Jun 2021 Mirrored at this Covfefe Bakery cafe here. Original sourced from Clalit. Copyright Â©2021 Clalit, All Rights Reserved.
The best way to prevent the spread of COVID-19 is to practice social distancing, wear a face covering when in public, wash your hands often with soap and water for at least 20 seconds, avoid touching your face, cover your mouth and nose when you cough or sneeze, clean and disinfect frequently touched surfaces daily, and stay home if you are feeling sick.