Health

COVID vaccines and neurodegenerative diseases


Stephanie Seneff, a senior research scientist at the Massachusetts Institute of Technology (MIT), is speaking out about the risks of the COVID-19 shot, including their link to neurodegenerative diseases and syndromes. vaccine-acquired immunodeficiency syndrome (VAIDS).

Seneff is perhaps best known for his work on the chemical glyphosate. She determined that the increase in glyphosate use in the United States, as well as in Canada, was very strongly correlated with the simultaneous increase in the incidence of multiple diseases, including breast cancer, pancreatic cancer, and cancer. kidney cancer, thyroid cancer, liver cancer, bladder cancer and myeloid leukemia.first

She also believes that exposure to glyphosate can make COVID-19 outcomes worse for many people and can also lead to more severe reactions after a COVID-19 scan, but as the pandemic progresses, development, she has been involved in the study of messenger RNA (mRNA) photographs.

“It’s a very novel technology that has never been used before and I feel really nervous about it,” Seneff told Zeee Media.2 “That level of sophistication in the technology usually takes 12 years to market, and typically only 2% of the products tested will actually make it to market.”

This led Seneff, who holds a BS in biophysics, MS and EE degrees in electrical engineering, and a Ph. in electrical engineering and computer science, to dig deeper into mRNA pictures.

Problems with mRNA technology

COVID-19 mRNA shots teach your cells to produce a protein, or protein fragment, that triggers an immune response, including antibody production.3 However, because natural mRNA is easily disrupted, this means that the experimental gene therapy needs a special delivery system to get it to the body’s cells.

Photographs using lipid nanoparticles containing polyethylene glycol (PEG)4 for this purpose. The mRNA is wrapped in lipid nanoparticles (LNPs) that carry it to your cells, and the LNPs are “PEGylated” – that is, chemically attached to PEG molecules for increased stability.5

Normally, if you inject RNA into your body, enzymes break it down right away, but the COVID-19 shots are specifically designed so that doesn’t happen. Instead, RNA is not broken down and begins to produce proteins quickly and efficiently. Seneff says:6

“They also basically redesigned the RNA itself, first of all to make it look more like human RNA than a virus, so the cell doesn’t realize it’s been compromised, because it looks like like a human molecule… So they did all these things – everything they could think of – to make sure it’s strong, it’s clingy, it doesn’t break down, and it keeps making protein. “

In fact, Seneff says that recent studies show that the spike in mRNA and protein persists in the lymph nodes of people who were injected with COVID-19 at least 60 days later — something Seneff said not only really shocking but also completely unusual.7

Another important point is that, by injecting the mRNA, it overcomes the barriers faced by the virus after natural exposure. The virus is inhaled and travels through your nose into your lungs.

“If you have a strong immune system, it stays in your lungs, it doesn’t get out,” says Seneff. However, once it enters your tissues and blood, it can cause systemic problems, which can occur in severe natural infections as well as after a COVID-19 injection.

Spike Protein is a neurotoxin, even without the virus

The Spike protein is found naturally in SARS-CoV-2 and is also made in your body when you inject COVID-19. In its native form in SARS-CoV-2, the mutated protein is responsible for viral infections.

It was also revealed that the spike protein itself is sufficient to cause inflammation and damage to the vascular system, even independent of the virus.8 It’s also neurotoxic, and spike proteins can circulate in your body after infection or injection, causing cell, tissue, and organ damage, according to Seneff.

For example, Pfizer’s biodistribution study, which is used to locate substances injected into the body, shows that the COVID spike protein from the injections accumulates at “fairly high concentrations” in the body. ovary.9

Furthermore, a Japanese biodistribution study for Pfizer jab found that vaccine particles move from the injection site to the bloodstream, after which the circulating mutant proteins freely travel throughout the body, including ovaries, liver, nerve tissues and other organs.ten

Evidence that kicks can affect the brain

Seneff believes we can learn lessons from Parkinson’s about how spike proteins from COVID-19 shots can lead to prion-like disease, in part due to the similarity between α-synuclein – the main protein found in Lewy bodies deposited in the brains of people with Parkinson’s disease – and the protein spikes.

Writing in the International Journal of Vaccine Theory, Practice, and Research, Seneff and Greg Nigh, natural cancer research fellow at Immersion Health in Oregon, explain the relevance of the amino acid sequence involved. to the prion-protein in the mutant protein:11

“There are many similarities between α-synuclein and the mutant protein, suggesting a potential for prion-like disease after vaccination. We demonstrated that vaccine mRNA ends up in high concentrations in the liver and spleen, two organs well connected to the vagus nerve.

The cationic lipids in vaccines create an acidic pH conducive to misplacement, and they also induce a strong inflammatory response, another predisposing condition. Germ centers are structures within the spleen and other secondary lymphoid organs where dendritic cells express antigens to B cells, thereby completing their antibody response.

The researchers showed that the mRNA vaccine, in contrast to the recombinant protein vaccine, induces the growth of neutralizing antibodies at germinal centers in the spleen. However, this also means that the mRNA vaccine creates an ideal situation for the formation of a prion from the mutant protein, and its transport via exosomes along the vagus nerve to the brain. ”

The genetic modifications introduced by COVID-19 shots can cause immune cells to release large amounts of exsomes into the circulation. Exosomes are extracellular vesicles containing proteins, DNA, RNA, and other components, and may contain mRNA along with spike proteins. According to Seneff et al:twelfth

“[W]e presents evidence that vaccination, unlike natural infection, induces severe attenuation in type I interferon signaling, with diverse adverse consequences on human health.

We explain the mechanism by which immune cells release into the circulation large amounts of exomes containing mutated protein together with important microRNAs that induce signaling responses in recipient cells at distal sites.

We also identify potentially profound perturbations in the control of protein synthesis regulation and cancer surveillance. These disorders have been shown to have a potential direct causal link to neurodegenerative disease, myocarditis, immune thrombocytopenia, Bell’s palsy, liver disease, impaired adaptive immunity. , increased tumorigenesis and DNA damage. ”

Moulting can also occur through Exosomes

Seneff also discussed the possibility that people who have received the COVID-19 vaccine could drop vaccine particles to those around them, potentially resulting in illness or symptoms from the injection.

In fact, Pfizer studies have suggested that secondary exposure to vaccines may occur, using examples of exposure by inhalation or skin contact, as well as “inhalation exposure.” school during pregnancy”.

An example given would include: “A male family member or healthcare provider was exposed to a research intervention by inhalation or skin contact followed by contact with you his female partner before or around the time of conception.”13 While this may seem hard to believe, Seneff says there’s a plausible explanation for how COVID-19 shots can lead to dropouts:14

“[T]this is a plausible process that could occur through the release of exosomes from dendritic cells in the spleen containing misfolded spiny proteins, which are complex with other prion remodeling proteins.

These exomes can travel to distant places. It is impossible to imagine that they are being discharged from the lungs and inhaled by someone nearby. Extracellular vesicles, including exosomes, have been detected in sputum, mucus, epithelial mucosal fluid, and bronchoalveolar lavage fluid that have been implicated in respiratory diseases.

Furthermore, experimental and observational evidence suggests that the human immune response to COVID-19 shots is very different from the response induced by exposure to SARS-CoV-2 and vaccinated individuals. COVID-19 can compromise their innate immune system. system leads to a form of VAIDS, due to impaired interferon signaling.15

“Without a response to type I interferon, T cells don’t build the way they should after an infection or in response to cancer, so they can’t control the infection because they’re not being treated. manufacturing. Their production triggered by the type I interferon reaction does not occur,” Seneff said.16

Simple methods to detox

Seneff and colleagues are calling for comprehensive research and surveillance to monitor adverse events associated with mRNA injection as well as to monitor biological effects through assays such as D-dimer, fibrinogen and C-reactive protein.

“Studies comparing mRNA-vaccinated populations and those not confirming the expected reductions in infection rates and milder symptoms in the vaccinated group, and comparing rates of different autoimmune and prion diseases in the same group. “Studies to assess whether an unvaccinated person can obtain vaccine-specific mutated forms of the vaccine from an unvaccinated person,” she also writes. vaccinated nearby or not.”17

Fortunately, there are ways to help detox your body from COVID-19 shots. Most importantly, Seneff recommends eating a diet of certified organic whole foods, to avoid glyphosate and other chemicals in foods. Also, focus on a nutrient-dense diet that focuses on sulfur-rich foods like onions, garlic, and cruciferous vegetables, as well as organic eggs, grass-fed beef, and seafood. , with many colorful fruits and vegetables.

Additionally, Seneff recommends regular exposure to sunlight for your skin and eyes, which helps produce vitamin D as well as sulfates. An international team of doctors and holistic practitioners experienced in helping people recover from COVID-19 and post-injection illness has compiled natural options to help reduce the body’s spike in protein load. your body. The following are mutant protein inhibitors, which means they inhibit the binding of the mutant protein to human cells:18

Prunella vulgaris

Pine leaves

Emodin

Neem

Dandelion Leaf Extract

Ivermectin

They also compiled a list of substances that neutralize the spike protein, making it impossible for it to cause further damage to cells. This includes:

N-acetylcysteine ​​(NAC)

Glutathione

Dill tea

Anise tea

Needle flower tea

St. John’s Wort

Bell flower leaves

Vitamin C

Many natural IL-6 inhibitors, or anti-inflammatory drugs, exist and may also be helpful for people looking to detox with injections of COVID-19 or COVID-19:19

Boswellia serrata (frankincense)

Dandelion Leaf Extract

Black cumin (Nigella sativa)

Curcumin

Krill oil and other fatty acids

Cinnamon

Fisetin

Apigenin

Quercetin

Resveratrol

Luteolin

Vitamin D3 (with vitamin K)

Zinc

Magnesium

Jasmine tea

Spice

Fly leaves

Black pepper

Nutmeg

Sage





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