Blog: COVID & mRNA Vaccine News

14/Oct/22
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A researcher from the Massachusetts Institute of Technology (MIT) has warned that the SARS-CoV-2 spoke protein used in the mRNA Wuhan coronavirus (COVID-19) vaccines could induce brain diseases.

In a pre-print study published Aug. 16 in the journal Diseases, Dr. Stephanie Seneff and her colleagues wrote that the SARS-CoV-2 spike protein acts like a prion. This protein can transmit its misfolded shape onto normal prions, causing neurodegenerative diseases that wreak havoc in the human brain.

She cited “compelling evidence” showing that the SARS-CoV-2 spike protein contains amino acid sequences previously established as prion-like proteins. These proteins responsible for neurodegenerative issues are then produced by the body in the same manner as the proteins responsible for COVID-19.

Seneff and her co-authors added that while tracing the various pathways through which the proteins were expected to travel and distribute throughout the body, they found some highly concerning biological consequences that would be expected to occur with increased frequency as a consequence. Specifically, the contribution of spike proteins to neuroinflammation and neurodegenerative diseases as well as clotting disorders and suppressed prion protein regulation in the context of insulin resistance and health complications that it could induce.

The study authors briefly touched on the hypothesis of the late Nobel Prize laureate Dr. Luc Montagnier on the inserts of the Human Immunodeficiency Virus (HIV) in the SARS-CoV-2 genome, arguing that the virus was most likely engineered as bioweapons. (Related: Vaccinated people found to be 600% more likely to die from covid “variants” than unvaccinated people.)
While the spike proteins from the natural COVID infection do pose risks, those risks are nowhere near the damage that can be potentially inflicted on a person’s body by the spike proteins from mRNA vaccines.

In a separate study, the researchers also found that there are incidents of thromboembolic events and hemorrhagic stroke cases that could occur within 28 days after getting the BNT162b2 or CoronaVac jabs.

Because of this, Seneff urged parents not to vaccinate their children with mRNA shots due to the wide spectrum of harm that they can inflict on the body.

Seneff previously warned of COVID-19 vaccine dangers
This is not the first time Seneff has tried to warn people about the dangerous effects of the COVID-19 vaccines. In 2021, she wrote a paper discussing the safety concerns surrounding the vaccines, especially considering the rapid speed at which they came from controlled trials to mass deployment.

She reviewed the components and the intended biological response to the vaccines, including the production of the spike protein itself, and their potential relationship to a wide range of acute and long-term induced pathologies that include blood disorders, neurodegenerative diseases and autoimmune diseases.

Some of the potential induced pathologies she listed back then discussed the relevance of prion-protein-related amino acid sequences with the spike protein, urging health authorities to clarify the long-term effects of the vaccines to better assess their risks and benefits, especially as they are using novel technologies.

Seneff also called the government’s rushed actions to vaccinate people “perverse” for “getting Pharma to produce expensive drugs, untested, and then throwing them out to the public with the false promise that they’re safe, when they’re not.”
She insisted even then that it was wrong of public health officials to impede on the ability of doctors to use safe and established natural methods by repurposing drugs to treat COVID and alleviate symptoms early on.

“It is morally reprehensible what the government is doing. They should have been promoting safe methods as they discovered them and instead, they just blocked everything,” she said. (Villareal, 2022).

Citation
(Villareal, 2022). Natural News: New study: mRNA COVID-19 vaccines can cause brain diseases. Retrieved online on 10/14/22 from https://www.naturalnews.com/2022-10-13-mrna-covid-vaccines-could-induce-brain-diseases.html

(Seneff, 2022). Research Gate: SARS-CoV-2 Spike Protein in the Pathogenesis of Prion-like Diseases. Retrieved online on 10/14/22 from https://www.researchgate.net/publication/362748984_SARS_CoV2_Spike_Protein_in_the_Pathogenesis_of_Prion-like_Diseases#pf11


11/Oct/22
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Study links COVID “Vaccines” to Parkinson’s Disease

Do Wuhan coronavirus (COVID-19) “vaccine” spike proteins accumulate in the brain and trigger dementia? The latest research suggests so.

Canadian scientific and regulatory consultant Peter Oldfield, along with several others, published a paper in the journal Vaccines drawing attention to the dire implications of Fauci Flu shot spike proteins on brain function, which include an increased risk of Parkinson’s disease.

“This mini-review focuses on the mechanisms of how SARS-CoV-2 affects the brain, with an emphasis on the role of the spike protein in patients with neurological symptoms,” the study reads.

“Following infection, patients with a history of neurological complications may be at a higher risk of developing long-term neurological conditions associated with the alpha-synuclein prion, such as Parkinson’s disease and Lewy body dementia.”

But wait, they are just talking about the COVID “virus” itself, right? Not exactly. The study goes on to reveal “compelling evidence” that spike proteins “generated from the vaccines” are dangerous because they have the ability “cause inflammation and/or blood clots in the brain.”

“Consequently, should vaccine-induced expression of spike proteins not be limited to the site of injection and draining lymph nodes there is the potential of long-term implications following inoculation [vaccination] that may be identical to neurological complications seen in patients who were infected with SARS-CoV-2,” the study further states.

Covid injections destroy the brain
It is important to emphasize the fact that it has been fully established, despite government claims to the contrary, that spike proteins and other vial contents do not remain localized in the arm.

Post-injection, these deadly chemicals spread throughout the body and accumulate in various places. Depending on the spike protein load and where it embeds itself, the outcome can look like brain degeneration, organ damage, loss of motor skills, and more.

In the case of Parkinson’s or Lewy body dementia, these two conditions are demarcated by misfolded alpha-synuclein proteins in the brain. Together, these two diseases are the second most common cause of neurodegenerative dementia, surpassed only by Alzheimer’s disease.

“… many of the serious neurological symptoms associated with COVID-19 are due to hypoxia, cytokine storms, and blood clots, all of which contribute to damaging neurons in the brain,” Oldfield’s study further reveals.

“Some of the symptoms of brain injury include loss of smell and taste (anosmia), severe headaches, debilitating fatigue, trouble thinking clearly (brain fog), seizures, strokes, and various degrees of paralysis.”

We also now know that spike proteins can enter the brain through different pathways, including through the vasculature or directly through the blood-brain barrier.

This is not the first study to identify a connection between COVID injections and Parkinson’s by the way. We reported on another study from former National Institutes of Health (NIH) contract scientist and Classen Immunotherapies proprietor J. Bart Classen, which came to similar conclusions about the risk of brain damage due to spike protein exposure.

There was also a mouse study, which found that spike (S1) proteins tagged with iodine (I-S1) are able to cross the blood-brain barrier with relative ease. In that paper, it was shown that more than 50 percent of I-S1 proteins easily crossed the capillary wall and entered into the brain and interstitial fluid spaces within 30 minutes following injection.

“It happened to my mother after the second shot,” wrote a commenter, validating these findings with a personal anecdote. “A formerly strong, vibrant woman became almost a vegetable. She died two months later.”

“We are in the middle of a great experiment – not just physical but also social,” added another.

“The government and Big Pharma wanted to see how easily they could coerce people into getting jabbed with mysterious chemicals under the threat of job loss, social isolation, and loss of medical care. (Huff, 2022).

 

Research Paper:
How Does Severe Acute Respiratory Syndrome-Coronavirus-2 Affect the Brain and Its Implications for the Vaccines Currently in Use

Abstract
This mini-review focuses on the mechanisms of how severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) affects the brain, with an emphasis on the role of the spike protein in patients with neurological symptoms. Following infection, patients with a history of neurological complications may be at a higher risk of developing long-term neurological conditions associated with the α-synuclein prion, such as Parkinson’s disease and Lewy body dementia. Compelling evidence has been published to indicate that the spike protein, which is derived from SARS-CoV-2 and generated from the vaccines currently being employed, is not only able to cross the blood–brain barrier but may cause inflammation and/or blood clots in the brain. Consequently, should vaccine-induced expression of spike proteins not be limited to the site of injection and draining lymph nodes there is the potential of long-term implications following inoculation that may be identical to that of patients exhibiting neurological complications after being infected with SARS-CoV-2.

Keywords: severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2), novel coronavirus disease that emerged in 2019 (COVID-19), cytokines, spike protein, blood–brain barrier (BBB), angiotensin-converting enzyme 2 (ACE2), Parkinson’s disease, Lewy body dementia, good laboratory practice.

1. Introduction
Severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) is the causative agent of the novel coronavirus disease that emerged in 2019 (COVID-19). It prompted the declaration of a global pandemic that has persisted for more than a year. According to the website “Worldometer” (https://www.worldometers.info/coronavirus/ accessed on 14 December 2021), there were 271.7 million cases, 5.3 million deaths, and 244.3 million recoveries from COVID-19. COVID-19 is primarily being considered a respiratory disease. However, unlike the common flu, other organs, including the brain, are also severely affected in some patients [1]. Evidence shows that SARS-CoV-2 has the ability to affect the brain directly, with a new set of symptoms: loss of smell and taste, severe headaches, debilitating fatigue, trouble thinking clearly (brain fog), seizures, strokes, and various degrees of paralysis [2]. Numerous reliable studies have already been published on this topic and are referenced in this article. Results from preclinical studies and several revealing patient case histories will be used to explain the mechanisms involved.

2. Lessons Learnt from Similar Coronaviruses
The first coronavirus to affect humans was the common cold in 1965. Since then, there was the SARS-CoV (the virus that causes SARS) outbreak in 2002, followed by the Middle East respiratory syndrome (MERS)-CoV (the virus that causes MERS) outbreak ten years later (Figure 1). At the time, these outbreaks caused worldwide concern with case fatality rates of 9.5% and 34.4%, respectively [3]. Although the case fatality rates for SARS and MERS were higher than that for COVID-19, which is 2.3% [3], outbreaks of the former two infectious agents were contained (Table 1). So, what do these previous infections have in common with the SARS-CoV-2 virus?

Timeline of coronaviruses and spike protein receptor targets.

Table 1
Characteristics of severe acute respiratory syndrome-coronavirus (SARS-CoV), Middle East respiratory syndrome-coronavirus (MERS-CoV), and SARS-CoV-2.

Coronavirus Host Cell Target Receptor [3] Clinical Symptoms Death Rate (%) [3]
SARS-CoV Angiotensin-converting enzyme 2 (ACE2) Fever, Tiredness, Chills, Muscle aches, Dry cough, Difficulty breathing, Headaches, Sore throat, Diarrhea [4] 9.5
MERS-CoV Dipeptidyl peptidase 4 Fever, Cough, Shortness of breath [5] 34.4
SARS-CoV-2 ACE2 Fever, Dry cough, Chills, Difficulty breathing, Tiredness, Body aches, Headaches, Loss of taste or smell, Sore throat,
Diarrhea [6,7]
2.3

MERS-CoV binds to the dipeptidyl peptidase 4 receptor (also known as CD26). What made MERS so deadly was the fact that the receptor to which the virus bound was involved in modulating the host’s immune system. T-cells were inhibited from binding to the CD26 receptor, resulting in a delayed adaptive immune response. While MERS-CoV bound to the CD26 receptors on macrophages, which forced the body to maintain its innate immune response, this resulted in the patient having a fever, initiation of a severe inflammatory reaction, and death of cells in the immune system that expressed CD26, thus making the condition worse [8,9] and giving rise to a poor prognosis (Table 1).

Both SARS-CoV and SARS-CoV-2 target the same receptor, angiotensin-converting enzyme 2 (ACE2), on host cells, and this is probably the reason why the clinical symptoms are similar (Table 1). With SARS and, to a lesser extent, with COVID-19, patients can feel well one moment and then, over a short period of time, develop breathing problems requiring oxygen and hospitalization. To gain insight into what might be happening in these patients, one needs to consider the role of the angiotensin-rennin system that regulates blood pressure and fluid balance. When the spike protein of SARS-CoV-2 binds the ACE2 receptor, the body control mechanism for blood pressure and fluid balance is disrupted, causing a buildup of fluid in the lungs and leading to pneumonia and respiratory failure [10]. This exemplifies not only the virus causing the body to work against itself but the difficulty facing physicians when it comes to effective treatment. The angiotensin-rennin system doesn’t have redundancy. Therefore, once this the system becomes dysregulated, the accumulation of fluid in the lungs is inevitable [10]. This being the case, it can be anticipated that such patients can experience rapid declines in respiratory function, with difficulty breathing resulting in low oxygen saturation, permanent lung damage, and possibly other organ damage due to hypoxia, made even worse by mechanical ventilation [11]. Long-term effects of SARS-CoV and MERS-CoV are known to be associated with respiratory impairment due to permanent lung damage and psychological issues such as depression directly affecting a person’s daily life years following recovery from the initial infection. A proportion of these patients are unable to return to full-time employment [12,13]. Since SARS-CoV-2 targets the same receptor as SARS-CoV, a follow-up of seriously ill hospitalized patients is recommended.

Therefore, it can be concluded that the spike protein of the virus plays a key role in the pathogenesis of these diseases. These examples also illustrate the need to determine the molecular basis of disease to facilitate effective treatments.

3. SARS-CoV-2 and Neurological Symptoms
Although rare, many of the serious neurological symptoms associated with COVID-19 are due to hypoxia, cytokine storms, and blood clots, all of which contribute to damaging neurons in the brain. Loss of smell and taste (anosmia), severe headaches, debilitating fatigue, trouble thinking clearly (brain fog), seizures, strokes, and various degrees of paralysis are some of these symptoms [2].
Often, one of the first symptoms of COVID-19 is the loss of smell and taste. With the olfactory nerve anatomically close to the brain, this nerve pathway would be the ideal means for SARS-CoV-2 to enter the brain in the early stages of the disease [14]. However, it remains unclear as to whether SARS-CoV-2 can spread into the brain via this route. It has been reported that the sustentacular and stem cells in the olfactory epithelium express ACE2 and are vulnerable to being infected by SARS-CoV-2. Conversely, the olfactory sensory neurons do not express ACE2, suggesting SARS-CoV-2 cannot gain access to the brain [15,16] (not yet peer reviewed). It was, therefore, concluded that damage to the olfactory epithelium underlies clinical anosmia, rather than neuronal injury.

Nonetheless, there is an alternative route by which SARS-CoV-2 can enter the brain as the disease progresses [14]. The spike proteins of SARS-CoV-2 bind to the ACE2 receptors expressed by the endothelial cells of the brain’s vasculature, facilitating entry into these cells, enabled by the enzyme transmembrane protease serine 2. The viral damage to the endothelial cells initiates an inflammatory reaction that is essentially a cytokine storm, activating neutrophils and macrophages in the blood as well as microglia and astrocytes in the brain. Endothelial damage and the direct activation of platelets by SARS-CoV-2 via spike protein/ACE2 interactions [17] can also promote the formation of micro-thrombi, which in turn can develop into blood clots. Thus, with this destabilization of the blood–brain barrier (BBB) caused by the cytokines in conjunction with the chemokine monocyte chemoattractant protein 1, SARS-CoV-2 can then freely pass through the BBB.

Once in the brain, the virus would then have the opportunity to replicate. SARS-CoV-2 has the ability to replicate using the neuron cell machinery as demonstrated using human brain cell organoids [18]. In addition, brain biopsies from patients that had been diagnosed with COVID-19 showed that SARS-CoV-2 was able to target and replicate in the neurons themselves [18]. However, it became apparent that neuroinflammation resulting in a cytokine storm was a major factor resulting in the activation of microglia. This causes an increase in kynurenine, quinolinic acid, and glutamate and a corresponding depletion of the neurotransmitters serotonin, dopamine, and norepinephrine, which is responsible for the neuropsychiatric symptoms associated with COVID-19 and neuron damage [14].

4. COVID-19 and a Possible Connection with Parkinson’s Disease
Based upon other viral infections affecting the brain, it has been suggested that SARS-CoV-2 infection of the central nervous system may lead to long-term neurological consequences for some patients [19]. A pre-print entitled “SARS-CoV-2 causes brain inflammation and induces Lewy body formation in macaques” [20] (not yet peer reviewed) emphasizes this concern. In this study, the treatment group, four male rhesus and four male cynomolgus monkeys, were experimentally infected with SARS-CoV-2. The control group was comprised of two male rhesus and two male cynomolgus monkeys. The monkeys experienced asymptomatic infections and were euthanized between five to six weeks post-infection, and their brain tissues were stained for Lewy bodies by immunohistochemistry. Formation of intracellular Lewy bodies was observed in the midbrain region of the caudate nucleus of all eight of the infected monkeys, while Lewy bodies were absent in the brains of all monkeys in the control group. These results provided compelling evidence that SARS-CoV-2 has the ability to initiate α-synuclein misfolding and is, therefore, responsible for Lewy body formation in SARS-CoV-2-infected monkeys.

Should the same misfolding of α-synuclein (i.e, α-synuclein prion), its aggregation, and the formation of Lewy bodies occur in the brains of patients who had previously recovered from SARS-CoV-2, this could potentially lead to neurodegenerative diseases, such as Parkinson’s disease and Lewy body dementia, years, if not decades, later. It is, therefore, essential to provide follow-up for patients diagnosed with COVID-19 who exhibit neurological complications post-infection [21].

5. Pathology Attributed to the SARS-CoV-2 Spike Protein
The vaccines that have currently received authorization to reduce the severity of COVID-19 employ either mRNA or DNA to transfect human cells to produce the spike protein of SARS-CoV-2, which then becomes the antigen to be targeted by the body’s immune system.

An indication that the spike protein has the potential to cross the BBB was evident from an in vitro study [22] suggesting that purified spike proteins from SARS-CoV-2 can initiate the pro-inflammatory response in endothelial cells in the brain, thereby destabilizing the BBB. Secondly, an in vivo study in mice demonstrated that the S1 subunit of the spike protein readily crossed the BBB, entering the brain parenchyma, after the iodinated S1 subunit was administered intravenously to male mice [23]. Connecting these phenomena to the vaccine administration site, which is the deltoid muscle, was the observation that the spike protein S1 subunit was detectable in the systemic circulation up to approximately two weeks post-immunization in eleven out of thirteen healthcare workers [24]. Although concentrations of the S1 subunit were low, this study provides proof-of-principle that spike proteins or components thereof can get into circulation following inoculation. Considering the relatively low incidence of severe adverse events caused by COVID-19 vaccines, if circulating spike proteins were drivers of any side effects the sample size of this study was far too small to identify potentially rare individuals with relatively high concentrations of circulating spike proteins. Further, it is possible that spike proteins were already bound to ACE2 receptors on endothelial cells.

It was demonstrated that the spike protein S1 subunit alone is responsible for initiating pro-inflammatory responses via Toll-like receptor 4-mediated signaling [25]. In addition, the spike protein alone, when bound to ACE2 on the surface of platelets, can regulate platelet function, which in turn results in blood clot formation [17]. Thus, it is evident that the spike protein on its own can recapitulate key aspects of the pathogenesis observed following infection with SARS-CoV-2.

6. What Are the Implications for the COVID-19 Vaccines Currently Being Used?
During the pandemic, vaccine manufacturers focused mainly on assessing the efficacy of their products [26,27,28]. However, following experience with other coronaviruses as mentioned earlier, it was already known that the spike proteins are largely responsible for the observed pathology. Therefore, a theoretical scenario exists where a certain proportion of people receiving the COVID-19 vaccine, likely from among those with neurological side effects (e.g., severe headaches), may exhibit neurological symptoms of synucleinopathies diagnosed as Parkinson’s disease and/or Lewy body dementia up to two to three decades post-immunization. In the U.S. Food and Drug Administration’s (FDA) briefing document, Pfizer stated the following with respect to their COVID-19 vaccine: “Following authorization of the vaccine, use in large numbers of individuals may reveal additional, potentially less frequent, and/or more serious adverse events not detected in the trial safety population of nearly 44,000 participants over the period of follow-up at this time. Active and passive safety surveillance will continue during the pos- authorization period to detect new safety signals” [26]. The other manufacturers made similar statements. Obviously, the pharmaceutical industry has taken it upon itself to initiate active and passive safety surveillance during this post-authorization period. On 23 August 2021, BioNTech Manufacturing GmbH (in partnership with Pfizer Inc., New York, NY, USA) received US FDA’s Biologics License Application authorization (STN: BL 125742/0) for their COVID-19 mRNA vaccine BNT162b2, now marketed as “COMIRNATY” [29].

7. Discussion
Few would have thought, when the COVID-19 pandemic was declared in early 2020 and labeled as a respiratory illness, that discussion would progress to the question of serious neurological consequences. We have already recognized the need to closely monitor and screen for α-synuclein prions in patients who have experienced neurological complications, but what about people who have been vaccinated? Over this past year, there have been several publications indicating that the neurological side effects of the COVID-19 vaccines are extremely rare. This is true for the more serious adverse events as stated by the authors, considering the number of actual doses administered [30,31,32,33]. However, that does not detract from the fact that these individuals need to be followed up. In addition, it is worth noting that according to the label [34] of the recently FDA-approved COVID-19 vaccine “COMIRNATY”, submitted by BioNTech Manufacturing GmbH (in partnership with Pfizer Inc.), the occurrence of acute neurological symptoms (i.e., fatigue and/or headaches), although not considered to be serious, were high, especially in the younger age group (16 through to 55 years of age). Such neurological symptoms, especially if prolonged, could well be indicative of inflammation, which can act as the trigger giving rise to synucleinopathies such as Parkinson’s disease up to two to three decades post-immunization [21]. Therefore, individuals who have experienced adverse neurological effects after being administered a COVID-19 vaccine should also be followed up.

Of interest is the mode of action of the COVID-19 vaccines currently used, where the end product is the SARS-CoV-2 spike protein, the intended target being the antigen-presenting cells of the immune system. However, there are indications that the spike protein generated by these vaccines may have off-target effects [17,34,35,36]. There is no evidence that distribution and/or toxicokinetic studies of the spike protein were performed [34,37]. With this in mind, it would be prudent to follow up subjects who experience neurological side effects as a result of the COVID-19 vaccines, in addition to the hospitalized patients with COVID-19 who had neurological complications. With the COVID-19 vaccines, an assumption was made that the spike protein produced in the host cells would not be shed into the systemic circulation. Hence, additional data are required to determine the toxicity and distribution of the spike protein, which is already known to cause disease. Perhaps a standard 28-day study with good laboratory practice could be initiated that not only mimics the concentration that enters the plasma post-vaccination [24] but also exceeds it, in order to provide a good safety margin in a suitable species. Other regulated studies may also be deemed appropriate to fill the knowledge gap. The Guidance for Industry that perhaps should have been used is the Preclinical Assessment of Investigational Cellular and Gene Therapy Products [38], although, like the Development and Licensure of Vaccines to Prevent COVID-19 Guidance for Industry [39], in which the recommendations were also non-binding, the former guidance does recommend more extensive non-clinical studies—including full histopathology—and in the introduction states: “The Center for Biologics Evaluation and Research (CBER)/Office of Cellular, Tissue, and Gene Therapies (OCTGT) is issuing this guidance to provide sponsors and individuals that design and implement preclinical studies with recommendations on the substance and scope of preclinical information needed to support clinical trials for investigational cellular therapies, gene therapies, therapeutic vaccines, xenotransplantation, and certain biologic–device combination products which OCTGT reviews (hereinafter referred to as CGT products).”.

Until such definitive studies are carried out and results substantiated, it lends consideration for caution when deciding whether to administer the COVID-19 vaccines to the younger age groups. (Basel, 2022).

Citation
(Huff, 2022). Natural News: Study links COVID “vaccines” to Parkinson’s disease. Retrieved on 10/11/22 online from https://www.naturalnews.com/2022-10-10-study-links-covid-vaccines-to-parkinsons-disease.html

(Basel, 2022). National Library of Medicine: How Does Severe Acute Respiratory Syndrome-Coronavirus-2 Affect the Brain and Its Implications for the Vaccines Currently in Use. Retrieved on 10/11/22 online from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8780773/


09/Oct/22
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BREAKING BIG: FL SURGEON GENERAL FINDS 84% INCREASE IN CARDIAC-RELATED DEATH IN MALES 18-39 FOLLOWING MRNA VACCINE – RECOMMENDS YOUNG MALES REFRAIN FROM RECEIVING COVID VACCINE

By Jim Hoft
Published October 7, 2022 at 8:49pm

Florida Surgeon General released a shocking report on Friday. According to Dr. Joseph Ladapo, there was an 84% increase in the incidence of cardiac-related death among males 18-39 years old within 28 days following mRNA vaccination. That is a huge number!

Dr. Ladapo recommended that young males from 18 to 39 refrain from taking the COVID Vaccine.

This is a shocking study.

Denmark and Sweden recently halted vaccines for healthy children.

Today, State Surgeon General Dr. Joseph A. Ladapo has announced new guidance regarding mRNA vaccines. The Florida Department of Health (Department) conducted an analysis through a self-controlled case series, which is a technique originally developed to evaluate vaccine safety.

This analysis found that there is an 84% increase in the relative incidence of cardiac-related death among males 18-39 years old within 28 days following mRNA vaccination. With a high level of global immunity to COVID-19, the benefit of vaccination is likely outweighed by this abnormally high risk of cardiac-related death among men in this age group. Non-mRNA vaccines were not found to have these increased risks.

As such, the State Surgeon General recommends against males aged 18 to 39 from receiving mRNA COVID-19 vaccines.
Today, we released an analysis on COVID-19 mRNA vaccines the public needs to be aware of. This analysis showed an increased risk of cardiac-related death among men 18-39. FL will not be silent on the truth.

— Joseph A. Ladapo, MD, PhD (@FLSurgeonGen) October 7, 2022

Guidance for mRNA COVID-19 Vaccines
October 7, 2022

Citation
(Hoft, 2022). The Gateway Pundit: Breaking Big: Fl Surgeon General Finds 84% Increase in Cardiac-Related Death in Males 18-39 Following mRNA Vaccine – Recommends Young Males Refrain from Receiving Covid Vaccine. Retrieved online on 10/09/22 from The Gateway Pundit and Florida Surgeon General Dr. Joseph Ladapo


06/Oct/22
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The government-run Vaccine Adverse Event Reporting System (VAERS) is currently showing some 648 cases of adverse events in breastfed babies whose mothers got “vaccinated” for the Wuhan coronavirus (Covid-19). Despite zero evidence that the shots are safe or effective for pregnant or lactating women, this demographic was added to the authorization list for their use. And now, babies everywhere are suffering because of the spike proteins and other jab chemicals that transfer through breast milk.

Real-Time Magazine conducted an analysis of VAERS, identifying at least 648 cases of infants and babies suffering health damage, including life-threatening incidents and even death. “The most common serious events were life-threatening bleeding; anticholinergic syndrome; liver problems; anaphylactic shock, neuroleptic syndrome; neurological side-effects such as convulsions or encephalitis; and hypoglycemia,” writes Joel S. Hirschhorn for All News Pipeline. “In most of the reported cases, several life-threatening side effects were recorded in the same baby.” (Related: Covid injections are also linked to liver inflammation [hepatitis] in children.)

VAERS doesn’t capture all cases of covid jab injury and death

One woman who spoke to the investigation team explained that she had been breastfeeding her son at the time when she got jabbed for the Chinese Virus. Within days, her son died. “I pumped within an hour of receiving the shot,” the woman said. “My five-month-old son nursed the night following the shot and later ate the pumped milk that I acquired the same day of the shot.” “Eleven days later, he was found unresponsive during his nap at daycare. It is not clear how long he was unresponsive for until found by babysitter. He was immediately rushed to the hospital and doctors were able to get his heart beating again with excessive effort. Organ damage was extensive and he had no brain function, he did not recover. He passed away 13 days after I received the shot.”

In VAERS, the child’s death was not even counted as a death, though it was indicated that he did not recover. This is a common occurrence in VAERS, which only captures a tiny fraction of jab injuries and deaths. We can see from this particular VAERS report that the child’s death was clearly linked to the Pfizer mRNA (messenger RNA) injection, which the boy’s mother received on January 28. Not long after this, the U.S. Food and Drug Administration (FDA) officially authorized the shot for pregnant and breastfeeding women. Another similar case occurred in March when a breastfeeding baby, also five months old, died just one day after his mother was injected for Chinese Germs. The baby fell ill, developing both a fever and rash, and refused to eat. He also cried nonstop before his tragic death. “Patient brought baby to local ER where assessments were performed, blood analysis revealed elevated liver enzymes,” the VAERS report for that incident reads. “Infant was hospitalized but continued to decline and passed away. Diagnosis of TTP. No known allergies. No new exposures aside from the mother’s vaccination the previous day.”

Keep in mind that when the FDA authorized covid shots for pregnant and breastfeeding women, not a single study had been conducted on this demographic. In fact, there has still not been a single study conducted, presumably because those pushing the shots know what the outcome would be. In the comment section, someone pointed to an article, which alleges that cows are now being given covid injections. Many worry that the milk from these “fully vaccinated” cows will pass the same deadly spike proteins on to anyone who drinks their milk.

(Ethanh, 2022). Citizens News: Babies are dying after drinking breast milk from “fully vaccinated” moms. Retrieved online on 10/06/22 from https://citizens.news/662515.html


 

ALL THINGS COVID AND mRNA VACCINES

Our bodies are made up of approximately 30 trillion cells. COVID and mRNA Vaccine Spike Proteins attach to body organ cells, penetrate cell membranes, and replicate inside your cells causing cell damage and inflammation, resulting in side effects and long-term disease.

Learn what goes on in your body when you get COVID or are vaccinated so you can optimize your immune system to protect your body organ cells.

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