Disturbing Findings – Spike Protein Formation and Cardiac Anomalies Emerge After mRNA COVID-19 Vaccination – ©Provided by Wealthy Living
New research conducted in Germany has shed light on the rapid formation of spike proteins in both rat and human heart cells following COVID-19 mRNA vaccination.
Cardiac Anomalies
This groundbreaking study, published as a rapid communication paper, suggests that the mRNA vaccines developed by Pfizer and Moderna induce different cardiac anomalies, which may be attributed to an mRNA toxicity reaction.
Potential Link to Cardiac Arrest
While the study primarily focused on animal cells, the results strongly suggest vaccine cardiotoxicity.
Implications of the Study
The findings have significant implications for the understanding and treatment of cardiac events following mRNA-based COVID vaccination, potentially explaining persistent cardiac symptoms in long-COVID patients.
Rapid Formation of Spike Proteins
Within 48 hours of vaccination, researchers detected the presence of spike proteins in both rat and human heart cell cultures. This discovery highlights the efficiency of the mRNA vaccines in instructing cells to produce spike proteins.
Unique Responses to Pfizer and Moderna Vaccines
The study revealed distinct responses in heart cells exposed to Pfizer and Moderna vaccines.
Pfizer Response
Pfizer-vaccinated cells exhibited stronger, sustained contractions due to increased protein kinase A (PKA) activity linked to heart performance.
Moderna Response
In contrast, Moderna-vaccinated cells displayed irregular heart contractions and disrupted calcium regulation, attributed to disturbances in RyR2 receptors.
Cardiac Abnormalities
The observed cardiac abnormalities in response to the vaccines closely resembled cardiomyopathy, where heart muscles become structurally and functionally abnormal.
Problems Signaling
The observed cardiac arrest in some cases suggests that the issues may primarily be related to electrical signaling problems in the heart.
Risk of Death
The observed heart abnormalities, resulting from disturbances to RyR2 and increased PKA protein levels, are risk factors for sudden cardiac death and ventricular tachyarrhythmias.
Worrisome Trends
The findings are particularly concerning since disruptions to the RyR2 receptor have a direct link to sudden cardiac death.
mRNA Toxicity Suggested
The distinct pathways affected by the Pfizer and Moderna vaccines point to underlying cell toxicity from the mRNA instructions themselves.
Although both vaccines produce the same spike protein, their unique cardiac abnormalities may suggest toxicity originating from the mRNA instructions.
Broader Implications
The study raises concerns about the broader use of mRNA technology in vaccines. If mRNA instructions for other vaccines induce similar cardiac toxicity, it could pose a significant risk to public health.
Reassess Risks
This study may warrant a reassessment of the risk-benefit ratio for RNA-based SARS-Cov-2 vaccines.
Previous Studies Reinforce Findings
This study is part of a growing body of research highlighting the cardiotoxic effects of mRNA vaccines.
More Studies
A Japanese study found abnormal heart function in vaccinated individuals through PET scans, and a Harvard study identified COVID-19 mRNA in the hearts of individuals who died within 30 days of vaccination.
Conclusion
The rapid formation of spike proteins and the observed cardiac abnormalities in heart cells following mRNA COVID-19 vaccination underscore the importance of further research into the safety and potential risks associated with these vaccines.
The distinct responses to Pfizer and Moderna vaccines suggest that mRNA technology may contribute to cardiac toxicity.