A groundbreaking study has revealed that fragments of mRNA from the Pfizer COVID vaccine can permanently fuse into human DNA. The study, published in a less prestigious journal, provides evidence of integration of the vaccine into human genomes, shedding light on the potential long-term effects of mRNA vaccines.
The study, conducted by Italian scientists, focused on individuals suffering from Long Covid. The researchers detected spike proteins specific to Covid vaccines in the blood of these individuals, long after vaccination. This raised questions about the possibility of spike protein production being a result of DNA changes.
To investigate this further, DNA-specific tests were conducted to identify the presence of Covid vaccine genetic code in the genomes of the study subjects. The results were astonishing – some participants' DNA showed genes that could only come from the Pfizer Covid vaccine. This suggests that the mRNA vaccine is becoming a permanent part of the recipients' genomes through a process called intracellular reverse transcription.
While these findings are concerning, it is important to note that the study does not indicate how many cells are affected in vaccinated individuals or whether reproductive cells are impacted. The methods used to detect altered genetic strands are highly sensitive, and it is unclear if the Pfizer vaccine code is present in a small minority or a significant portion of affected cells.
Furthermore, not every vaccinated person showed signs of reverse integration, providing hope for those who were not affected. It is crucial that further studies attempt to reproduce these findings to confirm their validity.
The publication of this study in a less prestigious journal raises questions about the reception of scientific findings critical of Covid vaccines. For a long time, claims that the Covid vaccine changes our genome were dismissed as anti-science and anti-vax tropes. However, this study presents a more nuanced understanding of the potential effects of mRNA vaccines.
The implications of this research are significant, as they challenge the existing narrative surrounding mRNA vaccines. The long-term consequences of vaccine integration into human DNA are still unknown, and it is essential to continue monitoring and researching this phenomenon.
As the scientific community grapples with the findings of this study, it remains to be seen whether apologies will be issued for dismissing claims that mRNA vaccines can alter our genomes. In the meantime, it is crucial for individuals to stay informed and engage in dialogue about the potential risks and benefits of mRNA vaccines.
