Revealed: Potential ‘Off Switch’ for COVID Vaccines Could Reverse Threat
In a groundbreaking development that could reshape the conversation about COVID-19 mRNA vaccines, a team of researchers led by renowned cardiologist Dr. Peter McCullough has discovered what may be a critical “off switch” for these controversial treatments. This revelation comes as a beacon of hope for those who have been subjected to the mRNA vaccines and are now grappling with potential severe health issues linked to their use.
The findings, first reported by Slay News, detail a study titled “Strategic Deactivation of mRNA COVID-19 Vaccines: New Applications for RIBOTACs and siRNA Therapy.” This research uncovers a novel method using small interfering messenger RNA (siRNA) and ribonuclease targeting chimeras (RIBOTACs) to deactivate the mRNA introduced by the COVID-19 vaccines. According to the report, this process may offer a way to counteract the dangers posed by the mRNA vaccines, which have been associated with serious conditions such as turbo cancers, heart failure, strokes, blood clots, and compromised immune systems.
The mRNA vaccines, initially marketed as a breakthrough in combating COVID-19, have faced increasing scrutiny due to their alleged adverse effects. The study reveals that the spike protein triggered by the mRNA in these vaccines has been linked to a range of life-threatening diseases and sudden deaths. This has led to growing concerns about the long-term safety of these treatments.
Dr. McCullough’s research, which builds on his previous warnings about the vaccines’ dangers, suggests that the new method could allow individuals to clear out the mRNA from their systems, thereby reducing the associated toxicity. The study points to existing treatments like “Patisiran” and “Inclisiran” as potential tools for this purpose, as they are designed to bind and inactivate messenger RNA.
The urgency of this discovery is heightened by the recent approval of Moderna’s mRNA vaccines for respiratory syncytial virus and influenza. McCullough warns that without a mechanism to turn off the synthetic mRNA, every new mRNA shot could potentially worsen public health, making it crucial to address the risks posed by these vaccines.
Critics of the mRNA vaccines have long questioned their safety and efficacy, citing concerns over their long-term effects and the transparency of their risk profiles.
The potential to mitigate the dangers of mRNA vaccines offers a glimmer of hope to those who have experienced adverse effects, while also amplifying calls for greater scrutiny and transparency in vaccine development and deployment.