A preprint study has uncovered a potential way to remove mRNA from COVID-19 shots. Led by cardiologist, internist, and epidemiologist Dr. Peter McCullough, the study offers hope to those suffering from health damage caused by COVID-19 shots.
“As the world approaches two-thirds of the population potentially suffering future diseases and disabilities from long-lived mRNA encoding the dangerous Wuhan spike protein, how can we stop this molecular monster from causing more damage? is seeking,” McCullough wrote.One
The technology involves using small interfering RNA (siRNA) and ribonuclease-targeting chimeras (RIBOTAC) to “target, inactivate, and degrade residual and persistent vaccine mRNA,” helping prevent uncontrolled spike protein production while reducing toxicity.2
Technology may help mitigate damage caused by mRNA COVID shots
A study by Pfizer-BioNTech and Moderna found that the mRNA in the COVID-19 shot, which is carried by tiny particles called nanolipids, does not stay in the shoulder muscles or nearby lymph nodes as initially claimed. Instead, the mRNA can be found in various tissues in the body, raising safety concerns.
There are concerns that this mRNA could be harmful by integrating into the body's DNA or causing unintended production of the spike protein. To address these concerns, scientists are looking for ways to remove the remaining mRNA, thereby halting the production of the spike protein that the COVID-19 shot mRNA helps produce.
“I think unless there is a way to turn off messenger RNA, all messenger RNA injections are going to make people progressively sicker because they are synthetically made and resistant to human degradation,” McCullough said. “We need to find a way to get this out of the body. We need an off switch to do that.”three
McCullough's study highlights “emerging concerns about the widespread systemic biodistribution of these mRNA vaccines, raising concerns about prolonged inflammatory responses and other safety concerns.”4 According to the scientists, “strategies are needed to mitigate potential side effects, along with the stability of mRNA vaccines, wide distribution, longevity of encapsulated mRNA, and unlimited production of the damaging and potentially lethal spike (S) protein.”5
This study reviews strategies involving siRNA and RIBOTAC. “It may seem incomprehensible for doctors to inject more RNA to inactivate Pfizer and Moderna synthetic mRNAs that have accumulated in the body after multiple injections,” says McCullough. “However, the siRNAs used in my practice today (patisiran, inclisiran) appear to be safe and well-tolerated, with only injection site reactions notable.”6
siRNA and RIBOTAC may act as off-switches for COVID mRNA injections.
siRNA is a type of RNA molecule that can specifically bind to and degrade messenger RNA (mRNA) in cells. This process prevents mRNA from being used to produce proteins. siRNA enters the cell and works by becoming part of a complex called RISC (RNA-induced silencing complex).
Within RISC, siRNA pairs with a matching mRNA sequence and guides the complex to cleave and destroy the target mRNA, thereby stopping protein production. siRNA is used in research and therapeutic applications to silence specific genes, helping to study gene function and treat diseases caused by overactive or harmful genes.
Meanwhile, RIBOTAC is a synthetic molecule designed to bind to specific RNA molecules and recruit a natural cellular enzyme called ribonuclease to degrade the target RNA. RIBOTAC enters the cell and attaches to both the target RNA and the ribonuclease enzyme. This binding brings the enzyme close to the target RNA, allowing the enzyme to cut and degrade the RNA.
RIBOTAC is used to specifically target and destroy RNA molecules involved in disease processes, providing a precise way to reduce the levels of harmful proteins produced by these RNAs. According to the study, “The targeted nature of siRNA and RIBOTAC allows for precise intervention, providing a route to prevent and mitigate the side effects of mRNA-based therapies.”7
This study described two methods to target and degrade residual and persistent COVID-19 shot mRNA, including siRNA treatment (A) and RIBOTAC neutralization (B).8
“A: siRNA targeting COVID-19 vaccine mRNA enters the vaccinated cells via LNP (lipid nanoparticle) and is incorporated into RISC. siRNA in RISC binds to the complementary sequence of the target vaccine mRNA and cleaves it, thereby inhibiting the production of spike protein.
B: RIBOTAC targeting COVID-19 vaccine mRNA enters vaccinated cells via LNP and binds to both targeted vaccine mRNA and endogenous RNase. This leads to RNase-mediated degradation of vaccine mRNA and inhibition of spike protein production.”
“We already use these small interfering RNAs in practice,” McCullough said. “There is one called patisiran and one called inclisiran. I use these in my practice. They last only a few days in the body. They bind to messenger RNA and inactivate it… we “Hopefully some molecular technology companies will adopt this and consider this.”9
COVID-19 shot causes serious side effects and 'long-term vaccine'
An effective “off switch” could provide a lifeline for those suffering from debilitating effects. Many people who received mRNA COVID-19 shots have had serious side effects, with some saying they have an “unacceptably high harm-to-reward ratio.”10
It is estimated that for every million doses administered, there would be between 1,010 and 1,510 serious adverse events, including death, life-threatening conditions, hospitalization, or serious disability.11 According to data from the European Medicines Agency Eurovigilance database, compared to the flu shot, the COVID-19 vaccine causes more of the following symptoms:12,13
allergic reaction | arrhythmia |
Common cardiovascular events | Cohesion |
bleeding | Gastrointestinal, ocular, and genital reactions |
thrombosis |
Meanwhile, the “long-term vaccine” that explains the range of symptoms caused by COVID-19 vaccines is finally getting the recognition it deserves.
As Science magazine reported in 2022, “in rare cases, coronavirus vaccines may cause long-term COVID-like symptoms.”14 These may include (but are not limited to) brain fog, memory problems, headaches, blurred vision, loss of smell, nerve pain, heart rate fluctuations, dramatic blood pressure changes, and muscle weakness. A feeling of “internal electric shock” is also reported.
Additionally, a 2022 preprint study from the National Institutes of Health reported new neuropathy symptoms that began in 23 adults within a month of receiving a COVID-19 shot.15 All patients felt severe tingling or numbness in their face or extremities, and 61% experienced dizziness when standing up, intolerance of heat, and palpitations.
The study by Yale scientists also shed light on long vax, described as chronic post-vaccination syndrome (PVS).16 In a study of 241 people who reported PVS after an mRNA COVID-19 injection, the median time from the onset of symptoms after receiving the shot was 3 days, and symptoms persisted for 595 days. The five most common symptoms are:17
- Exercise intolerance (71%)
- Excessive fatigue (69%)
- Numbness (63%)
- Brain fog (63%)
- Neuropathy (63%)
In the week before the survey was completed, patients reported a range of additional symptoms that highlighted the psychological toll this condition was taking on. Symptoms required an average of 20 interventions to treat and included:18
Anxiety (93%) | Fear (82%) |
Overwhelmed by worry (81%) | Helplessness (80%) |
Anxiety (76%) | Depression (76%) |
Despair (72%) | Worthless (49%) |
COVID mRNA injection linked to 111,795% increase in brain blood clots
Amid the urgency to find strategies to help people who have received a COVID vaccine, another study led by McCullough found that getting the vaccine was linked to a 111,795% increase in brain clots known as cerebral thromboembolism.19
Cerebral thromboembolism, a known side effect of the COVID-19 shot, is a medical condition in which a blood clot (thrombus) forms in a blood vessel, travels through the bloodstream, and becomes lodged in an artery that supplies blood to the brain. This blockage can block blood flow to part of the brain, potentially leading to a stroke.
For the study, the researchers used data from the Centers for Disease Control and Prevention (CDC) and the Food and Drug Administration (FDA) Vaccine Adverse Event Reporting System (VAERS) from Jan. 1, 1990, to Dec. 31, 2023. They compared reported cases of cerebral thromboembolism after COVID-19 vaccination with cases reported after flu vaccines and other vaccines.
This study found that the risk of cerebral thromboembolism after receiving the COVID-19 vaccine was significantly higher compared to the flu vaccine and all other vaccines.20 There have been 52 reported cases of cerebral thromboembolism associated with the flu vaccine, while there have been 5,137 cases associated with the COVID-19 vaccine.21
The massive increase has led researchers to call for an “immediate global suspension of COVID-19 vaccine use,” especially for women of childbearing age. McCullough wrote:22
“This paper fails to capture the level of permanent neurological damage and disability that these patients experience. Given the wide range of clots reported, I would say the rate is very high. In particular, these data strongly support the removal of all COVID-19 vaccines and boosters from the market. No one should be at risk for serious stroke, regardless of the vaccine.”
Help for people injured by mRNA COVID
It’s important to be cautious about the new mRNA shots coming onto the market and carefully consider whether the risks outweigh the reported benefits before getting one. But if you’ve already had one or more COVID-19 shots, there are steps you can take to help your body recover from the attack.
The more mRNA shots you take, the more damage your immune system will do. So the first step is to stop taking mRNA shots. Next, if you have any unusual symptoms, seek professional help. The Front Line COVID-19 Critical Care Alliance (FLCCC) has a treatment protocol for post-injection injuries. It’s called I-RECOVER and can be downloaded from covid19criticalcare.com.23
Dr. Pierre Corey, who co-founded FLCCC, transitioned to almost exclusively treating patients injured by vaccines. For more information, visit DrPierreKory.com. McCullough is also investigating additional post-injection treatments, which can be found at PeterMcCulloughMD.com. Lastly, if you are suffering from long-term vaccines, review strategies to promote mitochondrial health to help your body heal.
