COVID mRNA shots are a ‘technology designed to poison people’: Canadian doctor
https://www.lifesitenews.com/news/covid-mrna-shots-are-a-technology-designed-to-poison-people-canadian-doctor
Dr. Michael Palmer, a Canadian board-certified doctor, medical microbiologist, and professor of pharmacology and toxicology at the University of Waterloo, briefly explained in a video posted online last month how the mechanisms within the novel mRNA COVID-19 vaccines function. He also articulated why he thinks the experimental injections present a serious and potentially fatal toxicity risk to recipients.
“The second component is the lipid nanoparticles,” the doctor continued. “These lipids, fat-like molecules, they encase the messenger RNA and they serve two purposes. One is to protect the messenger RNA while it is in transport and secondly also to help it enter the body cells.”
According to Palmer, the issue that arises from this is that one of the components of these lipid nanoparticles, the “cationic” or “electrically positively charged lipid,” is “known to be quite toxic” as a “general property.”
As a result, once these toxic lipids enter the cell, “they tend to disrupt the mitochondrial respiration, the cell respiration,” which is a process that humans need “for producing energy.” Palmer states that if this process is disrupted, the oxygen from respiration is not properly “reduced to water” but instead is reduced to “reactive oxygen species” that can “react with anything,” including “our DNA” in a way that inflicts “damage.”
Even worse, Palmer elaborates that the result of this mechanism is the same result radiation treatments for cancer patients produce, which he says means there are strict limits on how much the human body can withstand before dying.
Michael Palmer - Associate Professor
https://uwaterloo.ca/chemistry/profile/mpalmer
https://www.lifesitenews.com/news/covid-mrna-shots-are-a-technology-designed-to-poison-people-canadian-doctor
Dr. Michael Palmer, a Canadian board-certified doctor, medical microbiologist, and professor of pharmacology and toxicology at the University of Waterloo, briefly explained in a video posted online last month how the mechanisms within the novel mRNA COVID-19 vaccines function. He also articulated why he thinks the experimental injections present a serious and potentially fatal toxicity risk to recipients.
“The second component is the lipid nanoparticles,” the doctor continued. “These lipids, fat-like molecules, they encase the messenger RNA and they serve two purposes. One is to protect the messenger RNA while it is in transport and secondly also to help it enter the body cells.”
According to Palmer, the issue that arises from this is that one of the components of these lipid nanoparticles, the “cationic” or “electrically positively charged lipid,” is “known to be quite toxic” as a “general property.”
As a result, once these toxic lipids enter the cell, “they tend to disrupt the mitochondrial respiration, the cell respiration,” which is a process that humans need “for producing energy.” Palmer states that if this process is disrupted, the oxygen from respiration is not properly “reduced to water” but instead is reduced to “reactive oxygen species” that can “react with anything,” including “our DNA” in a way that inflicts “damage.”
Even worse, Palmer elaborates that the result of this mechanism is the same result radiation treatments for cancer patients produce, which he says means there are strict limits on how much the human body can withstand before dying.
Michael Palmer - Associate Professor
https://uwaterloo.ca/chemistry/profile/mpalmer
Biography Summary
Michael Palmer carries out research in biochemistry. His research focuses on the interaction of peptides and proteins with biological membranes. One current area of interest is the action mode of lipopeptide antibiotic daptomycin, as well as the mechanism of bacterial resistance to it. His experiments involve a range of methods including fluorescence, protein chemistry, and molecular biology.Research Interests
- Fluorescence
- Antibiotics
- Membranes
- Lipopeptides
- Pore-forming toxins
- Biochemistry and Biophysics
- Climate Extremes and Food Production
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