Striking Visual Evidence
By Thomas E. Levy, MD, JD
Orthomolecular.org
OMNS (Oct. 18, 2021) No issue in the history of medicine has been as strident and polarized as that of the risk/benefit profiles of the various COVID vaccines being administered around the world. This article does not seek to clarify this issue to the satisfaction of either the pro-vaccine or the anti-vaccine advocates. However, all parties should realize that some toxicity does result in some vaccinated individuals some of the time, and that such toxicity can sometimes be unequivocally attributed to the preceding administration of the vaccine. Whether this toxicity occurs often enough and with great enough severity in vaccinated persons to be of greater concern than dealing with the contraction and evolution of COVID infections remains the question for many people.
Practically speaking, it does not matter whether an adverse event that occurs after a vaccination gets âblamedâ on the vaccination. Such a matter may never get resolved. The issue of greatest concern is whether that adverse event can be clinically resolved if not effectively prevented, and whether any long-term damage to the body can be prevented once an adverse event is recognized. The remainder of this article will address the etiologies of such damage along with measures that can mitigate or even resolve such damage.
Toxins and Oxidative Stress
All toxins ultimately inflict their damage by directly oxidizing biomolecules, or by indirectly resulting in the oxidation of those biomolecules (proteins, sugars, fats, enzymes, etc.). When biomolecules becomes oxidized (lose electrons) they can no longer perform their normal chemical or metabolic functions. No toxin can cause any clinical toxicity unless biomolecules end up becoming oxidized. The unique array of biomolecules that become oxidized determines the nature of the clinical condition resulting from a given toxin exposure. There is no âdiseaseâ present in a cell involved in a given medical condition beyond the distribution and degree of biomolecules that are oxidized. Rather than âcausingâ disease, the state of oxidation in a grouping of biomolecules IS the disease.
When antioxidants can donate electrons back to oxidized biomolecules (reduction), the normal function of these biomolecules is restored (Levy, 2019). This is the reason why sufficient antioxidant therapy, such as can be achieved by highly-dosed intravenous vitamin C, has proven to be so profoundly effective in blocking and even reversing the negative clinical impact of any toxin or poison. There exists no toxin against which vitamin C has been tested that has not been effectively neutralized (Levy, 2002). There is no better way to save a patient clinically poisoned by any agent than by immediately administering a sizeable intravenous infusion of sodium ascorbate. The addition of magnesium chloride to the infusion is also important to protect against sudden life-threatening arrhythmias that can occur before a sufficient number of the newly-oxidized biomolecules can be reduced and any remaining toxin is neutralized and excreted.
Abnormal Blood Clotting…READ MORE… – LewRockwell LewRockwell.com