Aluminum in the Brain in Multiple Sclerosis: Regulatory and Funding Agencies Silent, Complicit
MEDICAL SCIENCE proceeds along a hierarchy of evidence; often, patients are studied individually (case studies), or a small collection of patients are examined and characterized together (case series). Case series typically have smallish sample sizes and it is generally understood that larger studies will be necessary to determine more accurately the characteristics being studied.
In a new case series study, brain tissue from 14 donors with a diagnosis of MS was studied in a case series by Mold et al (2018) using transversely heated graphite furnace atomic absorption spectrometry. The study found high aluminum content (>10 ug/g dry weight) in all areas of the brain studied, with some areas exceeding 50 ug/g. They found aluminum both with cells and in the interstitium between cells. They found aluminum co-localised with structures known to be present in Secondary Progressive Multiple Sclerosis (SPMS) in the frontal cortex of one donor with SPMS.
There are a number of critical lines of evidence that make this fundamental finding critically important. Patents with MS have lower amounts of aluminum in their hair, suggesting depressed detoxification, and higher amounts are found in urine on chelation challenge testing (Fulgenzi et al., 2014). Chelation with EDTA is known to significantly reduce aluminum intoxication (Fulgenzi et al. 2014), and consumption of silica-rich mineral waters also increase urinary excretion of aluminum from patients with SPMS (Jones et al., 2017).
Extremely plausible direct mechanisms of the cause of MS from aluminum are known and animal studies routinely induced MS using aluminum hydroxide injections. So much evidence exists that points to aluminum as a source of strange new conditions of unknown causes, such as MMF and Gulf War Syndrome, one would think that calls to reconsider the use of aluminum in vaccines would acted upon would be answered. The same team (had previously found high amounts of aluminum in the brains of people with autism, and and in patients with Alzheimer’s disease. The latter result, while also important, is not surprising, as it has long been known that amyloid is part protein and part aluminum. Finally, when France brought on HepB vaccination, cases of MS following vaccination increased; when they stopped recommending the HepB vaccine, which contains aluminum hydroxide, the rate of HepB vaccine-associated MS cases dropped to near zero.
What is surprising is the lack of action on the part of the US FDA to put an end to the use of this dangerous metal in vaccines, that the NIH is not funding more studies like this. NIH should fund studies to determine how to most safely remove aluminum from anyone exposed via vaccines; brain stem amyloidosis is a non-trivial concern. Approaches like ketogenic diet, silica-rich mineral waters, hyperbaric oxygen, EDTA, intranasal insulin and intranasal deferoxamine (to prevent brain stem amyloidosis) should all be tested in randomized clinical trails in clinical populations known to be afflicted with aluminum intoxication (autism, Alzheimer’s, MS).
What is also surprising is that the CDC and ACIP remain blithe to the morbidity and mortality their continued approval of vaccines that contain metals like aluminum and mercury. They make decisions on behalf of us all, and yet every member of ACIP with the exception of one military member has conflicts of interest with vaccine manufacturers. ACIP should review all of the literature on aluminum and make recommendations on how to phase it, and thimerosal, out of vaccines completely.
Further inaction on the part of these regulatory and funding agencies, and active denialism at this point will surely be seen by future generations as both callous disregard, and where conflicts of interest reside, complicity.
Jones K et al. EBioMedicine. 2017 Urinary Excretion of Aluminium and Silicon in Secondary Progressive Multiple Sclerosis. 26:60-67. doi: 10.1016/j.ebiom.2017.10.028.
Fulgenzi A, Vietti D1, Ferrero ME. Aluminium involvement in neurotoxicity. Biomed Res Int. 2014;2014:758323. doi: 10.1155/2014/758323.