Metallomics analysis for early assessment and individualized intervention of neurodevelopmental disorders
Science is making headway
Metallomics analysis for early assessment and individualized intervention of neurodevelopmental disorders
Metallomics, Volume 14, Issue 9, September 2022, mfac067, https://doi.org/10.1093/mtomcs/mfac067
Abstract The children today are in the midst of the epidemic of neurodevelopmental disorders. In this metallomics study for the scalp hair samples of total 2550 children with autistic disorders (2108 males and 442 females aged 0–15 years), it was demonstrated that near one-half of the infantile individuals aged 0–3 years are suffering from zinc deficiency and toxic metal burdens. Zinc level correlated closely to the index of zinc/iron ratio more than zinc/copper ratio. Furthermore, there were significant relationships between zinc deficiency and toxic metal burdens such as lead and aluminum, which were inversely associated with not only zinc level but also zinc/iron ratio with higher regression coefficients of r = −0.486 and −0.551 (P < 0.00001), respectively. High-significant inverse association was detected between zinc and molybdenum concentration (r = −0.509) and also between zinc/iron ratio and molybdenum (r = −0.548). These findings suggest that infantile zinc deficiency relates to the high burdens of not only toxic but also some essential metals such as molybdenum, iron, and manganese and that these various mineral imbalances play principal roles in the etiology of neurodevelopmental disorders. We expect that the early assessment and intervention of the mineral imbalances (or dis-homeostasis) in individual child open an avenue for evidence-based individualized treatment of neurodevelopmental disorders and also of the comorbid immune disorders, in near future.
https://academic.oup.com/metallomics/article-abstract/14/9/mfac067/6695310?redirectedFrom=fulltext&login=false
Does anyone know the relationship of the findings of this study with the studies that found that more metals found in the hair was indicative of the children that were able to process the metals OUT of their bodies and therefore finding metals in the hair was indicative of less metals in the body?
So... instead of drugging our kids, maybe we try the old vitamin and mineral supplements?
Oysters are high in zinc, but how many kids will eat their fill of oysters on a daily basis?? And now the FDA has changed what's considered "healthy" when labeling food packaging.
Pharma would prefer we treat everyone with drugs, and it's impossible to find a doctor who will help you with vitamin and mineral needs, so we owe James and substackers like him for sharing these studies!