Glyphosate, pathways to modern diseases III: Manganese, neurological diseases, and associated pathologies
Anthony Samsel1, Stephanie Seneff2
"Manganese (Mn) is an often overlooked but important nutrient, required in small amounts for multiple essential functions in the body. A recent study on cows fed genetically modified Roundup ® -Ready feed revealed a severe depletion of serum Mn. Glyphosate, the active ingredient in Roundup ® , has also been shown to severely deplete Mn levels in plants.
Here, we investigate the impact of Mn on physiology, and its association with gut dysbiosis as well as neuropathologies such as autism, Alzheimer's disease (AD), depression, anxiety syndrome, Parkinson's disease (PD), and prion diseases. Glutamate overexpression in the brain in association with autism, AD, and other neurological diseases can be explained by Mn deficiency.
Mn superoxide dis-mutase protects mitochondria from oxidative damage, and mitochondrial dysfunction is a key feature of autism and Alzheimer's. Chondroitin sulfate synthesis depends on Mn, and its deficiency leads to osteoporosis and osteomalacia.
Lactobacillus, depleted in autism, depend critically on Mn for antioxidant protection. Lactobacillus probiotics can treat anxiety, which is a comorbidity of autism and chronic fatigue syndrome. Reduced gut Lactobacillus leads to overgrowth of the pathogen, Salmonella, which is resistant to glyphosate toxicity, and Mn plays a role here as well.
Sperm motility depends on Mn, and this may partially explain increased rates of infertility and birth defects. We further reason that, under conditions of adequate Mn in the diet, glyphosate, through its disruption of bile acid homeostasis, ironically promotes toxic accumulation of Mn in the brainstem, leading to conditions such as PD and prion diseases."
Troubling Revelations: Roundup Herbicide Worsens Antibiotic-Resistance Already Fueled by Factory Farming
“The way Roundup causes this effect is likely by causing the bacteria to turn on a set of genes that are normally off, [study author] Heinemann says. ‘These genes are for 'pumps' or 'porins,' proteins that pump out toxic compounds or reduce the rate at which they get inside of the bacteria...
Once these genes are turned on by the herbicide, then the bacteria can also resist antibiotics. If bacteria were to encounter only the antibiotic, they would instead have been killed.
In a sense, the herbicide is 'immunizing' the bacteria to the antibiotic:...This change occurs at levels commonly used on farm field crops, lawns, gardens, and parks.’”
Other herbicides scrutinized in the study include dicamba and 2,4-D, which is particularly relevant in light of the recent approval of a new generation of GE crops resistant not only to glyphosate, but also to dicamba and/or 2,4-D (an ingredient in the devastating defoliant Agent Orange).
This important research implies that combating the weed and pest resistance caused by Roundup Ready GE crops by introducing dicamba- and 2,4-D-resistant varieties is probably only going to speed up the process of creating multi-drug resistant pathogens."
13 yo daughter:
2010 - Dx ADHD, Tourette’s, Aspergers, motor delay, PANS/PANDAS
June 2011 - Igenex PCR positive bartonella, IND lyme. CD57 18. Positive ANA (speckled type), heterozygous A1298C MTHFR. Multiple Abx, herbals/homeopathics
April 2013 - ANA titers negative. Weaned abx. Start Buhner bartonella protocol, methylation/detox protocols, organic PerfectHealthDiet gf/cf/sf. Minimize EMF exposure
Nov 2013 – Clinical babesia diagnosis. Start Buhner babesia protocol
Sept 2014 – Symptoms 99% resolved
Post Edited (rowingmom) : 4/7/2015 9:01:22 AM (GMT-6)