CHRIS EXLEY Interview with Del Bigtree on ALUMINUM TOXICITY
(THE HIGHWIRE -11/24/22)
https://odysee.com/@The-Highwire-with-Del-Bigtree:a/Episode-295---Mind-Games:0?r=8cSGjqEoyncQGynLZgG9WAbC61LaBPpT&t=3355
THE ALUMINUM AGE - Prof. Chris Exley
We are living in The Aluminium Age. WE ARE LIVING IN THE
ALUMINUM AGE (Prof. Chris Exley - 3/21/2017)
https://www.hippocraticpost.com/mens-health/the-aluminium-age/
Throughout the history of humankind we have lived through
various ‘metal ages’ including the Iron Age and the Bronze Age.
Towards the end of the nineteenth century there was arguably one
of the most important technological advances of the modern era.
A method was developed to make aluminium metal, and henceforth
myriad aluminium salts and compounds, from the abundant
aluminium ores which constitute the Earth’s crust. This
landmark discovery changed aluminium from being considered as a
rare and precious metal, with a similar commercial value to
gold, to a metal which was cheap and abundant, and this was the
event which heralded the advent of The Aluminium Age.
CHRIS EXLEY Interview with Del Bigtree on ALUMINUM
TOXICITY (THE HIGHWIRE - 2018)
https://youtu.be/WyAeQKtVr6U
Acute toxicity of aluminium to
fish eliminated in silicon-rich acid waters
J. D. Birchall, C. Exley, J. S. Chappell & M. J. Phillips
Nature volume 338, pages146–148 (1989) Cite this
article
Abstract
An increased level of aluminium in acidified natural waters is a
primary cause of fish death from damage to gill epithelia and
loss of osmoregulatory capacity1–4. Aluminium toxicity depends
on the species of aluminium present (cationic, neutral or
anionic) and hence is affected by pH and the presence of
complexing ligands, such as fluoride, and organic material, such
as humic acid, which may ameliorate aluminium toxicity5,6. But
silicic acid, Si(OH) 4, present in natural waters as a
consequence of the weathering of the aluminosilicates of rocks
and soil minerals, has a strong and unique affinity for
aluminium7, although its influence on toxicity has not been
investigated. Here we show that, with an excess of Si over Al
and with the formation of hydroxy-aluminosilicate species, the
bioavailability of aluminium at pH 5 is reduced and acute
toxicity is eliminated. Silicic acid concentration should
therefore be considered as a key parameter in toxicity studies
and could be important for the treatment of vulnerable waters.
The toxicity of aluminium in
humans
February 2016 Morphologie 100 (329)
DOI:10.1016/j.morpho.2015.12.003
Authors: C. Exley
https://www.researchgate.net/publication/296478904_The_toxicity_of_aluminium_in_humans
5th International Symposium on Vaccines (2018)
Symposium Kicks Off Autoimmunity Congress on May 16th, 2018 in Lisbon
POSTED BY CLAIRE DWOSKIN ON APR 5, 2018
5th International Symposium on Vaccines
Features New Findings on Autoimmune Reactions
(CMSRI) Children’s Medical Safety Research Institute
https://www.cmsri.org/
CMSRI Youtube Channel - Exley
Interviews
https://www.youtube.com/@cmsri3113/videos