VACCINE

Journal Of Toxicology • October 2014
Aluminum-induced entropy in biological systems:
implications for neurological disease
Author information
Shaw CA1, Seneff S2, Kette SD3,
Tomljenovic L4, Oller JW Jr5, Davidson RM6.
1. Neural Dynamics Research Group, Department of Ophthalmology and Visual Sciences
828 W. 10th Avenue, Vancouver, British Columbia, Canada V5Z 1L8; Program
Experimental Medicine, University of British Columbia, Vancouver, Canada V5Z 1L8
Program in Neurosciences, University of British Columbia, Vancouver, Canada V5Z 1L8
2. MIT Computer Science and Artificial Intelligence Laboratory
32 Vassar Street, Cambridge, MA 02139, USA
3. Hudson, FL 34667, USA
4. Neural Dynamics Research Group, Department of Ophthalmology and Visual Sciences,
828 W. 10th Avenue, Vancouver, British Columbia, Canada V5Z 1L8
5. Department of Communicative Disorders, University of Louisiana
Lafayette, LA 70504-3170, USA
6. Internal Medicine Group Practice, PhyNet Inc., 4002 Technology Center
Longview, TX 75605, USA
Abstract
Over the last 200 years, mining, smelting, and refining of aluminum (Al) in
various forms have increasingly exposed living species to this naturally abundant
metal. Because of its prevalence in the earth’s crust, prior to its recent
uses it was regarded as inert and therefore harmless. However, Al is invariably
toxic to living systems and has no known beneficial role in any biological
systems. Humans are increasingly exposed to Al from food, water, medicinals,
vaccines, and cosmetics, as well as from industrial occupational exposure.
Al disrupts biological self-ordering, energy transduction, and signaling
systems, thus increasing biosemiotic entropy. Beginning with the biophysics
of water, disruption progresses through the macromolecules that are crucial to
living processes (DNAs, RNAs, proteoglycans, and proteins). It injures cells,
circuits, and subsystems and can cause catastrophic failures ending in death.
Al forms toxic complexes with other elements, such as fluorine, and interacts
negatively with mercury, lead, and glyphosate. Al negatively impacts the central
nervous system in all species that have been studied, including humans.
Because of the global impacts of Al on water dynamics and biosemiotic systems,
CNS disorders in humans are sensitive indicators of the Al toxicants to
which we are being exposed.
Full Report
“Beginning with the biophysics of water, disruption progresses through the
macromolecules that are crucial to living processes (DNAs, RNAs, proteoglycans,
and proteins). It injures cells, circuits, and subsystems and can cause catastrophic
failures ending in death. Aluminum forms toxic complexes with other elements,
such as fluorine, and interacts negatively with mercury, lead, and glyphosate.
Aluminum negatively impacts the central nervous system in all species
that have been studied, including humans. Because of the global impacts
of Aluminum on water dynamics and biosemiotic systems, Central Nervous System
disorders in humans are sensitive indicators of the Aluminum toxicants to
which we are being exposed.
... vaccine trials often treat an Aluminum adjuvant-containing injection as a
harmless “ placebo “ (a comparison benchmark or control treatment) or they use another
Al-containing vaccine to treat a “ control group, “ despite evidence that
Aluminum in vaccine-relevant exposures is universally toxic to humans and animals.
Its use in a supposed “ placebo “ or in any “ control “ treatment in
vaccine trials is indefensible.”
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4202242/