Amalgam aus Zähnen vergiftet den
Körper irreversibel
Dies hatte Prof Till mit seinen Leuten wie Talabani 1960 exakt nachgewiesen und veröffentlicht. Nun
wurde es erneut bestätigt.
Die ungeheueren Konsequenzen der irreversiblen Vergiftung sind niemand bewusst!
Ausbohren ist sinnlos, stoppt nur die Weitervergiftung.
Zähneziehen ist die einzige Hilfe zur Rückbildung in schweren Fällen!!!
Migration
of mercury from dental amalgam through human teeth
Harris
HH, Vogt S, Eastgate H, Legnini DG, Hornberger B, Cai Z, Lai B, Lay PA.
School of
Chemistry, The University of Sydney, NSW 2006, Australia.
J Synchrotron
Radiat. 2008 Mar;15(Pt 2):123-8. Epub
2008 Feb 19.
Exposure
to mercury from dental amalgams, with possible negative health effects, has
generally been considered to occur via either erosion or evaporation directly
from the surface of fillings, followed by ingestion. The aim of this study was
to determine the relative importance of the direct migration of mercury through
the tooth as an alternative exposure pathway. X-ray fluorescence imaging has
been used to determine quantitatively the spatial distribution of Hg, Ca, Zn
and Cu in sections of human teeth that had been filled with amalgam for more
than 20 years. X-ray absorption near-edge spectroscopy (XANES) was also
employed to gain chemical information on the mercury present in the teeth. Hg
(up to approximately 10 mg g(-1)) and Zn (>100 mg g(-1)) were detected in
the teeth several millimetres from the location of the amalgams. At high
resolution, Hg showed higher concentrations in dentinal tubules while Zn was
generally evenly distributed. XANES showed that the chemical form of Hg that
had migrated into the tooth had been altered from that present in the amalgam. The
differing spatial distributions of Hg and Zn suggest distinct transport
mechanisms for the two metals, presumably chemical for Zn and initially
physical for Hg. Subsequent oxidation of Hg may lead to a loss of mobility or
the development of a secondary transport mechanism. Most importantly the
detection of Hg in areas of the tooth that once contained an active bloodstream
and in calculus indicates that both exposure pathways should be considered as
significant.
http://www.ncbi.nlm.nih.gov/pubmed/18296776?dopt=AbstractPlus