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Could
the alien from outer space be the plaque bacteria? In
1996, NASA, led by McKay, discovered mineral deposits
in a meteorite from Mars. Upon close examination with
the electron microscope, the mineral deposits were filled
with clumped together fossils of nanoorganisms. Scientists
believe that the nano creatures used minerals as shields
from the ultraviolet rays of the sun while the meteorite
was traveling through space. The true discovery of the
plaque bacteria may be in the late 1980's, when Robert
Folk, famed geologist from the University of Texas, found
nano creatures in limestone from the Libertine Caverns
in Viterbo, Italy. Folk was able to culture the nanoorganisms
by a special process and identify them with a form of
gold stain. Folk linked these creatures to the formation
of rust. To prove his theory, Folk was able to form iron
rust deposits with nano plaque bacteria and by removing
the creatures from the water, he observed no formation
of rust. Folk concluded that rust needed nanoorganisms
that he named nannobacteria. Folk's discoveries did not
make a huge impact to the Scientific community because
nannobacteria had no link to human disease.
In
the early 1990's, Finnish researchers, Olavi Kajander
and Neva Ciftcioglu conducted lab experiments that linked
nanoorganisms to kidney stones in humans. This research
pair found that nanoorganisms were found in FBS (Fetal
Bovine Serum) and in human blood in 15% of the population
of Finland. Under certain conditions, nanoorganisms that
they called nanobacteria, would form cell walls of fat,
then clump together to form plaque. In the absence of
fat, nanobacteria would replace the fat with calcium and
other biominerals. Plaque could not be formed until the
animal body fluid became highly alkaline. No mineral clumping
can occur in an acid environment because acids dissolve
minerals. Kajander concluded that nanobacteria may be
the cause of all plaque related diseases in humans because
once the bacteria clump together, they become strong magnets
to attack fibroblasts and destroy them. Fibroblasts are
the cells that repair human tissue and regenerate new
tissue. Mineral formation in the mouth is called dental
plaque.
Perhaps
a more simple explanation is that dental plaque is rusting
in the mouth. Apparently nanobacteria are found in saliva
or at least there is some form of colloid with nucleic
acids found in saliva. For this newsletter, we will call
this colloid, a plaque bacteria. What makes plaque bacteria
attract calcium and phosphate to its surface is the magnetic
attraction of the outer surface of the nanobacteria. As
Robert Folk discovered, rust needs nano creatures to form
metal oxides. Nanobacteria have the nucleic acids that
resonate intense vibrations to attract biominerals. Dental
plaque is a form of metal oxide in the mouth. This rust
is a form of apatite crystal similar to bone and teeth.
Once plaque bacteria attract the first layer of calcium
compounds, the calcium is neutralized and loses its positive
charge. The calcium now picks up the negative charge of
the alkaline saliva to attract another layer of calcium.
The layers keep piling on until the cell wall is completely
formed and now becomes a magnet to attract other cell
walls to form chains. The chains become magnets to form
clusters and the clusters clump together to form colonies.
The colonies become a huge magnet to attract a covering
of calcium to complete the crystal.
The
key factor to plaque is pH. Any kind of chemical reaction
needs a redox action. One molecule must give up electrons
and another receive the electrons. Minerals are the giver
and gases are the receivers. We can't eliminate minerals
but we can prevent the oxidizers or the gases. Oxidizers
are called oxidants and the best way to prevent oxidants
is to use antioxidants. Antioxidants prevent minerals
and fat from forming plaque. In the body, special proteins
called inhibitors, alter the pH to prevent plaque in body
fluids. There are no such inhibitors in saliva. In order
to prevent plaque in saliva, we need to keep the pH neutral
or slightly acidic. It makes no sense to use fluoride,
antibacterial or antiseptic products to prevent plaque.
If anything, these products initiate plaque by elevating
the pH of saliva. A better way is to quit using many of
our current oral hygiene products and use antioxidants.
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