Organic Germanium Captures And Discharges Mercury (2)
In one experiment, mercury chloride was intravenously injected into a rat and induced the formation of a calcareous deposit in the cortex and medulla regions of the kidney. After ten days' treatment with organic Germanium, most of the calcareous deposits had disappeared, and within a further twenty days, no trace of calcium could be observed. Dead cells were found to be dispersed, in the tissue interstices. After thirty days of organic Germanium treatment, the dead cells had been replaced by healthy cells.
Another experiment, again in rats, described how the administration of organic Germanium at the same time as mercury protected against the development of any toxic symptoms, thus apparently preventing mercury poisoning.
Similar types of experiments were also performed using cadmium, another heavy metal toxin, which indicated that organic Germanium could discharge this poison from the body.
How Organic Germanium Discharges Heavy Metals
The toxicity from mercury is thought to arise from the interaction of mercury with free organic radicals, causing electromagnetic disturbances, affecting cells and organs possibly quite distanct from the port of entry (97). The most effective way of avoiding mercury poisoning is to prevent its accumulation, through discharging. Dr. Asai has theorized how organic Germanium may accomplish this - again, through the unique structure of this molecule.
"The organic Germanium compound has a cubic structure with three negative oxygen ions around Germanium. The negative oxygen ions are at the base of the cubic triangle. Two cubic triangles whose bases face each other make a molecule. (See diagram). Any heavy metal accumulated in a living body is in a state of positive ions which would jump into and be trapped in the mesh structure of the negatively-charged oxygen ions of the organic Germanium compound taken into the body."
This would explain organic Germanium's apparently beneficial effect of "capturing" other heavy metals, such as cadmium. Although there are no published data on Sanumgerman or Spirogermanium's application in this regard, since they also have lattice structures, extensively oxygen bonded, it could be predicted they would act in a similar way. Other trace minerals such as selenium have been shown to enhance the discharge of heavy metals; however the mechanisms may be quite distinct. This is certainly an area open to research, not only for mercury, but for lead, cadmium and other toxic heavy metals.
|
