Hi ya Cindi,
How on earth did you find this one?!
Fasinating stuff, thanks.
It's taken a while to read, and think its useful to post afew of the gems within it, for future reference. It might tie in under a different guise at some point.
Jo xxx
Pigmented Complex intracellular inclusions
Cells showed extensive disruption of mitochondria leading to the suggestion that the inclusions were providing an alternative (non-mitochondria) source of cellular energy.
They are composed of conglomerates of finer particles that can display fluorescent, electrostatic, sound resonating and variable magnetic activities. Individual particles contain various combinations of different minerals.
Can be influenced by exposure to external electromagnetic, magnetic and sound frequencies that have no discernable effects on normal cell cultures. Enhanced cell growth and survival occurs upon exposure to relatively low intensities, while cell destruction occurs at higher intensity external energy exposure.
The highly ordered complex structures of some of these inclusions suggested that they were fulfilling some cellular function.
They can show intricate patterning and can exist as either hollow tubes or flat bands.
Both by scanning electron microscopy and auto-fluorescence microscopy, the particles can be seen as conglomerates of finer particles. The thread and ribbon-like structures are also auto-fluorescent with wide excitation and emission spectra. The particles can occasionally show magnetic activity.
Erratic movements of the particles in liquid suspensions may account for what earlier investigators have termed pleomorphic microorganisms. The occasional transformation of the particles into thread-like forms is also consistent with the mistaken belief that the supposed bacteria could transform into fungal forms.
It is likely that ACE pigments are also responsible for so called delusional parasitosis or Ek
's syndrome experienced by occasional patients with severe psychiatric illness. They may also explain mistaken reports of head lice in stealth virus infected patients.
The restricted patterns of the minerals in individual ACE pigment particles suggested the existence of selective mineral affinity forces that favor the attraction of like substances.
Minerals have mainly been studied in inorganic forms. Increasingly, it appears that minerals can exhibit quite different properties when either single atoms or small microclusters. Minerals can also behave differently when incorporated into organic and even silica based complex molecular lattices.
April 3rd, 2008, 04:58 PM
ACE Pigments 
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