Nanobacteria: an alternative mechanism for pathogenic intra- and extracellular calcification and stone formation.

E O Kajander, N Ciftçioglu

July 1998 Proc Natl Acad Sci U S A

Synopsis of Social media discussions

The discussions revolve around the role of nanobacteria in forming mineral deposits, as exemplified by mentions of mineral tissue-like layers around organs and the formation of 'coccoid-shaped particles.' The tone indicates intrigue about detox methods such as CLO2 and their effects, reflecting moderate engagement and interest in potential health implications.

A
Agreement
 Moderate agreement

The discussion suggests some level of agreement, highlighting the role of nanobacteria in forming mineral layers and their potential link to conditions like stones and tissue calcification.

I
Interest
 Moderate level of interest

Participants show moderate interest by engaging in detox practices and mentioning physiological effects, indicating curiosity about implications.

E
Engagement
 Moderate level of engagement

Comments reference specific biological processes and detox methods, demonstrating a degree of active engagement with the topic.

I
Impact
 Neutral impact

The impact is uncertain; while the discussion points to potential health effects, it does not explicitly suggest wide-reaching consequences or paradigm shifts.

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Uncovering Hidden Causes of Kidney Stones and Calcification Mechanisms

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  • The Count
    @DantesdeCristo (Twitter)

    @futrellpeg @LymeByDesign @SPeribsen In the case of nanobacteria, they aggregate in the body to form a mineral tissue-like layer around the organs and along the CNS, leaving clusters of 'coccoid-shaped particles' (like tonsil stones). When you detox with CLO2 you see these coming out. https://t.co/WWqS1zVXMf
    view full post

    February 9, 2025

    2

Abstract Synopsis

  • Nanobacteria are tiny bacteria recently discovered in human and cow blood that can produce mineral deposits called carbonate apatite, which is similar to the minerals found in diseases like kidney stones and tissue calcification.
  • The study shows that these bacteria can create biofilms and mineral clusters both inside and outside cells without needing high pH levels, challenging previous ideas that alkaline conditions are necessary for stone formation.
  • Overall, nanobacteria might serve as a new model to understand how calcifications such as kidney stones develop, as they can produce mineral deposits under normal body conditions.]