6 July 1998 Sedimentary rocks in our mouth: dental pulp stones made by nanobacteria
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Abstract
The mechanisms of dental pulp stone formation are still largely unknown. Pulp stones are mainly composed of carbonate apatite. Only few experimental reports have elucidated the potential of some selected bacteria to produce apatite under in vitro conditions using special calcification media. The tested stone forming bacteria were, in fact, often better known for their cariogenic potential. Our preliminary work with 18 dental pulp stones from Turkey, selected only by severity of the stone formation, indicated the presence of nanobacterial antigens in the demineralized stones. Furthermore, high incidence of kidney stones and gall stones in the patient group and in their parents was found. This raises the implication that nanobacteria may enter the body also via oral route, in addition to the parenteral and transplacental routes. The role of nanobacteria in dental pulp stone formation was further studied by following nanobacterial colonization and mineral formation on human tooth in vitro. Two molar teeth, one having pulp stone and one without, were vertically cut into two pieces, sterilized by autoclaving and incubated with or without nanobacteria in DMEM. Electron microscopic observations indicate that nanobacteria can cause apatite stone formation on tooth surface. The sever from of dental pulp stone formation might be associated with nanobacteria. This form of dental disease results in loss of teeth due to osteolytic processes. This addresses the necessity for a study on unconventional mineral-forming bacteria as a cause for human diseases.
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Neva Ciftcioglu, Neva Ciftcioglu, Vefa Ciftcioglu, Vefa Ciftcioglu, Hojatollah Vali, Hojatollah Vali, Eduardo Turcott, Eduardo Turcott, E. Olavi Kajander, E. Olavi Kajander, } "Sedimentary rocks in our mouth: dental pulp stones made by nanobacteria", Proc. SPIE 3441, Instruments, Methods, and Missions for Astrobiology, (6 July 1998); doi: 10.1117/12.319828; https://doi.org/10.1117/12.319828
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