Clinical Nephrology – Epidemiology – Clinical Trials
Kidney International (1999) 56, 1893–1898; doi:10.1046/j.1523-1755.1999.00755.x
Nanobacteria: An infectious cause for kidney stone formation
Neva Çiftçioglu, Mikael Björklund, Kai Kuorikoski, Kim Bergström and E Olavi Kajander
Department of Biochemistry and Biotechnology, University of Kuopio; Kuopio University Hospital, Clinical Physiology, Kuopio; Central Hospital of the Central Finland, Jyväskylä, Finland
Correspondence: Dr Neva Çiftçioglu, Department of Biochemistry and Biotechnology, University of Kuopio, Savilahdentie 9F, P.O. Box 1627, FIN-70211 Kuopio, Finland. E-mail: neva.ciftcioglu@uku.fi
Received 28 January 1999; Revised 28 May 1999; Accepted 16 June 1999.
Abstract
Nanobacteria: An infectious cause for kidney stone formation.
Background
Nanobacteria are cytotoxic, sterile-filterable, gram-negative, atypical bacteria detected in bovine and human blood. Nanobacteria produce carbonate apatite on their cell walls. Data on Randall's plaques suggest that apatite may initiate kidney stone formation. We assessed nanobacteria in 72 consecutively collected kidney stones from Finnish patients.
Methods
Nanobacteria and kidney stone units were compared using scanning electron microscopy (SEM). Demineralized kidney stones were screened for nanobacteria using a double-staining method and a specific culture method. Isolated nanobacteria were analyzed for mineral formation in vitro with Ca and 85Sr incorporation tests.
Results
SEM highlighted the resemblance in size and morphology of nanobacteria and the smallest apatite units in the kidney stones. Nanobacterial antigens could be detected after the demineralization of the stones in 1 N HCl. Nanobacteria were surprisingly resistant to this treatment, and cultures could be established from 93.1% of the stones. Only struvite stones had common bacteria, in addition to the nanobacteria. When the results of all of the assays were combined, 70 of the 72 stones (that is, 97.2%) were nanobacteria positive. Although apatite stones indicated highest nanobacteria antigen signals, the overall nanobacteria positivity did not depend on the stone type. The isolated nanobacteria produced apatite stones in vitro, measured by Ca and 85Sr incorporation.
Conclusions
We propose that kidney stone formation is a nanobacterial disease analogous to Helicobacter pylori infection and peptic ulcer disease. Both diseases are initiated by bacterial infection and subsequently endogenous and dietary factors influence their progression.
Keywords:
bacteria, infection, kidney calculi, apatites, carbonate apatite, stone formation
