Abstract
The aetiology of calcium oxalate stones, which are commonly believed to be sterile, has not yet been fully elucidated. Recent bacteriological studies and investigations using the scanning electron microscope have also shown microorganisms to be present in this type of stone. These microorganisms were assumed not to be able to split urea. To list the most common urease-negative bacteria established in the human urinary system, we isolated apparently urease-negative microorganisms from a consecutive series of 58 urinary stone-forming patients by using standard selecting agars. Pure strains were incubated in an inductive medium lacking all sources of nitrogen except urea. Induction of urease activity was monitored by a test based on the reaction of phenol/hypochlorite with ammonium ions. This test revealed whether the urease negativity of a strain indicated by the selective agar was optional of absolute. All strains we investigated by this method and which were classified by standard methods as urease-negative we found produced urease activity which was clearly measurable, though it was often comparatively small. In the light of these results, the matrix theory of calcium oxalate stone development will need some modifications.
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References
Christensen WB (1946) Urea decomposition as a means of differentiating Proteus and Paracolon cultures from each other and from Salmonella and Shigella types. J Bacteriol 52:461
Cohen MS, Davis CP, Czerwinski EW, Warren MM (1982) Calcium phosphate crystal formation in Escherichia coli from human urine: an in vitro study. J Urol 127:184
Dorazio SEF, Collins CM (1993) Characterization of a plasmid-encoded urease gene cluster found in members of the family Enterobacteriaceae. J Bacteriol 175:1860
Dosch W, Koestel C (1975) Rasterelektronenmikroskopie von Harnsteinen. Fortschr Urol Nephrol 7:41
Fawcett JK, Scott JE (1960) A rapid and precise method for the determination of urea. J Clin Pathol 13:156
Friesen A, Stern J, Hofstetter AG, Schilling A (1984) Nephrolithiasis — Korrelation von Konkrementtyp und Keimspektrum. Fortschr Med 102:1109
Griffith PD (1979) Urease stones. Urol Res 7:215
Jonitz H, Heinz A (1987) Bakterielle Besiedlung von Harnsteinen bei negativer Urinbakteriologie. Aktuel Urol 18:28
Keefe EW, Smith MJV (1977) Intracellular crystal deposits by bacteria grown in urine from a stone former. Invest Urol 14:344
König C, Schlegel HG (1967) Oscillationen der Ureaseaktivität von Hydrogenomonas H16 in statischer Kultur. BBA 139:182
McLean RJC, Nickels KC, Cheng KJ, Costerton JW (1988) The ecology and pathogenicity of urea-producing bacteria in the urinary tract. Crit Rev Microbiol 16:37
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Sabinski, F., Leusmann, D.B. Potential contribution of optional urease-positive bacteria to idiopathic urinary calcium stone formation. Urol. Res. 24, 51–54 (1996). https://doi.org/10.1007/BF00296734
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DOI: https://doi.org/10.1007/BF00296734