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Proteus mirabilis biofilm protection against struvite crystal dissolution and its implications in struvite urolithiasis.

Abstract
Proteus mirabilis biofilm formation, struvite (MgNH4PO4.6H2O) crystal formation and dissolution in an artificial urine mixture were monitored using computer-enhanced microscopy (CEM) and a 1 x 3 mm. glass flow cell. Image analysis showed that P. mirabilis biofilm formation did not occur to any extent at macroenvironment flow rates greater than two mL/h (equivalent to a microenvironment flow rate of less than 5 microns./sec). Essentially, cells attached to glass surfaces, grew slowly and divided. Daughter cells were generally released directly into the medium where they could then presumably colonize other regions. Microcolonies formed by the adhesion of aggregates of cells from the medium, and over time grew into biofilms. Struvite crystallization due to urease activity and pH elevation above neutrality, was preceded by the deposition of organic matter on the glass surface, followed by the appearance of a number of tiny (one to two microns.) crystals. Crystals forming within a biofilm at low dilution rates took on a characteristic twinned or "X-shaped" appearance (crystal habit) indicative of a rapid growth rate. Those forming outside the biofilm took on a more tabular appearance reflecting their slower growth. When the macroenvironment flow rate of artificial urine (initial pH 5.8) in the glass flow cell was increased from two mL/h to four mL/h, struvite crystals not associated with biofilms dissolved within five to 10 min. Crystals entrapped within the P. mirabilis biofilm withstood flow rates up to 200 mL/h presumably due to the maintenance of an alkaline Mg-saturated microenvironment within the biofilm. These observations may suggest a mechanism by which struvite calculi can grow in spite of neutral or acidic urine pH and resist mild acidification therapy.
AuthorsR J McLean, J R Lawrence, D R Korber, D E Caldwell
JournalThe Journal of urology (J Urol) Vol. 146 Issue 4 Pg. 1138-42 (Oct 1991) ISSN: 0022-5347 [Print] United States
PMID1895441 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References
  • Magnesium Compounds
  • Phosphates
  • Struvite
  • Magnesium
Topics
  • Bacterial Adhesion
  • Crystallization
  • Image Processing, Computer-Assisted
  • In Vitro Techniques
  • Magnesium
  • Magnesium Compounds
  • Microscopy, Phase-Contrast
  • Phosphates
  • Proteus mirabilis (growth & development, physiology)
  • Solubility
  • Struvite
  • Urinary Calculi (chemistry, microbiology, physiopathology)

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