Ultrastructure of selected struvite-containing urinary calculi from dogs

Rebecca A. Domingo-Neumann From the Urinary Stone Analysis Laboratory, Department of Medicine and Epidemiology, School of Veterinary Medicine (Domingo-Neumann, Ruby, Ling, Johnson), and Department of Geology (Schiffman), University of California, Davis, CA 95616.

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Annette L. Ruby From the Urinary Stone Analysis Laboratory, Department of Medicine and Epidemiology, School of Veterinary Medicine (Domingo-Neumann, Ruby, Ling, Johnson), and Department of Geology (Schiffman), University of California, Davis, CA 95616.

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Gerald V. Ling From the Urinary Stone Analysis Laboratory, Department of Medicine and Epidemiology, School of Veterinary Medicine (Domingo-Neumann, Ruby, Ling, Johnson), and Department of Geology (Schiffman), University of California, Davis, CA 95616.

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Peter S. Schiffman From the Urinary Stone Analysis Laboratory, Department of Medicine and Epidemiology, School of Veterinary Medicine (Domingo-Neumann, Ruby, Ling, Johnson), and Department of Geology (Schiffman), University of California, Davis, CA 95616.

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Deedra L. Johnson From the Urinary Stone Analysis Laboratory, Department of Medicine and Epidemiology, School of Veterinary Medicine (Domingo-Neumann, Ruby, Ling, Johnson), and Department of Geology (Schiffman), University of California, Davis, CA 95616.

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Abstract

Objective

To elucidate the ultrastructural details of struvite-containing urinary calculi from dogs.

Sample Population

38 specimens were selected from a collection of approximately 13,000 canine urinary calculi: 18 of these were composed entirely of struvite, and 20 consisted of struvite and calcium phosphate (apatite).

Procedure

Qualitative and quantitative analyses of specimens included use of plain and polarized light microscopy, x-ray diffractometry, scanning electron microscopy with backscattered electron imagery, x-ray fluorescence scans, and electron microprobe analysis.

Results

4 textural types were recognized among struvite calculi, and 4 textural types of struvite-apatite calculi were described. Evidences of calculus dissolution were described from 4 calculi studied.

Conclusions

The presence of small, well interconnected primary pores in struvite-containing urinary calculi from dogs appears to be a significant factor in determining the possible interaction of calculi with changes in the urine composition. The progress of dissolution from the calculus surface to the calculus interior appears to be largely affected by the primary porosity originally present between crystals forming the calculus framework. Apatite was observed to be more resistant to dissolution than struvite.

Clinical Relevance

The prevalence of fine concentric laminations having low porosity, and the common occur-rence of apatite among struvite-containing urinary calculi from dogs may be 2 reasons why the efficacy of dietary and medicinal manipulations in dissolving urinary calculi is greater among cats than it is among dogs. (Am J Vet Res 1996;57:1274-1287)

Abstract

Objective

To elucidate the ultrastructural details of struvite-containing urinary calculi from dogs.

Sample Population

38 specimens were selected from a collection of approximately 13,000 canine urinary calculi: 18 of these were composed entirely of struvite, and 20 consisted of struvite and calcium phosphate (apatite).

Procedure

Qualitative and quantitative analyses of specimens included use of plain and polarized light microscopy, x-ray diffractometry, scanning electron microscopy with backscattered electron imagery, x-ray fluorescence scans, and electron microprobe analysis.

Results

4 textural types were recognized among struvite calculi, and 4 textural types of struvite-apatite calculi were described. Evidences of calculus dissolution were described from 4 calculi studied.

Conclusions

The presence of small, well interconnected primary pores in struvite-containing urinary calculi from dogs appears to be a significant factor in determining the possible interaction of calculi with changes in the urine composition. The progress of dissolution from the calculus surface to the calculus interior appears to be largely affected by the primary porosity originally present between crystals forming the calculus framework. Apatite was observed to be more resistant to dissolution than struvite.

Clinical Relevance

The prevalence of fine concentric laminations having low porosity, and the common occur-rence of apatite among struvite-containing urinary calculi from dogs may be 2 reasons why the efficacy of dietary and medicinal manipulations in dissolving urinary calculi is greater among cats than it is among dogs. (Am J Vet Res 1996;57:1274-1287)

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