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Diagnostic update in canine and feline uroliths
Many protocols have been developed to promote dissolution and prevention of all major types of canine and feline uroliths. However, because the underlying causes of different types of uroliths vary, medical protocols that promote their dissolution and prevention vary. Carl Osborne, one of the world´s most famous and experienced urologists, gives an excellent overview about uroliths and their diagnosis.


1. Uroliths are always the sequela of one or more underlying inherited, congenital, and/or acquired disorders. Therefore, detection of uroliths should not be accepted as an endpoint of diagnostic investigation.

2. Although some types of uroliths occur with greater frequency in some species and breeds, breed predisposition should not be used as primary criteria for diagnosis of the mineral composition of uroliths. For example, of 9,541 uroliths formed by Dalmatian dogs and submitted to the Minnesota Urolith Center, 9,095 were composed of urates. However, 185 were of mixed composition, 155 were compound stones, 43 were struvite, 21 were composed of calcium oxalate, four were composed of silica, three were composed of cystine and three were composed of calcium phosphate.

3. Urocystoliths and urethroliths that occur in immature dogs and cats are usually composed of struvite caused by infections with urease producing microbes (especially staphylococci). Metabolic uroliths (such as calcium oxalate and cystine uroliths) are uncommonly encountered in immature patients. Two notable exceptions to this generality are the formation of ammonium urate uroliths in dogs with portovascular anomalies, and formation of cystine uroliths by Newfoundlands.

4. Most feline nephroliths are composed of calcium salts (calcium oxalate or calcium phosphate). Calcium containing nephroliths are being recognized with increased frequency in cats with chronic renal failure. Only about 5 percent of feline nephroliths are struvite.

5. Palpation of the urethra (including palpation per rectum) should routinely be performed in patients suspected of having uroliths.

6. Most (~90 percent) urocystoliths in cats cannot be detected by abdominal palpation. Radiographic or ultrasonographic evaluation of the urinary tract is required to detect them consistently.

7. It may be impossible to palpate urocystoliths in a patient with a distended or overdistended urinary bladder. The urinary bladder should be palpated after urine has been eliminated by (depending on circumstances) voiding, manual compression, cystocentesis or catheterization.

8. Detection of crystals in urine is proof that the urine sample is oversaturated with crystallogenic substances. However, in vitro oversaturation may occur in addition to, or instead of, in vivo events. Therefore, care must be used not to over-interpret the significance of crystalluria. In vitro crystal formation may have no clinical relevance to in vivo formation of crystals.

9. Change in temperature associated with preservation of urine by refrigeration is a common cause of in vitro crystalluria. Therefore, presence of crystals in stored samples should be validated by reevaluation of fresh urine.

10. In vitro changes in urine pH also cause changes in crystalluria. When substantial time is expected to lapse between the urine collection and urine analysis, urine pH values should be obtained immediately following collection and again at the time of the analysis. Differences between the two pH values suggest that in-vitro changes have occurred, and should be considered when interpreting the significance of crystalluria. This is especially important when sending samples to diagnostic laboratories.

11. Urine pH values obtained by strips (colorimetric dyes) may vary by as much as 0.5 unit on either side of the observed value. This variation is associated with logarithmic changes in hydrogen ion concentration. Therefore, when precise urine pH values are needed, they should be obtained with the aid of a portable pH meter.

12. Urine samples collected and submitted by clients are often unreliable because unknown variables including contamination, temperature and length of storage, and changes in urine pH may result in formation or dissolution of crystals after sample collection.

13. Consider the patient`s diet when interpreting the significance of crystalluria because crystalluria may also be influenced by diet (including water intake). Dietary influence on crystalluria is of diagnostic importance because urine crystal formation that occurs while patients are consuming hospital diets may be dissimilar to urine crystal formation that occurs when patients are consuming diets fed at home.

14. Struvite crystals are often observed when urine pH is slightly acid (6.5) or alkaline. They are unlikely to be observed when urine pH is - 6.3.

15. Urine sediment should be observed for a tendency of crystal aggregation in addition to crystal type. Crystals that aggregate in vivo represent a greater risk for urolith formation than single crystals.

16. Detection of unusual crystals in the urine of patients receiving medications should prompt consideration that they may be drug metabolites. Drug associated crystalluria in dogs and cats includes sulfadiazine and its metabolites.

17. Characterization of amorphous (i.e. without shape) crystals is especially difficult. Calcium phosphate may form amorphous crystals in alkaline urine; ammonium urate and xanthine may form amorphous crystals in acid urine. Other types of crystals may also be amorphous. Addition of 10 percent acetic acid usually results in dissolution of calcium phosphate crystals and often results in formation of characteristic diamond or rhomboid shaped uric acid crystals from amorphous urate crystals.

Source: Osborne, C.A. (2004): Improving management of urolithiasis: diagnostic caveats. In: DVM Newsmagazine January 1, 2004. www.dvmnewsmagazine.com/dvm/







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SMALL ANIMAL PRACTICE

Reference intervals for blood parameters in Shetland Sheepdogsmembers
Several breeds have physiological peculiarities that induce variations in reference intervals (RIs) compared with the general canine population. Shetland sheepdogs (SSs) are reported to be more predisposed to different diseases (eg, hyperlipidemia, gallbladder mucocele, and hypothyroidism). Consequently, a breedâ€specific approach is more often required. Thus, the aim of this study was to determine whether the RIs of the general canine population could be applied to that of SSs, and to generate breedâ€specific RIs, where appropriate.

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