Case Description—A 1-year-old spayed female mixed-breed dog was evaluated because of urinary incontinence, polyuria, polydipsia, and minimally concentrated urine.
Clinical Findings—Markedly high circulating alanine transaminase activity, mildly high circulating alkaline phosphatase activity, and low urine specific gravity were detected for the dog. Results of ultrasonographic examination of the abdomen and cytologic examination of liver samples were unremarkable. Carprofen was detected in serum and plasma samples obtained from the dog. Exposure to carprofen was attributed to ingestion of feces of another dog in the household that was receiving the drug daily.
Treatment and Outcome—Access to feces of other dogs in the household was prevented; no other treatment was initiated. Urinary incontinence, polyuria, and polydipsia resolved, and urine specific gravity increased within 7 days following discontinuation of consumption of feces. Alanine transaminase activity was substantially lower than the value determined during the initial examination, and alkaline phosphatase activity was within the reference range 5 weeks after discontinuation of consumption of feces by the dog.
Clinical Relevance—Findings for the dog of this report suggested that carprofen toxicosis can be caused by consumption of feces of another dog receiving the drug. This cause of adverse effects should be a differential diagnosis for dogs with clinical signs and clinicopathologic abnormalities consistent with carprofen toxicosis.
Objective—To evaluate intestinal permeability and
gluten sensitivity in a family of Soft-Coated Wheaten
Terriers (SCWT) affected with protein-losing
enteropathy (PLE), protein-losing nephropathy (PLN),
Animals—6 affected adult dogs.
Procedure—Intestinal biopsy specimens, urine protein-
to-creatinine ratio, serum concentrations of albumin
and globulin, and concentration of α1-protease
inhibitor in feces were evaluated before, during, and
13 weeks after daily administration of 10 g of gluten
for 7 weeks. Eosinophils and lymphocytes-plasmacytes
were enumerated in intestinal biopsy specimens.
Intestinal permeability was evaluated before
and during the sixth week of gluten administration via
cellobiose-mannitol and chromium-EDTA absorption
Results—Serum globulin concentration decreased significantly
after prolonged administration of gluten.
Although not significant, there was an increase in lymphocytes-
plasmacytes and a decrease in eosinophils in
intestinal biopsy specimens. Furthermore, these counts
were greater than those reported for clinically normal
dogs. Gluten administration did not increase intestinal
Conclusions and Clinical Relevance—Daily administration
of gluten was associated with a significant
decrease in serum globulin concentration in SCWT
affected with PLE or PLN, but other variables
remained unchanged. Although enhanced wheatgluten
sensitivity may be one factor involved in the
pathogenesis of PLE or PLN in SCWT, this syndrome
does not appear to be the result of a specific sensitivity
to gluten. (Am J Vet Res 2000;61:518–524)
Objective—To evaluate perinuclear anti-neutrophilic cytoplasmic autoantibody (pANCA) status in Soft Coated Wheaten Terriers (SCWTs) and SCWT-Beagle crossbred dogs and to correlate pANCA status of dogs with clinicopathologic variables of protein-losing enteropathy (PLE), protein-losing nephropathy (PLN), or both.
Animals—13 SCWTs and 8 SCWT-Beagle crossbred dogs in a research colony and a control group comprising 7 dogs with X-linked hereditary nephropathy and 12 healthy SCWTs > 9 years old.
Procedures—Samples were obtained from dogs in the research colony every 6 months. At each sample-collection time point, serum concentrations of albumin, globulin, creatinine, and urea nitrogen; fecal concentration of α-proteinase inhibitor; and urinary protein-to-creatinine ratios were determined and correlated with pANCA status.
Results—20 of 21 dogs in the research colony had positive results for pANCAs at a minimum of 2 time points, and 18 of 21 dogs had definitive evidence of disease. None of the control dogs had positive results for pANCAs. A positive result for pANCAs was significantly associated with hypoalbuminemia, and pANCAs preceded the onset of hypoalbuminemia on an average of 2.4 years. Sensitivity and specificity for use of pANCAs to predict development of PLE or PLN were 0.95 (95% confidence interval, 0.72 to 1.00) and 0.8 (95% confidence interval, 0.51 to 0.95), respectively.
Conclusions and Clinical Relevance—Most dogs in this study affected with PLE, PLN, or both had positive results for pANCAs before clinicopathologic evidence of disease was detected. Thus, pANCAs may be useful as an early noninvasive test of disease in SCWTs.
Objective—To evaluate the use of dipstick, sulfosalicylic acid (SSA), and urine protein-tocreatinine ratio (UP:C) methods for use in detection of canine and feline albuminuria.
Sample Population—599 canine and 347 feline urine samples.
Procedures—Urine was analyzed by use of dipstick, SSA, and UP:C methods; results were compared with those for a species-specific ELISA to determine sensitivity, specificity, positive predictive value (PPV), negative predictive value, and positive and negative likelihood ratios.
Results—Positive results for dipstick and SSA tests (trace reaction or greater) in canine urine had moderate specificity (dipstick, 81.2%; SSA, 73.3%) and poor PPV (dipstick, 34.0%; SSA, 41.8%). Values improved when stronger positive results (≥ 2+) for the dipstick and SSA tests were compared with ELISA results (specificity, 98.9% and 99.0% for the urine dipstick and SSA tests, respectively; PPV, 90.7% and 90.2% for the dipstick and SSA tests, respectively). Data obtained for cats revealed poor specificity (dipstick, 11.0%; SSA, 25.4%) and PPV (dipstick, 55.6%; SSA, 46.9%). Values improved slightly when stronger positive test results (≥ 2+) were used (specificity, 80.0% and 94.2% for the dipstick and SSA tests, respectively; PPV, 63.5% and 65.2% for the dipstick and SSA tests, respectively). The UP:C had high specificity for albuminuria in dogs and cats (99.7% and 99.2%, respectively) but low sensitivity (28.7% and 2.0%, respectively).
Conclusions and Clinical Relevance—Caution should be used when interpreting a positive test result of a dipstick or SSA test for canine or feline albuminuria.