Prospective comparison of prostatic aspirate culture and cystocentesis urine culture for detection of bacterial infection in dogs with prostatic neoplasia.

OBJECTIVE: The purpose of this study was to determine whether prostatic aspirate culture is a superior method to detect infection compared to culture of urine collected by cystocentesis in dogs with prostatic neoplasia. MATERIALS AND METHODS: A prospective study was conducted and dogs with suspected or confirmed prostatic neoplasia were enrolled. Urinalysis was done and culture and antimicrobial susceptibility testing was performed on paired urine and prostatic aspirate samples collected at a single timepoint. RESULTS: Ten dogs with prostatic neoplasia were enrolled. All dogs had one or more clinical sign consistent with lower urinary tract disease. One dog (10%) had a positive urine culture, but negative prostatic aspirate culture, one dog (10%) had a positive prostatic aspirate culture, but negative urine culture, and one dog (10%) had both positive urine and prostatic aspirate cultures. Using prostatic aspirate culture as the reference standard, urine culture had a sensitivity for detecting infection of 87.5% (95% confidence interval 52.9 to 99.4) and specificity of 50% (92.6 to 97.4) in this population of dogs. CLINICAL SIGNIFICANCE: Positive cultures were uncommon with both culture collection methods. Study results did not identify prostatic aspirate culture to be a more sensitive method of detecting prostatic infection than urine culture collected by cystocentesis in these dogs with prostatic neoplasia.

Assessment of Canine Pancreas-Specific Lipase and Outcomes in Dogs with Hemodialysis-Dependent Acute Kidney Injury.

BACKGROUND: Renal replacement therapies can be life-saving for dogs with severe acute kidney injury (AKI), however, comorbidities including pancreatitis might affect outcome. HYPOTHESIS/OBJECTIVES: To investigate the prevalence of pancreas-specific lipase (Spec cPL) measurements consistent with pancreatitis (≥400 µg/L) in dogs undergoing intermittent hemodialysis (IHD) for treatment of AKI and to determine whether there were associations between 30-days outcomes and Spec cPL measurements. ANIMALS: Fifty-three client-owned dogs presented to teaching hospitals between November 2008 and September 2016 that underwent IHD. METHODS: Retrospective medical record review from dogs that received IHD for management of AKI and also had a Spec cPL measurement. Association between survival, dialysis-dependency, and Spec cPL measurements was assessed. RESULTS: Forty of 53 (76%) dogs were alive at 30-days and 33/53(62%) had a Spec cPL result ≥400 µg/L. Spec cPL was not significantly different either between surviving (635.5 µg/L, range 29-1,001) and nonsurviving dogs (860 µg/L, range 56-1,001; P = 0.75) or between dialysis-dependent (1,001 µg/L, range 177-1,001) and nondialysis-dependent dogs (520 µg/L, range 29-1,001; P = 0.08). Spec cPL ≥400 µg/L was not significantly associated either with survival (P = 0.74) or dialysis-dependency (P = 0.33). CONCLUSIONS AND CLINICAL IMPORTANCE: Results revealed a high prevalence of Spec cPL ≥400 µg/L in dogs with AKI treated with IHD. No significant associations between Spec cPL and survival or dialysis-dependency in dogs with AKI at 30 days were identified in the current study, however, the latter could be due to lack of power in this study.

Urinary Neutrophil Gelatinase-associated Lipocalin as a Marker for Identification of Acute Kidney Injury and Recovery in Dogs with Gentamicin-induced Nephrotoxicity.

BACKGROUND: Acute kidney injury (AKI) is associated with high mortality rates in dogs, which may be a consequence of late recognition using traditional diagnostic tests. Neutrophil gelatinase-associated lipocalin (NGAL) is a protein-induced during kidney injury that may identify AKI earlier than traditional tests. OBJECTIVES/HYPOTHESIS: To evaluate urinary NGAL (uNGAL) and uNGAL-to-urinary creatinine ratio (UNCR) as early markers of kidney injury and recovery in an AKI model in dogs. It was hypothesized that these markers would document AKI earlier than serum creatinine concentration. ANIMALS: Five purpose-bred dogs. METHODS: Prospective study. Acute kidney injury, defined as a > 50% increase in serum creatinine concentration above baseline, was induced in dogs by gentamicin administration (8-10 mg/kg SC q8h). Blood and urine collected for biochemical analyses and uNGAL and urinary creatinine concentrations, respectively, during AKI induction and recovery. RESULTS: Acute kidney injury was diagnosed significantly earlier based on a 7-fold increase in UNCR compared to a > 50% increase in serum creatinine concentration (day 8; range, 2-10 mg/dl vs day 16; range, 14-19 mg/dl; P = .009). During recovery, the initial decrease in UNCR preceded the decrease in serum creatinine concentration by a median of 2 days. The uNGAL changes paralleled UNCR changes, but the increase in uNGAL was triphasic; the initial peak occurred earlier than UNCR (median, day 11 versus median, day 19). CONCLUSIONS AND CLINICAL IMPORTANCE: The UNCR was early marker of gentamicin-induced AKI and its decrease documented onset of renal recovery. Additional studies are needed to validate this marker in dogs with naturally occurring renal injury.

Evaluation of Canine Pancreas-Specific Lipase Activity, Lipase Activity, and Trypsin-Like Immunoreactivity in an Experimental Model of Acute Kidney Injury in Dogs.

BACKGROUND: Diagnosis of pancreatitis in dogs is complicated by extrapancreatic disorders that can alter the results of laboratory tests. Extrapancreatic disorders can also affect the diagnosis of exocrine pancreatic insufficiency (EPI). The effects of acute kidney injury (AKI) on pancreas-specific lipase activity (Spec cPL(®) Test), serum lipase activity and trypsin-like immunoreactivity (TLI) in dogs have not been evaluated. HYPOTHESIS/OBJECTIVES: Serum Spec cPL, lipase activity, and TLI concentrations will increase secondary to decreased kidney function. ANIMALS: Five purpose-bred dogs. METHODS: Experimental prospective study. Gentamicin was used to induce AKI in 5 purpose-bred dogs. Serum samples were collected for measurement of creatinine, Spec cPL, lipase activity and TLI over 60 days, during both induction of, and recovery from, AKI. RESULTS: All dogs developed and recovered from AKI. Six of 52 (12%) serum Spec cPL concentrations were increased (2 in the equivocal zone and 4 consistent with pancreatitis) in 2 of 5 (40%) dogs. Two of 51 (4%) serum lipase activity values were increased in 2 of 5 dogs. Serum TLI was increased above the reference range in 17 of 50 (34%) samples in 3 of 5 dogs. For all biomarkers, there was no consistent correlation with increases in serum creatinine concentration. CONCLUSIONS AND CLINICAL IMPORTANCE: Decreased renal excretion during experimental AKI did not cause consistent and correlated increases in serum Spec cPL, lipase activity, or TLI in this cohort of dogs.

An investigation of the action of Neutral Protamine Hagedorn human analogue insulin in dogs with naturally occurring diabetes mellitus.

BACKGROUND: Neutral Protamine Hagedorn human analogue insulin (Humulin N) is commonly used for treatment of canine diabetes mellitus (DM). However, blood glucose and serum insulin concentrations in Humulin N-treated dogs with naturally occurring DM have not been reported. OBJECTIVE: To investigate blood glucose and serum insulin concentrations in the clinical setting of client-owned Humulin N-treated dogs with naturally occurring, well-regulated DM. ANIMALS: Ten client-owned dogs with naturally occurring, well-regulated DM. METHODS: In this clinical study, blood glucose and serum insulin concentrations were measured when dogs received food and insulin (T(0)), at approximately every half hour for the next 2 hours, and then approximately every 2 hours for an additional 8 hours. Insulin duration of action was defined as the number of hours from T(0) to the lowest blood glucose concentration and until blood glucose concentration returned to an interpolated value of 70% of basal blood glucose concentration (Glucose(b)). RESULTS: Mean percent of insulin-induced blood glucose suppression was 49.9 +/- 17.1% (median, 46%; range, 29-78%). Insulin duration of action ranged from 4 to 10 hours. Blood glucose concentration increased initially and returned to Glucose(b) within 0.6-2.2 hours after T(0) in 5 dogs. This initial blood glucose surge then was followed by blood glucose suppression in all 5 dogs. CONCLUSIONS AND CLINICAL IMPORTANCE: These results suggest that Humulin N administered SC twice daily is an effective mode of treatment for dogs with naturally occurring DM. Postprandial hyperglycemia is present in some well-regulated diabetic dogs treated with Humulin N.

Synchronizing N release from organic residues: opportunities for integrated management of N.

In intensive cropping systems, mineral nitrogen (N) fertilizers represent the largest component of the N cycle because the indigenous N supply is not adequate. The requirement for mineral fertilizer may be reduced with the use of organic nutrient sources. A more realistic use of organic matter, particularly in sub-Saharan Africa due to limited amounts and availability, is the combined use of organic nutrient sources and mineral fertilizers. The beneficial effects of integrated use of inorganic fertilizers and organic manures on improved nutrient recoveries, soil moisture retention, cation exchange capacity, and erosion control have been reported. However, there are as many reports indicating negligible benefits or even disadvantages of combining nutrient sources on crop production. This is not surprising given the combination of organic residue sources, soils, climatic, crops, and management factors that influence nutrient dynamics. The most widely accepted function of organic materials is improving the nutrient availability to crops by supplying N. The key to both improving efficiency of N use and reducing N losses is synchronization of N supply from soil, biological N2 fixation, organic residues, and inorganic fertilizers with the crop N demand. Organic materials are not magic; N losses also result from their use. Controlling N release from organic sources depends on their nutrient content and quality, soil properties, and the environmental and management factors. This paper will synthesize the information generated from integrated nutrient management trials in sub-Saharan Africa and the Philippines. Management strategies based on an organic resources database and a dynamic soil-crop simulation model are used to identify organic sources as N fertilizers or soil amendments. The decision support tools are also used to attain optimum synchrony between release from organic sources and soils with crop N demand.