Rachel Lavoué

Breed-specific biochemical reference intervals for the adult Dogue de Bordeaux.

BACKGROUND Breed-specific reference intervals are of increasing interest in veterinary medicine. The health monitoring of the Dogue de Bordeaux, a breed predisposed to familial juvenile glomerulonephropathy and hypothyroidism, would benefit from specific reference intervals. OBJECTIVE The purpose of this study was to establish breed-specific biochemical reference intervals for the Dogue de Bordeaux in accordance with the International Federation of Clinical Chemistry and Clinical and Laboratory Standards Institute guidelines. METHODS One hundred and twenty Dogues de Bordeaux from France and Belgium were recruited. Complete urinalysis and chemistry panels, venous blood gas variables, total thyroxin and thyroid stimulating hormone, and fibrinogen and antithrombin were measured for each dog. Reference intervals were determined using the non-parametric method. Confounding variables such as sex, age and color of facial mask were analyzed. RESULTS Due to pre-defined criteria for exclusion, 62 healthy dogs were finally selected for the reference intervals determination. Using the instrument manufacturers generic canine RI for most analytes did not have a significant impact on potential clinical decisions, except for total proteins, ALT, AST, total cholesterol, lipase and total thyroxin, for which possible clinically relevant differences were noted. CONCLUSION Specific reference intervals for biochemical analytes in the Dogue de Bordeaux were determined under controlled pre-analytical and analytical conditions, and according to international recommendations. The use of these breed-specific reference intervals is recommended when using the specified analytic instruments, especially for the 6 analytes for which the reference intervals differed considerably from those provided by manufacturers.

Progressive Juvenile Glomerulonephropathy in 16 Related French Mastiff (Bordeaux) Dogs

BACKGROUND Familial juvenile glomerulonephropathy (JGN) is reported in several breeds of dogs. The mode of inheritance and spectrum of pathological lesions vary among breeds. A progressive JGN was detected in a pedigree of French Mastiff (FM) dogs. OBJECTIVES To describe clinical, laboratory, and histopathologic findings in related FM dogs suffering from progressive JGN and to determine the mode of inheritance of this condition. ANIMALS Sixteen affected and 35 healthy related FM dogs METHODS FM dogs < 24 months of age and diagnosed with chronic kidney disease with evidence of proteinuria entered the study. Clinical, laboratory, histopathologic findings, and pedigree data were recorded. RESULTS Clinical signs were typical of progressive glomerulopathy with resultant renal failure. Increased blood urea nitrogen, creatinine and total cholesterol concentrations, and proteinuria were found in all patients. Affected dogs had abnormal kidney structure on abdominal ultrasound examination. Histopathologic examination revealed extensive cystic glomerular atrophy, glomerular hypercellularity, and capillary wall thickening without immune complex deposition when tested with immunohistochemistry or immunofluorescence. Electron microscopy did not disclose specific primary glomerular lesions. Mean age at death was 20 months and mean length of survival after diagnosis was 6 months. Both males and females from healthy parents were affected. An autosomal recessive mode of transmission is suspected, but a more complex mode of inheritance cannot be excluded. CONCLUSIONS AND CLINICAL IMPORTANCE Progressive familial JGN occurs in FM dogs. Characterization of the pathogenesis and mode of inheritance of this disease warrants additional study.

Assessment of Toll-like receptor 2, 4 and 9 SNP genotypes in canine sino-nasal aspergillosis

BackgroundThe exact aetiology of canine sino-nasal aspergillosis (SNA) is unknown. In man, dysfunction in innate immunity, particularly in the function of pattern recognition receptors, is implicated in the pathogenesis of inflammatory sino-nasal disease and in fungal diseases. Associations between single nucleotide polymorphisms (SNPs) in Toll-like receptors (TLRs) and these diseases have been identified. Similarly, in dogs SNPs in genes encoding TLRs may be important in the pathogenesis of SNA. The aims of the present study were (1) to identify the presence of non-synonymous SNPs in the coding regions of the TLR2, 4 and 9 genes in dogs suffering from SNA, and (2) to investigate the SNP genotypes in dogs with SNA compared with a control population.ResultsDirect sequencing of nine dogs of various breeds with SNA revealed two non-synonymous SNPs in the coding region of TLR2, eight in TLR4 and four in TLR9. These non-synonymous SNPs were further evaluated in a case-control study of affected Golden Retrievers, Labrador Retrievers, Rottweilers and Beaucerons. Genotyping was performed using a combination of allele-specific primers and hydrolysis probe assays in 31 dogs with SNA and 31controls. No significant difference in minor allele frequency was identified between these groups, for all studied SNPs, in any of the four breeds.ConclusionsThese findings do not support a role for non-synonymous SNPs in the TLR 2, 4 and 9 coding regions in the pathogenesis of canine SNA, but do not exclude a role for innate immunity in the pathogenesis of the disease.

Effects of storage conditions on results for quantitative and qualitative evaluation of proteins in canine urine

OBJECTIVE To investigate effects of storage conditions on the canine urine protein-to-creatinine ratio (UPC) and on SDS-agarose gel electrophoresis (AGE) of urinary proteins. SAMPLE Urine specimens from 20 proteinuric (UPC > 0.5) and 20 nonproteinuric (UPC ≤ 0.2) dogs. PROCEDURES UPC and SDS-AGE were performed on urine specimens stored at room temperature (20°C) and 4°C for up to 5 days and at -20° and -80°C for up to 360 days; some specimens were subjected to 3 freeze-thaw cycles. Results were compared with those obtained for fresh urine specimens. RESULTS UPC was not affected by storage at room temperature or by freezing. A decrease in UPC was observed for specimens from nonproteinuric dogs after 5 days at 4°C (10%) and from both groups after 90 days at -20° and -80°C (≤ 20% and ≤ 15%, respectively). The SDS-AGE profiles revealed no visual changes regardless of duration of storage for specimens stored at room temperature, 4°C, and -80°C, except for 1 profile after 360 days at -80°C. Repeated freeze-thaw cycles did not affect SDS-AGE profiles. Appearance or strengthening of high-molecular-weight bands that could alter interpretation was evident in SDS-AGE profiles after storage at -20°C for ≥ 15 days (31/40 dogs). CONCLUSIONS AND CLINICAL RELEVANCE Storage of urine at -20° or -80°C for up to 1 year influenced the UPC without affecting clinical interpretation. Storage of urine specimens at -20°C impaired visual analysis of SDS-AGE. When SDS-AGE cannot be performed on fresh or recently refrigerated urine specimens, storage at -80°C is recommended.