In this study, we measured the insulin-like growth factor (IGF)-I levels and evaluated the serum protein profiles of diabetic, insulin-treated, and healthy cats and dogs. The total IGF-I concentrations were 33.74 +/- 3.4 ng/mL for normal, 25.8 +/- 4.5 ng/mL for diabetic, and 180.4 +/- 31.4 ng/mL for insulin-treated cats. IGF-I concentrations were 46.4 +/- 6.6 ng/mL for normal, 25.1 +/- 4.1 ng/mL for diabetic, and 303.0 +/- 61.3 ng/mL for insulin-treated dogs. Total serum protein profiles were analyzed by SDS-PAGE. Fourteen bands ranging from 25 to 240 kDa in size were observed for cats, and 17 bands ranging from 25 to 289 kDa were observed for dogs. The densities of the bands differed among control, diabetic, and insulin-treated animals. In conclusion, we found that serum protein profiles and IGF-I concentrations were altered in both diabetic and insulin-treated animals. When judiciously interpreted in the light of other clinical and laboratory data, the techniques used in our study provide a valuable modality for measuring the severity of diabetes mellitus in dogs and cats.
Animals ; Blood Glucose ; Blood Proteins/*metabolism ; Cat Diseases/blood/drug therapy/*metabolism ; Cats ; Diabetes Mellitus, Type 2/blood/drug therapy/metabolism/*veterinary ; Dog Diseases/blood/drug therapy/*metabolism ; Dogs ; Insulin/therapeutic use ; Insulin-Like Growth Factor I/*metabolism

An 8-year-old male Austrian Pinscher and a 14-year-old male Golden Retriever were presented for evaluation due to unexplainable high fructosamine values despite euglycemia and epistaxis in combination with polydipsia/polyuria, respectively. Blood analysis revealed severe hyperglobulinemia, hypoalbuminemia and markedly elevated fructosamine concentrations in both dogs. Multiple myeloma with IgA-monoclonal gammopathy was diagnosed by serum and urine electrophoresis including immunodetection with an anti-dog IgA antibody and bone marrow aspirations. Diabetes mellitus was excluded by repeated plasma and urine glucose measurements. Fructosamine values were positively correlated with globulin, but negatively correlated with albumin concentrations. These cases suggest that, as in human patients, monoclonal IgA gammopathy should be considered as a possible differential diagnosis for dogs with high fructosamine concentrations.
Animals ; Blood Proteins/analysis ; Dog Diseases/*blood/drug therapy ; Dogs ; Fructosamine/*blood ; Immunoglobulin A/*metabolism ; Male ; Melphalan/therapeutic use ; Multiple Myeloma/complications/drug therapy/*veterinary ; Myeloablative Agonists/therapeutic use ; Paraproteinemias/blood/complications/drug therapy/*veterinary

The hypoglycemic effects after oral administration of vanadium have been studied previously in many species such as rats, mice and even humans. However, there has been no prior report on the glucose lowering effect of vanadium on diabetic dogs. Therefore, the purpose of this study was to evaluate the hypoglycemic effects of oral vanadium on diabetic dogs. Diabetes mellitus in the dogs studied was induced by alloxan monohydrate intravenous injection. The dogs were divided into two groups, one was the diabetic control (DC) group (n = 4) and the other was the vanadium treated (DV) group (n = 6). Fresh water was supplied to the dogs in the DC group, but sodium metavanadate solution (0.1~0.2 mg/ml) was given to the dogs in DV group from one week after the alloxan injection. The fasting glucose levels, fructosamine and serum chemistry profiles were compared between the two groups weekly for three weeks. The fasting blood glucose levels in DV group were significantly lower than those in the DC group (p < 0.01). Fructosamine levels in the DV group were also lower than those in the DC group (p < 0.05). The serum chemistry profiles were not significantly different in comparisons between the two groups. However, the cholesterol levels were significantly lower in the DV group compared to the DC group (p < 0.05). Our findings showed that oral vanadium administration had a hypoglycemic effect on chemically induced diabetic dogs.
Alanine Transaminase/blood ; Alkaline Phosphatase/blood ; Animals ; Aspartate Aminotransferases/blood ; Blood Glucose/metabolism ; Blood Urea Nitrogen ; Chlorides/blood ; Cholesterol/blood ; Creatinine/blood ; Diabetes Mellitus, Experimental/blood/*drug therapy ; Dog Diseases/blood/*drug therapy ; Dogs ; Female ; Fructosamine/blood ; Hypoglycemic Agents/*pharmacology ; Male ; Pancreas/drug effects/pathology ; Potassium/blood ; Random Allocation ; Sodium/blood ; Triglycerides/blood ; Vanadates/*pharmacology