Validation of a radioassay for the determination of serum folate and cobalamin concentrations in dogs

Determinations of serum folate and cobalamin concentrations in dogs have proved of considerable value for the identification and characterisation of chronic small intestinal disorders, but the microbiological assays used are time‐consuming and technically demanding. Dual isotope radio‐assays are more convenient and have been developed for the determination of folate and cobalamin in human beings. This study has evaluated such an assay for the determination of serum folate and cobalamin concentrations in dogs by direct comparison with microbiological assays used previously. Assays were performed on samples from 77 dogs, including controls and animals with confirmed or suspected chronic small intestinal disease. Regression analysis demonstrated a significant relationship between the two assays for serum folate concentrations (R=0–85; P=0–0001) and a definite trend for radioassay to give lower results than bioassay. There was also a significant relationship between bioassay and radioassay data for serum cobalamin (R=0–91; P=0–0001) with comparable absolute values for these two assays. Radioassay of serum samples from 31 clinically healthy dogs gave control ranges of 3–7 to 8‐8 4mUg/litre for folate and 205 to 490 ng/litre for cobalamin. These ranges were similar to those calculated by comparison with the established ranges for bioassay using regression analysis, which predicted ranges of 4‐4 to 8‐4 μg/litre and 217 to 398 ng/litre for radioassay of serum folate and cobalamin, respectively. These data indicate that a dual isotope radioassay of serum folate and cobalamin may be used for dogs, and emphasise the need for laboratories to validate and establish their own control ranges for different assays.