A meta-analysis: Dietary carbohydrates do not increase body fat or fasted insulin and glucose in cats.

Commercial cat foods contain a greater carbohydrate content, as nitrogen-free extract (NFE), compared to a typical prey species. This has led to postulations that increased carbohydrate intake is causing a rise in obesity and insulin resistance in cats. Studies investigating high carbohydrate diets on insulin and glucose responses show inconsistent results. A meta-analysis using 16 studies was conducted to elucidate the relationship between NFE content and body fat mass (BFM, n=9), fasted insulin (n=12), and fasted glucose concentrations (n=14). Dietary NFE, fat, and protein content (% metabolizable energy), as well as daily energy intake (DEI), body weight, body condition (lean, obese), and study design metrics were considered as fixed effects in univariate and multivariate models using proc mixed in SAS, treating study as a random effect. Model evaluation was conducted using corrected Akaike Information Criteria, concordance correlation coefficient, and the root mean square prediction error. The best fitting model for BFM was the interaction between NFE content and DEI, predicting BFM to decrease when NFE content increased as a proportion of the DEI (P<0.05). From univariate models, fasted insulin was positively associated with BFM and dietary fat content (P<0.05), whereas an increase in NFE content was associated with a decrease in fasted insulin in a subgroup of studies (n=6) of only lean cats (P<0.05). No significance was observed for models predicting fasted glucose from diet or body composition variables (P>0.05). The results of this meta-analysis indicate that dietary carbohydrates (NFE), included between 2.8 - 57 % ME, are not a risk factor for greater BFM, fasted insulin, and glucose concentrations in cats, suggesting that NFE does not pose a risk for feline obesity, IR, or hyperglycemia. However, future studies should consider post-prandial responses of insulin and glucose to macronutrient compositions to further investigate the role of dietary carbohydrates on IR in cats, with particular attention to the role of dietary fat, and the role of body condition.