Effects of dietary fat and energy on body weight and composition after gonadectomy in cats.

OBJECTIVE: To evaluate the effect of dietary fat and energy density on body weight gain, body composition, and total energy expenditure (TEE) in neutered and sexually intact cats. ANIMALS: 12 male and 12 female cats PROCEDURE: Male cats were castrated (castrated male [CM]) or underwent no surgical procedure (sexually intact male [IM]). Female cats underwent ovariectomy (spayed female [SF]) or laparotomy and ligation of both uterine tubes without ovary removal (sexually intact female [IF]). Cats were fed either the low-fat (LF) or high-fat (HF) diet for 26 weeks, with the final allocation consisting of 8 groups: IF-LF IF-HE SF-LF, SF-HF IM-LF, IM-HF, CM-LF, and CM-HF. Mean food intake for each group was recorded daily, and body weight was monitored weekly throughout the study. Body composition and TEE were measured before surgery in week 0 and at the end of the study (week 26) by isotope dilution (double-labelled water). RESULTS: N eutered cats gained significantly more body fat and body weight (53.80+/-5.79%) than sexually intact cats (27.11+/-5.79%) during the study. Body weight gain of neutered cats fed the HF diet was greater than those fed the LF diet. Following correction for body composition, TEE was similar in all groups and no pattern towards increased food intake was evident. CONCLUSIONS AND CLINICAL RELEVANCE: Weight gain in neutered cats was decreased by feeding an LF, low energy-dense diet. To prevent weight gain in cats after neutering, a suitable LF diet should be fed in carefully controlled meals rather than ad libitum.

Restoration of the integrity of rat caeco-colonic mucosa by resistant starch, but not by fructo-oligosaccharides, in dextran sulfate sodium-induced experimental colitis.

Butyrate is recognised as efficient in healing colonic inflammation, but cannot be used as a long-term treatment. Dietary fibre that produces a high-butyrate level when fermented represents a promising alternative. We hypothesised that different types of dietary fibre do not have the same efficiency of healing and that this could be correlated to their fermentation characteristics. We compared short-chain fructo-oligosaccharides (FOS) and type 3 resistant starch (RS) in a previously described dextran sulfate sodium (DSS)-induced colitis model. Seventy-two Sprague-Dawley rats received water (control rats) or DSS (50 g DSS/l for 7 d then 30 g DSS/l for 7 (day 7) or 14 (day 14) d). The rats were fed a basal diet (BD), or a FOS or RS diet creating six groups: BD-control, BD-DSS, FOS-control, FOS-DSS, RS-control and RS-DSS. Caeco-colonic inflammatory injuries were assessed macroscopically and histologically. Short-chain fatty acids (SCFA) were quantified in caeco-colon, portal vein and abdominal aorta. At days 7 and 14, caecal and distal macroscopic and histological observations were improved in RS-DSS compared with BD-DSS and also with FOS-DSS rats. Caeco-colonic SCFA were reduced in FOS-DSS and RS-DSS groups compared with healthy controls. The amount of butyrate was higher in the caecum of the RS-DSS rats than in the BD-DSS and FOS-DSS rats, whereas distal butyrate was higher in FOS-DSS rats. Partially explained by higher luminal levels of SCFA, especially butyrate, the healing effect of RS confirms the involvement of some types of dietary fibre in inflammatory bowel disease. Moreover, the ineffectiveness of FOS underlines the importance of the type of dietary substrate.

Predominance of caecal injury in a new dextran sulphate sodium treatment in rats: histopathological and fermentative characteristics.

OBJECTIVES: Cyclic administrations of dextran sulphate sodium (DSS) alternating with distilled water usually induce chronic colitis after a few weeks. In order to obtain stable chronic colitis (without recovery or relapse) in a few days, a new continuous DSS treatment was tested and characterized. Short-chain fatty acids (SCFAs), which remain poorly documented in experimental colitis, were also investigated. METHODS: Thirty-six Sprague-Dawley rats were treated with 5% DSS for 7 days (DI) followed by 3% DSS for 7 days (DM) or 14 days (DF). Control rats received only water. Inflammatory injuries in the caecum and the colon were assessed by macroscopic (colon length, caecum weight, damages score) and histological parameters. SCFAs (acetate, propionate, butyrate) were quantified individually in caecal, proximal and distal contents. RESULTS: Macroscopic and histological observations revealed that this continuous DSS treatment induced acute inflammation (DI) followed rapidly by chronic active colitis. The latter was uncommonly predominant in the caecum and the distal colon, and was also associated with some fermentative disturbances. Caecal SCFA concentrations decreased with DSS at DI and DM. The molar ratio of caecal butyrate increased with DSS. Acetate decreased in the colon while propionate increased. CONCLUSION: This new DSS treatment is able to induce in a few days stable chronic inflammation with caecal and distal predominant injuries, and mild fermentative caeco-colonic alterations. This model could contribute to the study of potential anti-inflammatory effects of prebiotics.