Variable effects of short chain fatty acids and lactic acid in inducing intestinal mucosal injury in newborn rats.

BACKGROUND: Short chain fatty acids and lactic acid are colonic bacterial fermentation products. METHODS: To evaluate the effects of these organic acids on the intestinal mucosa, a total of 72 newborn Sprague-Dawley rats (10 days old) were studied. A 3.5F catheter was inserted per rectum 4.0 cm deep into the proximal colon for organic acid administration at a volume of 0.1 ml/10 g body weight. The pH of organic acid solutions and normal saline was adjusted to 4.0. Group 1 (n = 10) received normal saline as a control. Group 2 (n = 11) received 150 mM acetic acid. Group 3 (n = 11) received 300 mM acetic acid. Group 4 (n = 10) received 150 mM butyric acid. Group 5 (n = 11) received 300 mM butyric acid. Group 6 (n = 7) received 150 mM lactic acid, and group 7 (n = 12) received 300 mM lactic acid. Animals were killed 24 hours after colonic installation of test solutions. RESULTS: Both 300 mM acetic acid and 300 mM butyric acid were associated with impaired weight gain, increased colon wet weight, and increased histologic injury scores in the colon and distal ileum (P < 0.05, analysis of variance). Both 150 mM acetic acid and butyric acid at 150 mmol/L induced minimal injury in the colon and distal ileum. Neither 150 mM nor 300 mM lactic acid induced any identifiable gross or microscopic intestinal mucosal injury. CONCLUSION: Luminal short chain fatty acids can induce dose-dependent intestinal mucosal injury in newborn rats, resembling the pathology seen in neonatal necrotizing enterocolitis. Overproduction/accumulation of short chain fatty acids, but not lactic acid, in the proximal colon and/or distal ileum may play a role in the pathogenesis of necrotizing enterocolitis in premature infants.

Vitamin A supplementation ameliorates butyric acid-induced intestinal mucosal injury in newborn rats.

Vitamin A (vit A) plays an important role in wound healing and therefore may help in repairing of intestinal mucosal injury. The purpose of this study was to determine if vit A supplementation could promote healing in intestinal mucosal injury as commonly seen in neonatal necrotizing enterocolitis (NEC). Mild intestinal mucosal injury was induced in 10-day-old Sprague-Dawley rats by luminal administration of 1.5% butyric acid (BA) at pH 4.0. Normal saline at the same pH was administered as control. Immediately after administrations of BA or normal saline, animals were randomly assigned to receive high dose vit A (20,000 IU/kg for one dose, i.p.), low dose vit A (5,000 IU/kg for two doses) or vehicle. Animals were followed for 48 hours and then sacrificed for histological examination. Rats with BA-induced intestinal mucosal injury had a reduction in daily weight gain (p < 0.05). Vit A supplementation significantly improved the daily weight gain in the rats with BA-induced intestinal mucosal injury and the effect is dose dependent. At sacrifice, the colon wet weight was significantly heavier and the histological injury scores from both ileum and proximal colon higher in the rats with BA-induced intestinal mucosal injury. All of those parameters were improved with vit A supplementation. We conclude that vit A supplementation ameliorates BA induced-intestinal mucosal injury in newborn rats.