Acceleration of small bowel transit in a canine hypermotility model with intestinal electrical stimulation.

Abstract

OBJECTIVE: Few studies have been performed on the effect of intestinal electrical stimulation (IES) on intestinal dysmotility. This study aimed to investigate the small intestine transit (SIT) in a canine model of intestinal hypermotility when applying IES. METHOD: Six hound bitches were surgically prepared with two chronic intestinal fistulas, intestinal serosal electrodes of which the proximal pair was used for serosal IES. Pacing wires were attached to a manometric catheter for mucosal IES. A nitrogen oxide synthase inhibitor, Nω-nitro-L-arginine (LNNA) was used to induce intestinal motility. SIT was measured during IES. The study consisted of four randomized sessions: session 1 (LNNA), session 2 (LNNA plus serosal IES), session 3 (LNNA plus mucosal IES) and session 4 (control). RESULTS: The intestine transit was slowed down from 31.7 ± 6.1 min in the control session to 49.0 ± 6.2 min after using LNNA (P = 0.003). Both mucosal and serosal IES accelerated SIT compared with the LNNA session. The SIT time was reduced to 17.7 ± 3.4 min in the mucosal IES session (P = 0.006 vs. LNNA) and 27.5 ± 6.3 min in the serosal IES session (P = 0.020 vs. LNNA). No difference was noted in the SIT time between mucosal and serosal IES (P = 0.128). CONCLUSION: IES significantly accelerates delayed SIT in a hypermotility model and intraluminal stimulation is as effective as a serosal one for IES, suggesting that IES may have a therapeutic potential for improving intestinal motility.