Your search keyword '"Gardaz, J.-P."' showing total 2 results

1. Electrical colonic stimulation reduces mean transit time in a porcine model.

Author

Vaucher J, Cerantola Y, Gie O, Letovanec I, Virag N, Demartines N, Gardaz JP, and Givel JC

Subjects

Animals, Colon anatomy & histology, Contrast Media metabolism, Electrodes, Implanted, Female, Humans, Models, Animal, Swine, Colon physiology, Electric Stimulation, Gastrointestinal Transit physiology

Abstract

Electrical stimulation is a new way to treat digestive disorders such as constipation. Colonic propulsive activity can be triggered by battery operated devices. This study aimed to demonstrate the effect of direct electrical colonic stimulation on mean transit time in a chronic porcine model. The impact of stimulation and implanted material on the colonic wall was also assessed. Three pairs of electrodes were implanted into the caecal wall of 12 anaesthetized pigs. Reference colonic transit time was determined by radiopaque markers for each pig before implantation. It was repeated 4 weeks after implantation with sham stimulation and 5 weeks after implantation with electrical stimulation. Aboral sequential trains of 1-ms pulse width (10 V; 120 Hz) were applied twice daily for 6 days, using an external battery operated stimulator. For each course of markers, a mean value was computed from transit times obtained from individual pig. Microscopic examination of the caecum was routinely performed after animal sacrifice. A reduction of mean transit time was observed after electrical stimulation (19 +/- 13 h; mean +/- SD) when compared to reference (34 +/- 7 h; P = 0.045) and mean transit time after sham stimulation (36 +/- 9 h; P = 0.035). Histological examination revealed minimal chronic inflammation around the electrodes. Colonic transit time measured in a chronic porcine model is reduced by direct sequential electrical stimulation. Minimal tissue lesion is elicited by stimulation or implanted material. Electrical colonic stimulation could be a promising approach to treat specific disorders of the large bowel.

Published

2010

2. Electrical stimulation induces propagated colonic contractions in an experimental model.

Author

Aellen S, Wiesel PH, Gardaz JP, Schlageter V, Bertschi M, Virag N, and Givel JC

Subjects

Animals, Cecum physiology, Electrodes, Gastrointestinal Motility physiology, Muscle Contraction physiology, Pressure, Swine, Colon physiology, Electric Stimulation

Abstract

Background: Direct colonic electrical stimulation may prove to be a treatment option for specific motility disorders such as chronic constipation. The aim of this study was to provoke colonic contractions using electrical stimulation delivered from a battery-operated device., Methods: Electrodes were inserted into the caecal seromuscular layer of eight anaesthetized pigs. Contractions were induced by a neurostimulator (Medtronic 3625). Caecal motility was measured simultaneously by video image analysis, manometry and a technique assessing colonic transit., Results: Caecal contractions were generated using 8-10 V amplitude, 1000 micros pulse width, 120 Hz frequency for 10-30 s, with an intensity of 7-15 mA. The maximal contraction strength was observed after 20-25 s. Electrical stimulation was followed by a relaxation phase of 1.5-2 min during which contractions propagated orally and aborally over at least 10 cm. Spontaneous and stimulated caecal motility values were significantly different for both intraluminal pressure (mean(s.d.) 332(124) and 463(187) mmHg respectively; P < 0.001, 42 experiments) and movement of contents (1.6(0.9) and 3.9(2.8) mm; P < 0.001, 40 experiments)., Conclusion: Electrical stimulation modulated caecal motility, and provoked localized and propagated colonic contractions.

Published

2009