The impact of surgical excisions on human gastric slow wave conduction, defined by high-resolution electrical mapping and in silico modeling.

P DuA HameedT R AngeliC LahrT L AbellL K ChengGregory B Sands

Published in: Neurogastroenterology and motility : the official journal of the European Gastrointestinal Motility Society (2015)

Orienting incisions in the longitudinal gastric axis causes least disruption to electrical conduction and motility. However, if transverse incisions are made, a homeostatic mechanism of gastric conduction anisotropy compensates by restoring aborally propagating wavefronts. Complex dysrhythmias accompanying excisions could modify postoperative recovery in susceptible patients.

Keyphrases

high resolution
end stage renal disease
ejection fraction
endothelial cells
newly diagnosed
chronic kidney disease
patients undergoing
peritoneal dialysis
molecular docking
mass spectrometry
biofilm formation
cystic fibrosis
candida albicans
patient reported
tandem mass spectrometry