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Vol. 290, Issue 1, 96-103, July 1999
Oklahoma Foundation for Digestive Research, Oklahoma City Veterans
Affairs Medical Center, University of Oklahoma Health Sciences Center,
Oklahoma City, Oklahoma (K.V., B.G.-VM.); and Department of Biomedical
Sciences, Crieghton University School of Medicine, Omaha, Nebraska
(J.M.P.)
Enteric infections in animals and humans have proven the link between
mucosal inflammation and gastrointestinal motor dysfunction. The goal
of the present investigation was to study the long-term effects of
mucosal inflammation on the neuromuscular functions of the small
intestine in a ferret model of primary Trichinella spiralis infection. Myeloperoxidase activity and isometric
contractions of isolated jejunal muscles were studied on days 8, 30, and 60 postinfection (PI). The peak increase in myeloperoxidase
activity seen on day 8 PI returned to normal levels by day 60 PI.
Contractions of the longitudinal and circular muscles evoked by
electrical field stimulation of enteric nerves on day 8 PI showed no
difference when compared with uninfected controls. However, during this
enteric phase of the infection, neurally mediated responses were
characterized by a disturbance in the balance between cholinergic and
nonadrenergic, noncholinergic (NANC) excitation with both a reduction
of cholinergic and a reciprocal enhancement of NANC neurotransmission.
On days 30 and 60 PI the amplitude of neurally mediated responses and the balance between cholinergic and NANC excitation were restored in
the circular but not in the longitudinal muscle. In addition, there
were changes in the effector function involving smooth muscle hyperresponsiveness to high K+ or carbachol on days 8, 30, and 60 PI. However, a significant reduction in EC50 for
carbachol was found only on day 60 PI. The results demonstrate that
T. spiralis infection results in alterations of muscle
contractility and enteric neurotransmission that persist after the
resolution of mucosal inflammation.
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