Citations to this article
Abstract
Experiments were performed on anesthetized opossums to study the influence of vagal efferent stimulation on peristalsis in the esophageal smooth muscle using various stimulus parameters. Current intensity, pulse duration, frequency, and train duration were varied systematically. Electrical and mechanical activities were recorded simultaneously at 5, 3, and 1 cm above the lower esophageal sphincter (LES). Vagal efferent stimulation produced a spike burst and contraction with a latency after the termination of the stimulus. This latency varied at different sites with the same stimulus parameters. For example, a stimulus of 5 mA, 0.5 ms, 10 Hz, and 1-s train produced latencies for the electrical response of 1.48 +/- 0.04, 2.2 +/- 0.12, and 3.5 +/- 0.09 s (+/- SEM) at 5, 3, and 1 cm above LES, respectively. The differences in latency were statistically significant (P less than 0.01). The latency of response at any one site also changed with different stimulus parameters; e.g. at 1 cm above LES, the latency of electrical response at 10 Hz was 3.5 +/- 0.09 s, but at 20 Hz the latency was 2.01 +/- 0.06 s when current intensity, pulse, and train duration remained at 5 mA, 0.5 ms, and 1 s. This decrease in latency with increasing frequency was statistically significant (P less than 0.01). By changing stimulus parameters, antiperistalsis or peristalsis with different speeds of propagation could be induced. Antiperistalsis or simultaneous responses occurred near threshold stimulus parameters. Suprathreshold stimuli produced peristaltic responses. Speed of peristalsis in the distal esophagus was 1.82 +/- 0.08 cm/s with swallowing, which was not different from 1.98 +/- 0.14 cm/s (P greater than 0.05) with vagal stimulation of 5 mA, 0.5 ms, 10 Hz, and 1-s train. These studies suggest that: (a) peristalsis in the smooth muscle part of the esophagus can be explained entirely on the basis of peripheral mechanisms, and (b) the central nervous system may modulate the occurrence, polarity, and speed of propagation by modifying the intensity and frequency of vagal activation.
Authors
J S Gidda, B W Cobb, R K Goyal
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Citations to this article (33)
| Title and authors | Publication | Year |
|---|---|---|
|
Effects of remifentanil on esophageal and esophagogastric junction (EGJ) bolus transit in healthy volunteers using novel pressure-flow analysis
C Cock, SH Doeltgen, T Omari, J Savilampi |
Neurogastroenterology and Motility | 2017 |
|
Dysphagia: Diagnosis and Treatment
O Ekberg |
2017 | |
|
Regulation and dysregulation of esophageal peristalsis by the integrated function of circular and longitudinal muscle layers in health and disease
RK Mittal |
AJP Gastrointestinal and Liver Physiology | 2016 |
|
Yamada' s Textbook of Gastroenterology
DK Podolsky, M Camilleri, JG Fitz, AN Kalloo, F Shanahan, TC Wang |
Yamada' s Textbook of Gastroenterology | 2015 |
|
Comprehensive Physiology
SN Cheuvront, RW Kenefick |
Comprehensive Physiology | 2014 |
|
Functional Anatomy and Physiology of Swallowing and Esophageal Motility
NE Diamant |
The Esophagus Richter/The Esophagus | 2012 |
|
Physiology of the Gastrointestinal Tract, Two Volume Set
PR Kiela, JF Collins, FK Ghishan |
Physiology of the Gastrointestinal Tract, Two Volume Set | 2012 |
|
A novel pattern of longitudinal muscle contraction with subthreshold pharyngeal stimulus: a possible mechanism of lower esophageal sphincter relaxation
E Leslie, V Bhargava, RK Mittal |
AJP Gastrointestinal and Liver Physiology | 2012 |
|
Principles of Deglutition
R Shaker, PC Belafsky, GN Postma, C Easterling |
2012 | |
|
Motor Function of the Pharynx, Esophagus, and its Sphincters
R Mittal |
Colloquium Series on Integrated Systems Physiology: From Molecule to Function | 2011 |
|
Sleisenger and Fordtran's Gastrointestinal and Liver Disease
C Högenauer, HF Hammer |
Sleisenger and Fordtran's Gastrointestinal and Liver Disease | 2010 |
|
Real-time dynamics of nitric oxide shifts within the esophageal wall
YS Khajanchee, LL Swanström |
Surgical Endoscopy | 2009 |
|
Physiology of Normal Esophageal Motility
RK Goyal, A Chaudhury |
Journal of Clinical Gastroenterology | 2008 |
|
Physiology of the Gastrointestinal Tract
DJ Drucker |
Physiology of the Gastrointestinal Tract | 2006 |
|
Electrical stimulation of the vagus nerve restores motility in an animal model of achalasia
YS Khajanchee, R VanAndel, BA Jobe, MJ Barra, PD Hansen, LL Swanstrom |
Journal of Gastrointestinal Surgery | 2003 |
|
Relationship between Nitric Oxide Synthase and Heme Oxygenase-2 in the Canine Esophagus
H Bamba, T Uno, Y Tamada, M Tanaka, Y Ibata, Y Hisa |
ACTA HISTOCHEMICA ET CYTOCHEMICA | 2001 |
|
Current Concepts on Pathophysiology, Diagnosis and Treatment of Diffuse Oesophageal Spasm:
M Storr, HD Allescher, M Classen |
Drugs | 2001 |
|
Effects of sildenafil on esophageal motility of patients with idiopathic achalasia
M Bortolotti, C Mari, C Lopilato, G Porrazzo, M Miglioli |
Gastroenterology | 2000 |
|
Effect of galanin and galanin antagonists on peristalsis in esophageal smooth muscle in the opossum
S Yamato, I Hirano, RK Goyal |
AJP Gastrointestinal and Liver Physiology | 2000 |
|
Pathogenesis of simultaneous esophageal contractions in patients with motility disorders
J Behar, P Biancani |
Gastroenterology | 1993 |
|
A wave of inhibition precedes primary peristaltic contractions in the human esophagus
D Sifrim, J Janssens, G Vantrappen |
Gastroenterology | 1992 |
|
Role of nitric oxide in esophageal peristalsis in the opossum
S Yamato, SJ Spechler, RK Goyal |
Gastroenterology | 1992 |
|
Central neural control of esophageal motility: A review
ET Cunningham, PE Sawchenko |
Dysphagia | 1990 |
|
Electrical correlates of peristaltic and nonperistaltic contractions in the opossum smooth muscle esophagus
WG Paterson |
Gastroenterology | 1989 |
|
Swallowing: Neurophysiologic control of the esophageal phase
AJ Miller |
Dysphagia | 1987 |
|
Intracellular Studies of Electrical Membrane Properties of Opossum esophageal Circular Smooth Muscle
J Erist, A Surprenant, RK Goyal |
Gastroenterology | 1987 |
|
Regional gradient of initial inhibition and refractoriness in esophageal smooth muscle
JS Gidda, RK Goyal |
Gastroenterology | 1985 |
|
Intramural mechanism of esophageal peristalsis: roles of cholinergic and noncholinergic nerves
J Crist, JS Gidda, RK Goyal |
Proceedings of the National Academy of Sciences | 1984 |
|
Influence of successive vagal stimulations on contractions in esophageal smooth muscle of opossum
JS Gidda, RK Goyal |
Journal of Clinical Investigation | 1983 |
|
Membrane potential and mechanical responses of the opossum esophagus to vagal stimulation and swallowing
S Rattan, JS Gidda, RK Goyal |
Gastroenterology | 1983 |
|
Vasoactive intestinal peptide causes peristaltic contractions in the esophageal body
S Rattan, M Grady, RK Goyal |
Life Sciences | 1982 |
|
Esophagus
P Kramer |
Gastroenterology | 1968 |
|
The Esophagus
FJ Ingelfinger |
Gastroenterology | 1961 |
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