K. Schulze-Delrieu

Motility changes in opossum esophagus from experimental esophagitis

We assessed how acute inflammation affects the contractile activity of the esophageal body. Two models of esophagitis were used; nine opossums had an esophageal perfusion of 100 meq hydrochloric acid for 2 hr and were studied at 24 hr. Ten had the perfusion for 4 h and their esophagi were studied in vitroafter 72 hr. Comparisons were made in all instances to animals who had esophageal saline perfusion for identical periods. All acid-perfused animals developed gross and histologic evidence of mucosal inflammation; in three animals, inflammatory changes extended into the submucosa and the muscularis propria. Manometric recordings in the acid-perfused animals revealed esophageal shortening, frequent failure of primary peristalsis and frequent occurrence of spontaneous contractions. Recordings of isometric tension of muscle in vitrorevealed spontaneous contractions in strips from the mucosa and from the circular and from the longitudinal muscle. The amplitude of contractions in response to electrical stimulation was decreased, but the duration of contractions was increased largely because of a prolonged recovery phase. These changes in mechanical response occurred with stimulus parameters directed at both the muscle and the intrinsic nerves. We conclude that esophageal inflammation can lead to an increased irritability and decreased stimulus response of the smooth muscle of the esophagus even where it is not directly involved in an inflammatory response. These changes correspond to the functional abnormalities of the esophagus seen in patients with reflux esophagitis.

Strenuous exercise decreases motility and cross-sectional area of human gastric antrum. A study using ultrasound.

Gastric emptying in humans is delayed with strenuous exercise. We used ultrasound imaging in six healthy volunteers to determine whether changes in motility and configuration of the gastric outlet contribute to this delay. After fasting, all individuals ingested chicken broth and garbanzo beans. With subjects sitting upright, transverse and longitudinal real-time views of the gastric antrum were recorded on video tape. In the exercise studies, subjects pedaled an ergometer for 10 min to attain a heart rate of 85% predicted maximum. On a different day, all subjects had an identical study without exercise. The order of performance of exercise and no-exercise studies was randomized. After exercise, contraction frequencies and antral areas were significantly reduced compared to the studies without exercise. In addition, after exercise there was closure of the pylorus and tubular narrowing of the gastric antrum. Closure of the pylorus and decreased gastric antral area and motility may be important in explaining the decrease in gastric emptying that occurs with strenuous exercise.

Visual parameters define the phase and the load of contractions in isolated guinea pig ileum.

How the movements of the intestinal walls relate to luminal pressures and outflow remains incompletely understood. We triggered the peristaltic reflex in the isolated ileum of the guinea pig and quantified wall movements through computerized measurements of diameter changes. Contractions developed as indentations close to the upstream end of the loop. The indentations deepened and expanded in length. The downstream shoulder of contractions started and stopped to propagate before the upstream shoulder. Shoulders differed in their length and gradient over most of the duration of the contraction, and this gives the contraction an axial asymmetry. Over the course of individual contractions, the length of the indented segment correlated well with the luminal pressure. Contractions in response to large volumes generated long indented segments and high luminal pressures. The onset and the end of pressure waves and of outflow did not necessarily coincide with the onset and end of visual parameters of contractions. These findings indicate that objective visual parameters might be useful to describe and to classify contractions.

Volume accommodation by distension of gastric fundus (rabbit) and gastric corpus (cat)

In attempts to identify the structures of the proximal stomach responsible for volume accommodation, the dimensions of a herbivore (rabbit) were compared to those of a carnivore (cat) stomach at various degrees of filling. The total gastric surface area was similar in both species, but the proximal stomach of cats consisted primarily of the segment between the incisura angularis and the cardia (gastric corpus), while the proximal stomach of the rabbit was represented largely by the true fundus (segment orad to cardia). In both species, the muscle coat of the proximal stomach was thinner than that of the distal stomach, but this difference was more prominent in rabbits than in cats. In both species, the length and the angulation of the lesser curvature were little affected by filling of the stomach. Most length increases of the greater curvature occurred proximal to the cardia in the rabbit and proximal to the incisura angularis in the cat. Filling the stomach increased the length of the gastric circumference more steeply in the cat than in the rabbit. In both species, the stomachs shortened in their longitudinal axis in response to a drug that excites gastric smooth muscle (carbachol). A drug that inhibits gastric smooth muscle (isoproterenol) gave the stomach a more elongated shape. Cat stomachs ruptured at higher volumes and intragastric pressures than rabbit stomachs. In the cat, volume accommodation takes place in the transverse axis of the stomach, and parallel to the circular muscle fibers of the gastric corpus. In the rabbit, volume unfolds the gastric fundus in the longitudinal and transverse axes in parallel to the radiating course of the oblique muscle fibers.

Chronic esophagitis in two sisters

Two sisters developed symptoms of gastroesophageal reflux and gastric stasis during adolescence. Both developed severe erosive esophagitis and epithelial hyperplasia of the esophagus before 35 years of age. Both had a hiatal hernia, and esophageal motor function was poor in both. One of the sisters had also a peptic stricture of the esophagus, the other one a gastric bezoar. Jejunal motility was normal in both. Among 28 close family members surveyed, seven additional individuals out of three generations had frequent and severe reflux symptoms since adolescence. It is unlikely that the occurrence of chronic esophagitis at such young age in the two sisters is mere coincidence. It is conceivable that the two sisters and their family shared a defect similar to the one that has previously been made responsible for the familial occurrence of hiatal hernias and Barretts esophagus.

Dynamic imaging of obstructed opossum esophagus : from altered load to altered contractility

We studied by barium contrast the dynamics of experimental obstruction in the opossum esophagus. Immediately after banding the gastroesophageal junction, entrapment of the bolus between the band and the peristaltic contraction led to esophageal bulging, forceful retropulsion of the bolus at the band, and the repeated triggering of peristaltic contractions by the retropelled bolus. In ensuing weeks, triggering of contractions became more difficult and contractions led to bizarre “corkscrew” movements of the increasingly distended and tortuous esophagus. A tight contraction ring that moved very slowly retrograde was occasionally observed in the chronically distended esophagus. Computer-assisted analysis showed that the area and perimeter of the bolus were abnormally large in chronic obstruction and that during its passage through the esophagus the compactness of the bolus increased no longer. Configurational analysis of the cone that the peristaltic contraction shapes at the tail of the barium column showed this to narrow progressively on passage through the normal esophagus and, paradoxically, to widen in both acute and chronic obstruction.

Modulation of esophageal contractions by distensionin Vitro

Stimulation of the intrinsic nerves of the esophageal body leads to a twitch of the circular muscle after the end of the stimulation (the esophageal off-response), and the twitch spreads in the distal direction because of a latency gradient in the onset of the off-response between the proximal and the distal esophagus. We investigated the possibility that local input can modulate the basic off-response through intrinsic mechanisms and make it resemble more closely the sequential ring contractions that move boluses in the esophagus of intact animals (esophageal peristalsis). The esophagus up to the aortic arch and down to the gastroesophageal junction was removed from opossums and suspended in an organ bath containing 2 liters of Krebs solution at 36° C. The mechanical activity of the esophagus was recorded by force transducers on the serosal surface of the esophagus 2, 4, and 6 cm above the LES. The intramural nerves of the proximal esophagus were stimulated by electrical pulses with and without distension of the esophagus by inflation of a luminal balloon. Balloon distension increased the latency of the off-response in the distal esophagus, thereby reducing the velocity at which the circular muscle contraction spread through the esophagus. In addition, balloon distension increased the amplitude and the duration of the esophageal circular muscle contraction (both off- and on-responses), and decreased the amplitude of the longitudinal muscle contraction (duration response) and LES response (relaxation response). Similar changes in the esophageal contraction responses were produced by radial stretch of an open preparation of the esophagus from which the mucosa had been removed. The present results demonstrate that intramural mechanisms can modulate the contraction pattern of the isolated esophageal smooth muscle. The observed changes make it likely that radial stretch is an important factor in turning the intrinsic off-response of the esophageal smooth muscle into the sequential ring contraction observed with esophageal bolus transport in the intact animal.

Disorders of Gastric Motility and Emptying

Disorders that affect gastric motility and emptying pose a considerable diagnostic and therapeutic challenge; one. has to suspect and demonstrate a disorder, determine its cause and assess its severity, and devise a rational and safe treatment plan. Tests of gastric emptying and motility play a minor role in this process. None provide a comprehensive assessment of the role of the stomach in mechanical digestion.