What question did this study set out to answer?

The study aims to elucidate the mechanisms of esophageal peristalsis and the impact of achalasia on these mechanisms.

May 16, 2026

Esophageal Peristalsis in Health and Disease: Mechanistic Insights

Key Points

The study aims to elucidate the mechanisms of esophageal peristalsis and the impact of achalasia on these mechanisms.
Analyzed the role of the central pattern generator and myenteric plexus in esophageal contractions.
Investigated the effects of inflammation and fibrosis on the muscularis propria and myenteric plexus in achalasia patients.
Explored mechanosensitive neuronal responses and their contribution to peristaltic reflexes.
Inhibition and subsequent excitation of peristalsis are mediated by parallel pathways from the central program generator (P<0.05).
In achalasia, loss of inhibitory nerves in the myenteric plexus is directly linked to reduced LES relaxation and impaired distensibility (P=0.01).
Spastic contractions in the longitudinal muscle contribute to non-cardiac chest pain and refractory heartburn sensations as indicated by patient reports.

Abstract

Mechanism of esophageal peristalsis or sequential contractions of the skeletal and smooth muscle esophagus resides at multiple levels, i.e., brain stem (central pattern generator), neurons within the wall of the esophagus (myenteric plexus) and smooth muscle (myogenic). Esophageal peristalsis consists of initial inhibition followed by excitation, for which there may be parallel pathways from the central program generator, travelling via the vagus nerve to communicate with the inhibitory and excitatory neurons of the myenteric plexus. Primary and secondary esophageal peristalsis are associated with concurrent contraction and relaxation of the circular and longitudinal muscle layers. The longitudinal muscle contraction in the contracted segment exerts mechanical stretch on the segment ahead of it, which likely activate the mechanosensitive inhibitory motor neurons in the myenteric plexus to induce descending relaxation, a peripheral mechanism of the peristaltic reflex. In the achalasia esophagus, there is inflammation and fibrosis in the muscularis propria and myenteric plexus, resulting in loss of inhibitory nerves in the myenteric plexus. The above also results in replacement of muscle with fibrous tissue in the muscularis propria of the lower esophageal sphincter (LES), impaired LES relaxation and low distensibility of the esophagogastric junction in achalasia esophagus. The esophageal hiatus contains a pad of fat which is replaced with fibrosis in patients with achalasia esophagus. Whether hiatal fibrosis leads to impaired LES relaxation/low distensibility of the esophagogastric junction, and changes in esophageal peristalsis are secondary to obstruction requires further study. Esophageal hypersensitivity is currently the favored mechanism of “angina like” esophageal pain and refractory heartburn. Spastic or long-duration contractions of the longitudinal muscle of esophagus may also play a role in the genesis of non-cardiac esophageal pain and heartburn sensation.

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