Measurement of low-grade inflammation of the esophageal mucosa with electrical conductivity shows promise in assessing PPI responsiveness in patients with GERD.

A device that can easily measure electrical impedance might be a helpful tool for investigating the pathophysiology of gastroesophageal reflux disease. The first aim of this study was to validate our newly developed bioelectrical admittance measurement (BAM) through in vitro experimentation. The second aim was to investigate whether evaluation of BAM by this measurement differed between patients with heartburn according to their response to proton pump inhibitor (PPI) therapy. Caco-2 cell monolayers and three-dimensional tissues were examined by BAM using a frequency response analyzer. BAM was also used to measure the impedance through cell layers. Subsequently, BAM was performed during endoscopy in 41 patients experiencing heartburn without esophageal mucosal breaks. After 2-wk administration of 20-mg rabeprazole twice daily, patient responses to PPI were classified as "good" or "poor" according to their clinical course. In each patient, histological alterations and gene expression levels of inflammation mediators and tight junction proteins were evaluated. Impedance profiles indicated that monolayer Caco-2 cells on top of eight-layered normal human dermal fibroblasts had the highest magnitude of impedance over the range of frequencies. In vivo results revealed that patients with good responses to PPI displayed significantly higher admittance. Severity of low-grade inflammation was significantly associated with esophageal wall admittance. Moreover, esophageal wall admittance may be more closely related to basal zone hyperplasia than dilatation of intercellular spaces. Thus, BAM may be able to detect abnormalities in the subepithelial layer of the esophagus.NEW & NOTEWORTHY Bioelectrical admittance measurement is a new method to evaluate esophageal mucosal permeability vertically during upper gastrointestinal endoscopy. Measurement of low-grade inflammation of the esophageal mucosa with electrical conductivity shows promise in assessing proton pump inhibitor responsiveness in patients with gastroesophageal reflux disease. As various gastrointestinal diseases are associated with changes in mucosal permeability, bioelectrical admittance measurement is expected to be clinically applied to therapeutic decision-making for these diseases in the future.