Animal study: Basic mechanism of vocal cord paralysis caused by button battery ingestion in children

Abstract

PurposeVocal cord paralysis has been reported as a common complication of button battery (BB) ingestion, and there is a need to confirm the mechanism of vocal cord paralysis for the development of a standardized treatment. MethodsA new CR2032 BB and artificial saliva were placed in a fresh pig esophagus with the recurrent laryngeal nerve (RLN); the negative electrode faced the nerve in the experimental group, while the positive electrode faced the nerve in the control group. The pH values of the intra- and extraesophageal walls were measured simultaneously. Pathological examination was performed after the esophagus and nerves were damaged. ResultsAfter BB ingestion, the pH near the intraesophageal negative electrode increased rapidly, reaching 11.5 at 30 min and over 14 at 6 h, while the extraesophageal pH did not change at 1 h and began to accelerate after 2 h, reaching 10 at 6 h. After 6 h of exposure, the pathological section showed that the structure of the mucosa, submucosa, and muscle layer were destroyed; chromatin in the nucleus faded, and part of the nerve bundle in the adventitia had liquefaction necrosis. ConclusionThe basic mechanism of vocal cord paralysis caused by BB ingestion is that the OH− generated by the electrolytic reaction of the negative electrode penetrates the esophageal wall and corrodes the RLN, which may be the cause of vocal cord paralysis caused by BB ingestion without esophageal perforation.