J Merei1, S Hasthorpe, P Farmer, J M Hutson. 1. F. Douglas Stephens Surgical Research Laboratory, Royal Children's Hospital, Melbourne, Australia.
Abstract
BACKGROUND/ PURPOSE: The association of esophageal atresia with tracheoesophageal fistula and vertebral anomalies is well known, although the embryology of the combined defects has not yet been analysed. The present study describes the origin and development of esophageal atresia with tracheoesophageal fistula and vertebral anomalies in embryos using a rat model of VATER association produced by Adriamycin administration. RESULTS: The lung buds were seen to develop from the laryngotracheal groove but the trachea failed to grow normally and the foregut overgrowth compensated for this failure. The trachea developed by trachealization of the foregut, which continued as a fistula to the lower esophageal segment. The notochord did not separate from the foregut at the correct time (before day 11 in rat embryos, Carnegie stage 11 in human embryos). Overgrowth of the foregut ventrally and caudally carried with it the attached notochord in the same direction leading to abnormal bending of this structure. CONCLUSION: This irregularity of the notochord may be responsible for abnormal development of the vertebrae.
BACKGROUND/ PURPOSE: The association of esophageal atresia with tracheoesophageal fistula and vertebral anomalies is well known, although the embryology of the combined defects has not yet been analysed. The present study describes the origin and development of esophageal atresia with tracheoesophageal fistula and vertebral anomalies in embryos using a rat model of VATER association produced by Adriamycin administration. RESULTS: The lung buds were seen to develop from the laryngotracheal groove but the trachea failed to grow normally and the foregut overgrowth compensated for this failure. The trachea developed by trachealization of the foregut, which continued as a fistula to the lower esophageal segment. The notochord did not separate from the foregut at the correct time (before day 11 in rat embryos, Carnegie stage 11 in human embryos). Overgrowth of the foregut ventrally and caudally carried with it the attached notochord in the same direction leading to abnormal bending of this structure. CONCLUSION: This irregularity of the notochord may be responsible for abnormal development of the vertebrae.