Skeletal malformations associated with esophageal atresia: clinical and experimental studies.

BACKGROUND/PURPOSE: Patients with esophageal atresia (EA) often have skeletal malformations. The purpose of this study is to examine if similar defects occur in rat fetuses prenatally exposed to Adriamycin, a chemical capable of causing EA in these animals. METHODS: The charts of 443 babies with EA were reviewed to assess the incidence and nature of these defects in them. Time-mated female rats were given either 2 mg/kg intraperitoneal Adriamycin (experimental group, n = 16) or no treatment (control group, n = 4) on gestational days 8 and 9, and the fetuses were removed near term. Skeletal anatomy was studied after alcian blue and alizarin red staining. RESULTS: A total of 528 skeletal malformations, mainly abnormal segmentation and vertebral identity (extra or defective bodies or ribs), mishaped vertebral bodies, and limb malformations like radial aplasia or hypoplasia were found in 245 babies (55%). Costal fusion and sternal anomalies were present in 17 and 4 babies, respectively. In the animal study, all control fetuses were normal, whereas 83 of 134 experimental fetuses (62%) had EA accompanied by other malformations. No segmentation or vertebral identity anomalies were seen, but butterfly, wedged, and asymmetric vertebral bodies were found at various levels in all animals with EA and in about half of those without it. Three fetuses had rib anomalies, and 3 more had sternal malformations. Ossification of limbs was delayed in treated fetuses and short, thick, and crooked bones were seen in 4 of 31 fetuses with EA and in none of the Adriamycin-exposed ones without EA. CONCLUSIONS: Adriamycin exposure induces in fetal rats, in addition to esophageal, duodenal, and anorectal atresias, high proportions of vertebral malformations and some limb defects of nature not identical but quite similar to that of babies with EA. This further validates this model for investigating the nature of the processes leading to EA and its associated malformations.