Ultrastructural Changes of the Smooth Muscle in Esophageal Atresia.

Esophageal atresia (EA) with or without tracheo-esophageal fistula (TEF) is a relatively rare congenital anomaly. Despite the advances in the management techniques and neonatal intensive care, esophageal dysmotility remains a very common problem following EA/TEF repair. Our current study aimed to describe the most significant ultrastructural changes of the smooth muscle cells (SMCs) trying to highlight some of the underlying mechanisms of esophageal dysmotility following EA/TEF repair. Twenty-three biopsies were obtained from the tip of the lower esophageal pouch (LEP) of 23 patients during primary repair of EA/TEF. Light microscopic examination was performed with hematoxylin and eosin (HE), and Van Gieson's stains. Ultrastructural examination was done using transmission electron microscopy (TEM). Histopathological examination showed distortion of smooth muscle layer and deposition of an abundant amount of fibrous tissue in-between smooth muscles. Using TEM, SMCs exhibited loss of the cell-to-cell adhesion, mitochondrial vacuolation, formation of myelin figures, and apoptotic fragmentation. There were also plasmalemmal projections and formation of ghost bodies. Interestingly, SMCs were found extending pseudopodia-like projections around adjacent collagen fibers. Engulfed collagen fibers by SMCs underwent degradation within autophagic vacuoles. Degeneration of SMCs and deposition of abundant extracellular collagen fibers are prominent pathological changes in LEP of EA/TEF. These changes might contribute to the pathogenesis of esophageal dysmotility in patients who have survived EA/TEF.

Morphological changes in varicocele veins: ultrastructural study.

BACKGROUND: Varicocele consists of dilatation of the pampiniform venous plexus and the internal spermatic veins. It is present in 15% of male population and is a common cause of male infertility. OBJECTIVE: To describe the normal structure of the internal spermatic vein and the morphological changes in grade 3 varicocele. METHODS: The authors dissected and analyzed a 2- to 3-cm tract of the pampiniform venous plexus of 20 patients undergoing varicocelectomy for left varicocele and of 10 consecutive patients undergoing surgery for left inguinal hernia. The histological examination was performed with hematoxylin­eosin and Masson trichrome stains. The ultrastructural evaluation was done using both scanning and transmission electron microscopy. RESULTS: Compared with normal internal spermatic veins, varicocele veins showed narrowing and/or obliteration of the lumens, destruction of the endothelial cells, invagination of the intima, and deposition of collagen bundles in the media (light microscopy). The ultrastructural changes in varicocele veins included elongation of the endothelial cells with features of cellular damage, loss of the internal elastic lamina, and the appearance of ghost bodies and degenerative vacuoles in the subendothelial layer. CONCLUSIONS: The authors believe this is the first report analyzing ultrastructual changes in normal human internal spermatic vein samples and in varicocele. The underlying molecular mechanisms of these changes await further studies.