Molecular cytogenetics of pediatric adipocytic tumors.

Both epidemiologic and cytogenetic data on pediatric adipose tissue tumors are scarce. Pediatric adipose tumors are mainly represented by lipomas, though only 28 cytogenetic descriptions of pediatric lipoma have been reported to date. Similar to adult cases, most of these pediatric lipomas harbored rearrangements of the chromosomal regions 12q14-q15 and 6p21, involving the HMGA2 and HMGA1 genes. Further cytogenetic studies of pediatric lipoma would be useful to determinate whether some partner genes of HMGA2, such as NFIB, may have a specific role in the early onset of these tumors. Cytogenetically, the best documented pediatric adipose tumor is lipoblastoma, which is the second most frequent adipose tumor in children. Chromosomal alterations in lipoblastoma, observed in 61% of cases studied by conventional cytogenetics, typically involve the 8q11-q12 region. The target gene of this rearrangement is PLAG1. Anomalies of PLAG1 have been observed in 70% of cases of pediatric adipose tumors studied by molecular cytogenetics methods, such as fluorescence in situ hybridization (FISH) or comparative genomic hybridization on array (array-CGH). The rare described cases of malignant pediatric adipose tumors in children are mostly myxoid liposarcomas. In the 27 cases explored at the genetic level, all pediatric myxoid liposarcomas showed the classical rearrangement of the DDIT3 gene at 12q13. In conclusion, the epidemiology and the prevalence of histological types of adipose tissue tumors differ in the pediatric population compared with adults, whereas chromosomal and genic rearrangements are similar to those of adult cases in each histological type.

Case Report: Detection and quantification of tumor cells in peripheral blood and ascitic fluid from a metastatic esophageal cancer patient using the CellSearch (®) technology.

Analysis of ascitic fluid should help to identify and characterize malignant cells in gastrointestinal cancer. However, despite a high specificity, the sensitivity of traditional ascitic fluid cytology remains insufficient, at around 60%. Since 2004 the CellSearch (®) technology has shown its advantages in the detection of circulating tumor cells (CTCs) in peripheral blood, which can perform an accurate diagnosis and molecular analysis at the same time. To our knowledge, no previous study has explored the potential utility of this technology for the detection and quantification of tumor cells in ascitic fluid samples. Herein we report a case of metastatic esophageal adenocarcinoma in a 70-year-old man presenting with dysphagia and a large amount of fluid in the peritoneal cavity. Analysis of a peripheral blood sample and ascites sample with the CellSearch (®) technology both revealed the presence of putative tumor cells that were positive for epithelial cell adhesion molecule (EpCAM) and cytokeratin (CK) expression. This study confirmed the hematogenous dissemination of esophageal cancer by the detection of circulating tumor cells in the peripheral blood, and is the first to demonstrate that tumor cells can be identified in ascitic fluid by using CellSearch (®) technology.