Clonality analysis of B-cell lymphoproliferative disorders using PCR and melting curve analysis.

Detection of a monoclonal immunoglobulin heavy chain gene (IgH gene) rearrangement is commonly used to support the diagnosis of B-cell non-Hodgkin lymphoma. We investigated the application of melting curve analysis as a substitute for polyacrylamide gel electrophoresis (PAGE) in the detection of monoclonal IgH gene rearrangements after PCR. A total of 140 cases were selected for this study, including 63 B-cell malignancies with a previously documented monoclonal IgH gene rearrangement. These 140 specimens were tested using PCR with melting curve analysis, and the results obtained were compared with PAGE results to calculate the relative sensitivity and specificity of melting curve analysis. Melting curve analysis detected monoclonal rearrangements in 56 of 63 specimens (relative sensitivity 88.9%). No false positives were detected (relative specificity = 100%). False-negative results were obtained only when a weak monoclonal band was present on PAGE. These results show that a positive result on melting curve analysis is specific for a monoclonal IgH gene rearrangement. However, with a sensitivity of only 88.9%, the majority of negative results would require further evaluation of the amplicons using PAGE. The application of melting curve analysis in the detection of monoclonal IgH gene rearrangements in the clinical laboratory setting is discussed.

Use of FTA gene guard filter paper for the storage and transportation of tumor cells for molecular testing.

CONTEXT: Efficient methods of storing tumor specimens for molecular testing are needed in the modern surgical pathology laboratory. The FTA Gene Guard system is a novel method for the collection and room temperature storage of blood samples for DNA testing. The method uses index card-sized filter papers that provide an ideal medium on which to store tumor specimens for DNA testing. OBJECTIVE: To determine whether FTA filter paper can be used in the surgical pathology laboratory to store tumor cells for DNA testing. DESIGN: Cell suspensions were prepared from 60 surgical specimens, and DNA was extracted either immediately or after storage on FTA paper. The DNA extracted by each method was tested by polymerase chain reaction (PCR) for the beta-globin and interferon gamma genes, and the results were compared. Fifteen lymph node specimens stored on FTA paper were then tested for immunoglobulin heavy chain (IgH) gene rearrangement by PCR, and these results were compared with those obtained for immediately extracted DNA. SETTING: University medical center. RESULTS: The DNA extracted from cells stored on FTA paper performed as well in the PCR as the freshly extracted DNA in nearly all cases (>95%). The results of tests for IgH gene rearrangements showed 100% concordance between the 2 methods of DNA extraction.Conclusion.-Cells from surgical specimens can be stored on FTA paper for extended lengths of time, and DNA can be extracted from these cells for PCR-based testing. FTA filter paper is a reliable medium for the storage and/or transport of tumor cells for PCR-based DNA analysis.