FISH panels for hematologic malignancies.

Cytogenetic analysis of hematological malignancies has played a crucial role in the diagnosis and clinical management of patients, as well as in providing fundamental insights into the genetic basis of the pathogenesis of these diseases. Leukemias and lymphomas have lent themselves readily to karyotypic analysis and undoubtedly represent the greatest successes of cytogenetics in human cancer. Several cytogenetic changes have been shown to have considerable prognostic significance also and are being used as measurable targets for response to therapy. Molecular characterization of the recurrent cytogenetic abnormalities has identified genes involved in leukemogenesis and formed a basis for specific treatment strategies. Fluorescence in situ hybridization (FISH) analysis, since its introduction, has revolutionized the field and enabled a more precise determination of the presence and frequency of genetic abnormalities. It is particularly indispensable where metaphase cytogenetics may be difficult in the largely quiescent cells of some hematological malignancies, particularly the lymphoid disorders. FISH probes have been used extensively to detect nonrandom abnormalities in interphase nuclei and the true incidence of chromosome abnormalities has been proven to be much higher than that detected by conventional chromosomal analysis. The avail- ability of a comprehensive line of commercial probes for rapid identification of critical genetic aberrations has contributed to the widespread use of this technique. It has also led to the current practice in most laboratories to test for genetic aberrations by using FISH panels that have been designed to detect genetic changes important not only in the diagnosis of leukemias and lymphomas, but also because of their association with prognosis, to identify high-risk populations in specific hematological cancers, so they can be targeted for aggressive therapy. Copyright (c) 2007 S. Karger AG, Basel.