Background: Histologic examination of bone marrow is important in establishing diagnoses among chronic myeloproliferative disorders (CMPD). Only a few studies, however, have compared cytogenetic or molecular genetic findings to histopathology in CMPD. Diverging results on the presence of the Ph1-translocation in patients with myelofibrosis have been reported.
Experimental design: Cytogenetic studies and molecular analysis of the bcr gene were performed in bone marrow cells of patients with CMPD simultaneously with histopathologic examination of plastic-embedded bone marrow biopsies.
Results: The Ph1-chromosome was found in 120/128 (93%) cases with histopathologic diagnosis of chronic myeloid leukemia (CML), including a notable proportion of cases with an increase of megakaryocytes and/or myelofibrosis; the latter was associated with a significant increase of chromosome aberrations, in addition to Ph1. Among those additional changes in myelofibrosis of Ph1-positive CML were del (13q) and t(1;11) in one case each. A bcr gene rearrangement was detected in 92% (24/26) of the CML cases examined. All other groups of CMPD, comprising cases of myelofibrosis and unclassifiable cases, were Ph1-negative by both cytogenetics (n = 102) and molecular analysis (n = 18). Karyotype changes associated with myelofibrosis in various CMPD concerned mainly balanced translocations involving 1p36 and 11q11, deletions of 5q13-34, 3p, 11q23, 13(q12,q22), and 20q12 as well as gain of 1q and trisomy 3, 8, 19, or 21. In histologically unclassifiable CMPD, karyotyping provided additional information for the differential diagnosis.
Conclusions: The correlation of cytogenetic findings and histopathologic features is helpful in confirming or supporting histopathologic diagnoses and in characterizing new marker chromosomes in CMPD.