Clinical and prognostic significance of chromosomal abnormalities in childhood acute myeloid leukemia de novo.

We report on the chromosomal pattern of 120 patients with childhood AML de novo. One hundred and fifteen patients (96%) had adequate samples for analysis; 98 (85%) of these showed clonal karyotypic abnormalities. They were classified into cytogenetic subgroups which were closely correlated with FAB subtypes: t(8;21) and M2 (n = 9); t(15;17) and M3 (n = 12); inv(16) and M4Eo (n = 9); t(9;11) and M5a (n = 10); t(11q23) other than t(9;11) and M4-M5 (n = 11); and t(1;22) and M7 (n = 4). In patients with -7/del(7q) (n = 6), leukemia was preceded by MDS in half of the cases, although they had diverse FAB subtypes. Thirty-seven patients had miscellaneous abnormalities. Despite a high CR rate, patients with t(8;21) had a very poor survival: only one child was event-free at 3 years from diagnosis. One third of patients with t(15;17) died during induction. Those eight who achieved CR fared well: only two relapsed, and six were event-free survivors. Patients with inv(16) had a high remission rate and a long survival: five children were in CR 20 to 136 months. Both groups with t(9;11) and t(11q23) had a high remission rate: however, outcome was superior for the t(9;11) group when compared to either the t(11q23) group (EFS at 3 years +/- SE, 56 +/- 17% vs. 11 +/- 10%, p = 0.07) or to the remaining patients (p = 0.06). Both -7/del(7q) and t(1;22) groups had low CR rates (50%) and poor survival. Cytogenetic analysis identifies clinically distinct subsets of childhood AML and is useful in tailoring treatment for these patients. Favorable cytogenetic groups (t(15;17), inv(16), and t(9;11)) may do well with current therapy protocols, whereas unfavorable groups (t(11q23), t(8;21), -7/del(7q), and t(1;22)) require more effective therapies.