Minnie Abromowitch

To address the problem of historically poor results in the treatment of children with advanced-stage Burkitt's lymphoma and B cell (SIg+) acute lymphoblastic leukemia (ALL), an intensive chemotherapy regimen was devised using the most effective single agents in high-dose short courses. Treatment commenced with a fractionated schedule of intravenous (IV) cyclophosphamide (300 mg/m2 every 12 hours for six doses) followed immediately by Adriamycin (50 mg/m2) and vincristine (1.5 mg/m2) with combined intrathecal (IT) methotrexate and cytarabine. Predictably, this treatment produced virtually complete disappearance of all tumor and profound myelosuppression. Immediately on hematologic recovery, IV high-dose methotrexate (1,000 mg/m2 over 24 hours) followed by IV cytarabine (400 mg/m2 over the next 48 hours) was administered with leucovorin rescue and repeated IT treatments. The treatment sequence described above is repeated four times, with the dose of cytarabine doubled in succeeding courses, up to 3,200 mg/m2. The entire planned therapy required approximately 24 weeks. Since 1981, we treated a total of 29 children with this approach, 19 of whom had massive unresectable intraabdominal tumor. According to initial extent of disease, 17 were classified as stage III, four as stage IV non-Hodgkin's lymphoma (NHL), and eight as B cell ALL. Eight of the 12 patients with stage IV NHL or B cell ALL had initial involvement of the CNS. Twenty-seven of 29 patients (93%) attained a complete remission. Fourteen of 17 stage III NHL patients remain disease free, for periods ranging from 3+ months to 4 1/2+ years. The actuarial estimate of the proportion of stage III patients remaining disease free at 2 years is 81%. Results in patients with initial involvement of the CNS and/or marrow are much less favorable, with only two of ten patients who attained remission apparently being cured. In addition to stage, the initial serum lactic dehydrogenase (LDH) level emerged as a prognostic indicator, higher levels (over 1,000 IU/L) being associated with the worst prognosis (P less than .05). Major toxicity consisted of severe hematopoietic suppression and febrile episodes associated with neutropenia. We conclude that this treatment is highly effective for advanced-stage Burkitt's tumors in children free of initial CNS involvement.

Using flow cytometric techniques, we determined the pretreatment distribution of DNA content in propidium iodide-stained leukemic blasts from 205 children with "standard-risk" acute lymphoblastic leukemia (ALL). Risk assignment was based on an initial WBC count less than 100 X 10(9)/L, no thymic mass, no meningeal leukemia, and lymphoblasts lacking sheep erythrocyte receptors or surface immunoglobulin. A single aneuploid leukemic line was detected in 74 cases (36.1%): 70 hyperdiploid and four hypodiploid. For hyperdiploid cases, the DNA index (DI, or ratio of the DNA content of leukemic v normal G0/G1 cells) ranged from 1.06 to 2.0 (median, 1.20). A secondary leukemic line with hyperdiploid cellular DNA content was identified in 21 cases with diploid primary lines. Children whose primary leukemic line showed a DI greater than or equal to 1.16 (n = 57) had significantly better responses to treatment than did those with either a diploid DI (n = 130; P = .002) or values in the range of 1.01 to 1.15 (n = 14; P = .001). The relative risk of failure for hyperdiploid cases with DI greater than or equal to 1.16, corresponding to greater than or equal to 53 chromosomes, was one-third that of the other two groups. Treatment responses of patients with both diploid and hyperdiploid lines were identical to those associated with single diploid lines, but significantly worse than those associated with single hyperdiploid lines with DI greater than or equal to 1.16 (P = .016). The most favorable prognostic variables selected by a Cox proportional hazards model were: DI greater than or equal to 1.16 (P = .001), white race (P = .022), WBC less than or equal to 25 X 10(9)/L (P = .032), age between 2 and 9 years (P = .075), and hemoglobin less than 7.0 g/dL (P = .094). DNA index greater than or equal to 1.16 retained its significant prognostic impact even after adjustment for other variables (P = .001). With the combination of DI greater than or equal to 1.16 and WBC less than or equal to 25 X 10(9)/L, one can identify a group of children with ALL who have a low probability of relapse when treated with current therapy. If they remain disease-free after longer follow-up, it may be advisable to treat them with less intensive, hence less toxic, chemotherapy than patients with higher WBC counts or lower DI values.

PURPOSE: To determine the survival of infants and young children with non-metastatic medulloblastoma using intensive myeloablative chemotherapy and autologous hematopoietic progenitor cell rescue (AuHCR). METHODS: Twenty-one children less than 3 years old at diagnosis with non-metastatic medulloblastoma were enrolled on two identical serial studies, "Head Start" I and "Head Start" II. After surgery, patients received five cycles of induction chemotherapy consisting of vincristine, cisplatin, cyclophosphamide and etoposide. Following induction, all patients underwent myeloablative chemotherapy using carboplatin, thiotepa and etoposide with AuHCR. Irradiation was used only at relapse. RESULTS: The 5-year event-free (EFS) and overall survival (OS) rates (+/-SE) for all patients, patients with gross total resection, and patients with residual tumor were 52 +/- 11% and 70 +/- 10%, 64 +/- 13% and 79 +/- 11%, and 29 +/- 17% and 57 +/- 19%, respectively. The 5-year EFS and OS ( +/- SE) for patients with desmoplastic and classical medulloblastoma were 67 +/- 16% and 78 +/- 14%, and 42 +/- 14 and 67 +/- 14%, respectively. There were four treatment related deaths. The majority of survivors (71%) avoided irradiation completely. Mean intellectual functioning and quality of life (QoL) for children surviving without irradiation was within average range for a majority of survivors tested. CONCLUSION: This strategy of brief intensive chemotherapy for young children with non-metastatic medulloblastoma eliminated the need for craniospinal irradiation 52% of the patients, and may preserve QoL and intellectual functioning. The excellent survival rates are somewhat dampened by high toxic mortality.

Of 366 children with acute lymphoblastic leukemia (ALL) in whose bone marrow cells complete G-banding of chromosomes was successful, translocations were present at diagnosis in 141 (38.5%). The Philadelphia (Ph) chromosome was identified in 18 of these cases (4.9%). Features closely associated with the presence of the Ph chromosome were older age (median, 7.9 years), high leukocyte count (median, 47.3 X 10(9)/L), French-American-British L1 blast cell morphology, high incidence of CNS leukemia at diagnosis, and the common ALL immunophenotype. All patients were treated according to modern chemotherapeutic regimens for ALL used at our institution. Complete remissions were successfully induced in only 13 (72%) of the 18 patients with Ph + ALL, and only six remain free of leukemia for periods of 7+, 9+, 10+, 13+, 49+, and 70+ months. Our findings confirm the association of the Ph chromosome with classic high-risk features of ALL in children and suggest that this abnormality confers a very poor prognosis that has not yet been improved by modifications in established therapeutic regimens.