Phase I study of tandem high-dose chemotherapy with autologous peripheral blood stem cell rescue for children with recurrent brain tumors: a Pediatric Blood and MarrowTransplant Consortium study.

BACKGROUND: High-dose chemotherapy with autologous stem cell rescue (HDC/SCR) has produced responses and prolonged survival for some children with recurrent brain tumors, but is associated with considerable morbidity and mortality. A Phase I trial of two cycles of HDC/SCR for recurrent brain tumors in children was performed to determine the maximum tolerated doses for a novel regimen. PROCEDURES: Two cycles of HDC/SCR were given. Cycle 1 included thiotepa and carmustine given on days -5, -4, and -3. Four to six weeks later, patients received cycle 2 which included thiotepa and carboplatin given on days -5, -4, and -3. Autologous peripheral blood stem cells (PBSC) were infused on day 0 of each cycle. RESULTS: Thirty-two patients were treated and 25 patients received both cycles of HDC/SCR. Common toxicities included mucositis, emesis, diarrhea, anorexia, and pancytopenia. Eight of 32 (25%) assessable children died from regimen-related toxicity. Pulmonary failure occurred in seven patients. Seven patients had grade 3-4 neurotoxicity. The 3-year event-free survival (EFS) was 25%. CONCLUSIONS: We determined the maximum tolerated regimen to be thiotepa 600 mg/m(2) and carmustine 300 mg/m(2) followed by thiotepa 600 mg/m(2) and carboplatin 1,200 mg/m(2) . Pulmonary toxicity was considerable. The toxic death rate was similar to other trials of HDC/SCR for children with recurrent brain tumors performed during the same time period. The regimen resulted in prolonged time to progression for a significant number of patients and long-term survival for some patients with recurrent medulloblastoma and rhabdoid tumor.

Dose intensive melphalan and cyclophosphamide with autologous hematopoietic stem cells for recurrent medulloblastoma or germinoma.

PURPOSE: To determine the response, toxicity, and survival for children with progressive or recurrent medulloblastoma and germinoma using a single myeloablative course of chemotherapy supported by autologous hematopoietic stem cells. PATIENTS AND METHODS: Subjects were in second remission or had minimal residual disease at the time of study entry. The conditioning regimen consisted of cyclophosphamide 6,000 mg/m(2) plus melphalan 180 mg/m(2). RESULTS: Twenty-nine evaluable pediatric patients were accrued. The most frequent major toxicities were myelosuppression, infections, and stomatitis, but no toxic deaths were recorded. Best responses were: CR = 6, CCR = 13, PR = 6, SD = 2, and PD = 2. There were 6 medulloblastoma and 3 germinoma survivors with a median follow-up of 7.5 years (range = 2.8-10). Two germinoma survivors received radiotherapy after autografting for presumptive progressive disease. CONCLUSION: Myeloablative chemotherapy consisting of cyclophosphamide and melphalan was tolerable in the relapsed brain tumor setting with 19/29 cases achieving CR or CCR status and 9/29 becoming long-term survivors.

A pilot study of addition of amifostine to melphalan, carboplatin, etoposide, and cyclophosphamide with autologous hematopoietic stem cell transplantation in pediatric solid tumors-A pediatric blood and marrow transplant consortium study.

Limited information is available regarding the use of amifostine in pediatric hematopoietic stem cell transplant (HSCT) patients. Melphalan, carboplatin, etoposide +/- cyclophosphamide is a commonly used preparatory regimen in pediatric solid tumor HSCT. Therefore, we decided to determine the feasibility of the addition of amifostine (750 mg/m b.i.d. x 4 d) to melphalan (200 mg/m), carboplatin (1200 mg/m), and etoposide (800 mg/m) (level 1) and escalating doses of cyclophosphamide (3000 mg/m and 3800 mg/m, levels 2 and 3, respectively) followed by autologous HSCT. Thirty-two patients with a variety of pediatric solid tumors were studied. Seventeen patients were accrued at level 1, 9 at level 2, and 6 at level 3. Major toxicities during the administration of the preparatory regimen were hypocalcemia, emesis, and hypotension. Hypocalcemia required aggressive calcium supplementation during the conditioning phase. No dose limiting toxicities were encountered at level 3. Amifostine at 750 mg/m b.i.d. for 4 days can be administered with a double alkylator regimen consisting of melphalan (200 mg/m), cyclophosphamide (up to 3800 mg/m), carboplatin (1200 mg/m), and etoposide (800 mg/m) with manageable toxicities.

Phase 2 study of idarubicin in pediatric brain tumors: Pediatric Oncology Group study POG 9237.

Idarubicin (IDA), the 4-demethoxy analog of daunomycin, has had significant cytotoxicity in many malignancies. In previous reports, the alcohol metabolite of IDA, 4-demethoxydaunorubicinol (idarubicinol, or IDOL), had cytotoxic activity and the ability to penetrate the blood-brain barrier. For this reason, the Pediatric Oncology Group conducted a Phase 2 trial of IDA for children with recurrent or progressive brain tumors. Ninety-one eligible children were entered on this study, with ages ranging from 3 months to 19 years. Patients were stratified by tumor types into 6 categories: stratum 1, low-grade astrocytoma; stratum 2, malignant glioma (glioblastoma multiforme and anaplastic astrocytoma); stratum 3, medulloblastoma; stratum 4, brainstem glioma; stratum 5, ependymoma; and stratum 6, miscellaneous malignant tumors not included in the previous diagnoses. IDA(18 mg/m2) was infused over 4 h and followed by granulocyte colony-stimulating factor (G-CSF) beginning day 5 after infusion of IDA. G-CSF was continued until blood cell count recovery. Cycles were repeated at approximately 21-day intervals until patients developed progressive disease or had completed 6 cycles with stable or improved disease. Pharmacokinetic plasma and cerebrospinal fluid (CSF) samples were collected from a subset of these patients. Response was poor in all strata. Most patients developed progressive disease; however, in 21 patients with medulloblastoma there was 1 partial response, and 6 patients had stable disease (SD) that in 4 patients lasted more than 20 weeks. Grades 3/4 hematopoietic toxicities were the most common toxic events, and 14 infection-related events resulted in hospitalization of patients. Only 1 patient developed reduced cardiac function. The systemic clearance data for IDA and IDOL were nearly identical to those published on patients with leukemia, and the plasma elimination of the IDOL metabolite was substantially longer than that of the parent drug IDA. The peak CSF:plasma ratios of IDA and IDOL were very low. The overall response rates to IDA were disappointing despite periods of prolonged SD in nearly a fourth of the patients. We conclude from this data and from that in nonhuman primates that it is unlikely that IDA, daunomycin, or other related anthracyclines will be useful for treating primary CNS tumors.