BACKGROUND: The outlook for many brain tumors remains poor. Increased dose intensity has been correlated with response rate and survival in many solid tumors. PATIENTS AND METHODS: Ten children with recurrent or newly diagnosed brain tumors were treated with four sequential courses of high-dose single agent chemotherapy with peripheral blood stem cell (PBSC) support. PBSC harvesting was undertaken prior to chemotherapy and following the first course of chemotherapy (3.6 g/m2 etoposide). Each course of chemotherapy consisted of a single drug followed 48 hours later by PBSC reinfusion. Three patients were treated on Regimen A: etoposide, carboplatinum 1.95 g/m2, cyclophosphamide 5 g/m2, and thiotepa 300 mg/m2; three patients were treated on Regimen A' with carmustine 600 mg/m2 replacing cyclophosphamide; four patients received Regimen B: etoposide, carboplatinum 1.95g/m2, cyclophosphamide 7 g/m2, and thiotepa 900 mg/m2. RESULTS: No course of chemotherapy was complicated by >14 days of neutropenia. Platelet recovery was more prolonged, particularly in patients who had previously received craniospinal irradiation. Non-hematologic toxicity was severe with three toxic deaths including two patients who developed hemolytic-uremic syndrome and respiratory failure. Two of three patients with primitive neuroectodermal tumors had a partial response; no responses were observed in patients with high-grade gliomas. CONCLUSIONS: Administration of multiple courses of high-dose chemotherapy with PBSC support is feasible in this patient population and successfully mitigates hematologic toxicity. Non-hematologic toxicity becomes prohibitive as chemotherapy doses are escalated.
BACKGROUND: The outlook for many brain tumors remains poor. Increased dose intensity has been correlated with response rate and survival in many solid tumors. PATIENTS AND METHODS: Ten children with recurrent or newly diagnosed brain tumors were treated with four sequential courses of high-dose single agent chemotherapy with peripheral blood stem cell (PBSC) support. PBSC harvesting was undertaken prior to chemotherapy and following the first course of chemotherapy (3.6 g/m2 etoposide). Each course of chemotherapy consisted of a single drug followed 48 hours later by PBSC reinfusion. Three patients were treated on Regimen A: etoposide, carboplatinum 1.95 g/m2, cyclophosphamide 5 g/m2, and thiotepa 300 mg/m2; three patients were treated on Regimen A' with carmustine 600 mg/m2 replacing cyclophosphamide; four patients received Regimen B: etoposide, carboplatinum 1.95g/m2, cyclophosphamide 7 g/m2, and thiotepa 900 mg/m2. RESULTS: No course of chemotherapy was complicated by >14 days of neutropenia. Platelet recovery was more prolonged, particularly in patients who had previously received craniospinal irradiation. Non-hematologic toxicity was severe with three toxic deaths including two patients who developed hemolytic-uremic syndrome and respiratory failure. Two of three patients with primitive neuroectodermal tumors had a partial response; no responses were observed in patients with high-grade gliomas. CONCLUSIONS: Administration of multiple courses of high-dose chemotherapy with PBSC support is feasible in this patient population and successfully mitigates hematologic toxicity. Non-hematologic toxicity becomes prohibitive as chemotherapy doses are escalated.
Authors: Pamela Bensimhon; Judith G Villablanca; Leonard S Sender; Katherine K Matthay; Julie R Park; Robert Seeger; Wendy B London; John Stephen F Yap; Susan G Kreissman Journal: Pediatr Blood Cancer Date: 2010-04 Impact factor: 3.167
Authors: G J Veal; J Errington; M J Tilby; A D J Pearson; A B M Foot; H McDowell; C Ellershaw; B Pizer; G M Nowell; D G Pearson; A V Boddy Journal: Br J Cancer Date: 2007-02-13 Impact factor: 7.640