PURPOSE: To evaluate survival and neurodevelopmental outcomes following radiation therapy in infants and young children with residual or progressive medulloblastoma after primary chemotherapy. PATIENTS AND METHODS: Thirteen young patients (< or = 36 months old) with medulloblastoma were treated with preirradiation multiagent chemotherapy and maximal surgical resection. Patients were scheduled to receive radiation therapy at the time of documented disease progression or upon completion of chemotherapy with residual disease. All patients underwent neurodevelopmental evaluation at the time of diagnosis, before receiving radiation therapy, and at yearly intervals posttreatment. RESULTS: Two patients completed the scheduled chemotherapy with residual disease and received delayed radiation therapy. The remaining 11 patients had either local or leptomeningeal progression during chemotherapy (median time to progression, 5 months). Six patients had a complete response (CR) to radiation therapy, and three of these children are alive 48 to 104 months postdiagnosis. Of the five patients who had progressive disease (PD) during radiation therapy or residual imaging abnormalities after treatment, only one is alive (with stable enhancing leptomeningeal abnormalities) 48 months postirradiation. Two additional survivors were rendered disease-free by surgical resection before radiation therapy and are without evidence of disease at 91 and 107 months after diagnosis. Thus, six of 13 patients are alive at 48 to 107 months postdiagnosis. Neurodevelopmental scores tended to be below age norms at diagnosis; scores improved during chemotherapy, but then decreased during posttreatment follow-up evaluation. CONCLUSION: Radiation therapy appears to produce long-term disease-free survival in a proportion of very young patients who have progressive or residual medulloblastoma during or after primary chemotherapy. However, neurodevelopmental deficits are frequent among long-term survivors.
PURPOSE: To evaluate survival and neurodevelopmental outcomes following radiation therapy in infants and young children with residual or progressive medulloblastoma after primary chemotherapy. PATIENTS AND METHODS: Thirteen young patients (< or = 36 months old) with medulloblastoma were treated with preirradiation multiagent chemotherapy and maximal surgical resection. Patients were scheduled to receive radiation therapy at the time of documented disease progression or upon completion of chemotherapy with residual disease. All patients underwent neurodevelopmental evaluation at the time of diagnosis, before receiving radiation therapy, and at yearly intervals posttreatment. RESULTS: Two patients completed the scheduled chemotherapy with residual disease and received delayed radiation therapy. The remaining 11 patients had either local or leptomeningeal progression during chemotherapy (median time to progression, 5 months). Six patients had a complete response (CR) to radiation therapy, and three of these children are alive 48 to 104 months postdiagnosis. Of the five patients who had progressive disease (PD) during radiation therapy or residual imaging abnormalities after treatment, only one is alive (with stable enhancing leptomeningeal abnormalities) 48 months postirradiation. Two additional survivors were rendered disease-free by surgical resection before radiation therapy and are without evidence of disease at 91 and 107 months after diagnosis. Thus, six of 13 patients are alive at 48 to 107 months postdiagnosis. Neurodevelopmental scores tended to be below age norms at diagnosis; scores improved during chemotherapy, but then decreased during posttreatment follow-up evaluation. CONCLUSION: Radiation therapy appears to produce long-term disease-free survival in a proportion of very young patients who have progressive or residual medulloblastoma during or after primary chemotherapy. However, neurodevelopmental deficits are frequent among long-term survivors.
Authors: André O von Bueren; Katja von Hoff; Torsten Pietsch; Nicolas U Gerber; Monika Warmuth-Metz; Frank Deinlein; Isabella Zwiener; Andreas Faldum; Gudrun Fleischhack; Martin Benesch; Juergen Krauss; Joachim Kuehl; Rolf D Kortmann; Stefan Rutkowski Journal: Neuro Oncol Date: 2011-06 Impact factor: 12.300
Authors: Ira J Dunkel; Sharon L Gardner; James H Garvin; Stewart Goldman; Weiji Shi; Jonathan L Finlay Journal: Neuro Oncol Date: 2010-01-11 Impact factor: 12.300
Authors: Jessica K Roberts; Anna V Birg; Tong Lin; Vinay M Daryani; John C Panetta; Alberto Broniscer; Giles W Robinson; Amar J Gajjar; Clinton F Stewart Journal: Drug Metab Dispos Date: 2016-04-06 Impact factor: 3.922
Authors: Karen D Wright; John C Panetta; Arzu Onar-Thomas; Wilburn E Reddick; Zoltan Patay; Ibrahim Qaddoumi; Alberto Broniscer; Giles Robinson; Frederick A Boop; Paul Klimo; Deborah Ward; Amar Gajjar; Clinton F Stewart Journal: Cancer Chemother Pharmacol Date: 2014-10-24 Impact factor: 3.333
Authors: Bruce H Cohen; J Russell Geyer; Douglas C Miller; John G Curran; Tianni Zhou; Emi Holmes; Sue Ann Ingles; Ira J Dunkel; Joanne Hilden; Roger J Packer; Ian F Pollack; Amar Gajjar; Jonathan L Finlay Journal: Pediatr Neurol Date: 2015-04-09 Impact factor: 3.372
Authors: Maryam Fouladi; Sri Gururangan; Albert Moghrabi; Peter Phillips; Lindsey Gronewold; Dana Wallace; Robert A Sanford; Amar Gajjar; Larry E Kun; Richard Heideman Journal: Cancer Date: 2009-07-15 Impact factor: 6.860
Authors: Olivia Campagne; Bo Zhong; Sreenath Nair; Tong Lin; Jie Huang; Arzu Onar-Thomas; Giles Robinson; Amar Gajjar; Clinton F Stewart Journal: Clin Cancer Res Date: 2019-12-03 Impact factor: 12.531