PURPOSE: To determine the maximum acutely tolerable dose of single fraction radiosurgery in patients with recurrent previously irradiated primary brain tumors or brain metastases. METHODS AND MATERIALS: Between August 1990 and September 1993, 102 analyzable patients were entered on Radiation Therapy Oncology Group (RTOG) protocol 90-05, 38 of whom had recurrent primary brain tumors (median prior dose 60 Gy), and 64 of whom had recurrent brain metastases (median prior dose 30 Gy) < or = 40 mm in maximum diameter. Unacceptable toxicity was defined as irreversible Grade 3, any Grade 4, or Grade 5 central nervous system (CNS) toxicity according to the RTOG CNS criteria, occurring in > 20% of patients per treatment arm within 3 months of radiosurgery. RESULTS: Patients were initially entered onto one of three treatment arms according to the maximum diameter of the recurrent lesion. Twelve to 22 patients were entered on each arm. The dose levels were: arm 1, < or = 20 mm, 18 Gy; arm 2, 21-30 mm, 15 Gy; and arm 3, 31-40 mm, 12 Gy. Subsequently, doses were escalated as follows: arm 4, < or = 20mm, 21 Gy; arm 5, 21-30 mm 18 Gy; and arm 6, 31-40 mm, 15 Gy. Unacceptable acute toxicity secondary to cerebral edema occurred in 0, 7 and 5% of patients on Arms 1, 2 and 3, respectively, and in no patients on arms 4, 5, or 6. Multivariate analysis revealed that tumor volume > or = 8200 mm(3) and a ratio of maximum dose to prescription dose (MD/PD) > or = 2 were significantly associated unacceptable toxicity. Of 15 patients with both tumor volume > or = 8200 mm(3) and MD/PD > or = 2, unacceptable toxicity occurred in 2 of 4 treated with a single isocenter and 1 of 11 treated with multiple isocenters. Subsequently, operation for symptomatic radionecrosis was required in 6% of patients. CONCLUSION: We found that the incidence of acute toxicity was acceptable at 0-7% in patients with recurrent, previously irradiated primary brain tumors or brain metastases < or = 40 mm in maximum diameter treated according to the protocol described.
PURPOSE: To determine the maximum acutely tolerable dose of single fraction radiosurgery in patients with recurrent previously irradiated primary brain tumors or brain metastases. METHODS AND MATERIALS: Between August 1990 and September 1993, 102 analyzable patients were entered on Radiation Therapy Oncology Group (RTOG) protocol 90-05, 38 of whom had recurrent primary brain tumors (median prior dose 60 Gy), and 64 of whom had recurrent brain metastases (median prior dose 30 Gy) < or = 40 mm in maximum diameter. Unacceptable toxicity was defined as irreversible Grade 3, any Grade 4, or Grade 5 central nervous system (CNS) toxicity according to the RTOG CNS criteria, occurring in > 20% of patients per treatment arm within 3 months of radiosurgery. RESULTS:Patients were initially entered onto one of three treatment arms according to the maximum diameter of the recurrent lesion. Twelve to 22 patients were entered on each arm. The dose levels were: arm 1, < or = 20 mm, 18 Gy; arm 2, 21-30 mm, 15 Gy; and arm 3, 31-40 mm, 12 Gy. Subsequently, doses were escalated as follows: arm 4, < or = 20mm, 21 Gy; arm 5, 21-30 mm 18 Gy; and arm 6, 31-40 mm, 15 Gy. Unacceptable acute toxicity secondary to cerebral edema occurred in 0, 7 and 5% of patients on Arms 1, 2 and 3, respectively, and in no patients on arms 4, 5, or 6. Multivariate analysis revealed that tumor volume > or = 8200 mm(3) and a ratio of maximum dose to prescription dose (MD/PD) > or = 2 were significantly associated unacceptable toxicity. Of 15 patients with both tumor volume > or = 8200 mm(3) and MD/PD > or = 2, unacceptable toxicity occurred in 2 of 4 treated with a single isocenter and 1 of 11 treated with multiple isocenters. Subsequently, operation for symptomatic radionecrosis was required in 6% of patients. CONCLUSION: We found that the incidence of acute toxicity was acceptable at 0-7% in patients with recurrent, previously irradiated primary brain tumors or brain metastases < or = 40 mm in maximum diameter treated according to the protocol described.
Authors: Kirtesh R Patel; Stuart H Burri; Danielle Boselli; James T Symanowski; Anthony L Asher; Ashley Sumrall; Robert W Fraser; Robert H Press; Jim Zhong; Richard J Cassidy; Jeffrey J Olson; Walter J Curran; Hui-Kuo G Shu; Ian R Crocker; Roshan S Prabhu Journal: J Neurooncol Date: 2016-12-20 Impact factor: 4.130
Authors: Q Zhang; D Zheng; Y Lei; B Morgan; J Driewer; M Zhang; S Li; S Zhou; W Zhen; R Thompson; A Wahl; C Lin; C Enke Journal: Br J Radiol Date: 2014-09-16 Impact factor: 3.039
Authors: Maximilian I Ruge; Martin Kocher; Mohammad Maarouf; Christina Hamisch; Harald Treuer; Jürgen Voges; Volker Sturm Journal: Strahlenther Onkol Date: 2010-12-22 Impact factor: 3.621
Authors: Kirtesh R Patel; Roshan S Prabhu; Shravan Kandula; Daniel E Oliver; Sungjin Kim; Constantinos Hadjipanayis; Jeffery J Olson; Nelson Oyesiku; Walter J Curran; Mohammad K Khan; Hui-Kuo Shu; Ian Crocker Journal: J Neurooncol Date: 2014-09-05 Impact factor: 4.130