PURPOSE: Although a gross total removal of astrocytic tumors offers a favorable prognosis, it is often difficult to achieve in the eloquent area of the brain. This study was conducted to investigate the possible gain of three-dimensional conformal radiotherapy (3DCRT) for astrocytic tumors located in the eloquent area in children and young adults. MATERIALS AND METHODS: Twenty patients with astrocytic tumors received the radiotherapy. The median age was 17 years, ranging from 4 to 30 years. Fourteen low-grade tumors (seven pilocytic and seven diffuse), and six high-grade tumors (five anaplastic, one malignant pilocytic) were included. Tumors were located at the thalamus/hypothalamus in 12 cases, optic tract in one case, and the deep cerebral/cerebellar hemisphere in seven cases. A specific fixation device was used for 3DCRT. Forty-six Gy for low-grade tumors and 54 Gy for high-grade astrocytomas with 1.8-2.0 Gy per fraction were in principle employed as the standard regimen. Nominal radiotherapy fields ranged from 2.0 x 2.0 to 15.0 x 11.0 cm2. The median follow-up period was 42 months, ranging from 3 to 108 months. RESULTS: The actuarial survival rate at 5 years was 68% +/- 13% for all patients. The actuarial survival rate for low-grade glioma was 79% +/- 14% at 5 years and 50% +/- 20% at 3 years for high-grade glioma. The actual progression-free survival rate was 83% +/- 11% at 5 years for low-grade glioma and 50% +/- 20% for high-grade glioma. A complete response was obtained in three (21%) of 14 patients with low-grade astrocytic tumors. Two patients with low-grade tumors and four of six with high-grade tumors died due to tumor progression with infield relapse but not marginal relapse. Twelve survivors with low-grade tumors showed no signs of relapse and no neurological, hormonal, or cognitive deterioration after radiotherapy and were able to attend their school or continue with a full-time job. CONCLUSIONS: 3DCRT is safe and effective for low-grade astrocytic tumors located in the eloquent area in children and young adults.
PURPOSE: Although a gross total removal of astrocytic tumors offers a favorable prognosis, it is often difficult to achieve in the eloquent area of the brain. This study was conducted to investigate the possible gain of three-dimensional conformal radiotherapy (3DCRT) for astrocytic tumors located in the eloquent area in children and young adults. MATERIALS AND METHODS: Twenty patients with astrocytic tumors received the radiotherapy. The median age was 17 years, ranging from 4 to 30 years. Fourteen low-grade tumors (seven pilocytic and seven diffuse), and six high-grade tumors (five anaplastic, one malignant pilocytic) were included. Tumors were located at the thalamus/hypothalamus in 12 cases, optic tract in one case, and the deep cerebral/cerebellar hemisphere in seven cases. A specific fixation device was used for 3DCRT. Forty-six Gy for low-grade tumors and 54 Gy for high-grade astrocytomas with 1.8-2.0 Gy per fraction were in principle employed as the standard regimen. Nominal radiotherapy fields ranged from 2.0 x 2.0 to 15.0 x 11.0 cm2. The median follow-up period was 42 months, ranging from 3 to 108 months. RESULTS: The actuarial survival rate at 5 years was 68% +/- 13% for all patients. The actuarial survival rate for low-grade glioma was 79% +/- 14% at 5 years and 50% +/- 20% at 3 years for high-grade glioma. The actual progression-free survival rate was 83% +/- 11% at 5 years for low-grade glioma and 50% +/- 20% for high-grade glioma. A complete response was obtained in three (21%) of 14 patients with low-grade astrocytic tumors. Two patients with low-grade tumors and four of six with high-grade tumors died due to tumor progression with infield relapse but not marginal relapse. Twelve survivors with low-grade tumors showed no signs of relapse and no neurological, hormonal, or cognitive deterioration after radiotherapy and were able to attend their school or continue with a full-time job. CONCLUSIONS: 3DCRT is safe and effective for low-grade astrocytic tumors located in the eloquent area in children and young adults.
Authors: A Gajjar; R A Sanford; R Heideman; J J Jenkins; A Walter; Y Li; J W Langston; M Muhlbauer; J M Boyett; L E Kun Journal: J Clin Oncol Date: 1997-08 Impact factor: 44.544
Authors: H Alheit; F H Saran; A P Warrington; I Rosenberg; J Perks; R Jalali; S Shepherd; C Beardmore; B Baumert; M Brada Journal: Radiother Oncol Date: 1999-02 Impact factor: 6.280
Authors: C F Parsa; C S Hoyt; R L Lesser; J M Weinstein; C M Strother; R Muci-Mendoza; M Ramella; R S Manor; W A Fletcher; M X Repka; J A Garrity; R N Ebner; M L Monteiro; R M McFadzean; I V Rubtsova; W F Hoyt Journal: Arch Ophthalmol Date: 2001-04
Authors: S W Lee; B A Fraass; L H Marsh; K Herbort; S S Gebarski; M K Martel; E H Radany; A S Lichter; H M Sandler Journal: Int J Radiat Oncol Biol Phys Date: 1999-01-01 Impact factor: 7.038
Authors: Guillaume Bergthold; Pratiti Bandopadhayay; Wenya Linda Bi; Lori Ramkissoon; Charles Stiles; Rosalind A Segal; Rameen Beroukhim; Keith L Ligon; Jacques Grill; Mark W Kieran Journal: Biochim Biophys Acta Date: 2014-02-28