Electrical spinal cord stimulation during radiotherapy and temozolomide in high grade gliomas. A phase II report

Abstract

11510 Background: Ischemia-hypoxia in high grade gliomas (HGG) turns tumor cells more aggressive and more resistant to radiotherapy (RT) and temozolomide (TMZ). Higher glucose metabolism pre-treatment has been correlated with better response to TMZ using 18-FDG-PET. In preliminary works, we have reported that electrical spinal cord stimulation (SCS) can modify loco-regional oxygenation, blood flow and metabolism in HGG. The aim of this study was to evaluate tumor response and toxicity in HGG using SCS during RT plus TMZ. Methods: 10 patients (males/females: 8/2; median age: 51 years (30–68)) were enrolled in this trial. Tumors were 6 glioblastomas and 4 relapsed anaplastic gliomas. Diagnosis was after complete resection (1), subtotal resection (6), biopsy (1) or MRI + PET (2 relapsed HGG). Tetrapolar electrode for SCS was percutaneously inserted on the posterior surface of the cervical spinal cord at C2-C4 level. RT was at 2 Gy/fraction, 5 fractions/week, total dose 60 Gy (40 Gy in previously irradiated tumors). TMZ was administered at 75 mg/m2 daily during RT, followed by at least 6 cycles of adjuvant TMZ at 200 mg/m2. Tumor response was evaluated by CT and PET. Results: After concurrent RT+TMZ, CT showed: 5 partial response (PR), 3 complete response (CR), 2 stable disease (SD). After 6 adjuvant cycles of TMZ, CT (median 10 months after surgery) showed: 4 PR, 3 CR, 3 progression disease (PD). PET showed post-surgical residual tumor in the 9 evaluated patients. After 6 cycles of TMZ, PET showed: 4 CR, 2 PR (they obtained delayed CR after 12 and 18 cycles of TMZ), PD n = 2, and two patients without PET assessment (1 with PR in CT, and 1 without tumor in CT). For the study group median overall survival (OS) was 22 months (95% CI = 14–30) and for glioblastomas 16 months (95% CI = 6–26). For relapsed anaplastic gliomas mean OS was 37 months (95% CI = 22–52). One patient did not finish scheduled adjuvant TMZ and only one patient experienced hematological toxicity with neutropenia G-I and thrombopenia G-III. Conclusions: Electrical SCS during RT+TMZ did not increase toxicity. Preliminary data about tumor response and OS seem to be encouraging and they support further research. Supported by Grants: FUNCIS 03/09 and ISCiii, RTICCC C03/10. No significant financial relationships to disclose.