OBJECT: Glioblastoma (GB) tumors typically exhibit regions of hypoxia. Hypoxic areas within the tumor can make tumor cells less sensitive to chemotherapy and radiation therapy. Trans-sodium crocetinate (TSC) has been shown to transiently increase oxygen to hypoxic brain tumors. The authors examined whether this improvement in intratumor oxygenation translates to a therapeutic advantage when delivering standard adjuvant treatment to GBs. METHODS: The authors used C6 glioma cells to create a hypoxic GB model. The C6 glioma cells were stereotactically injected into the rat brain to create a tumor. Fifteen days later, MR imaging was used to confirm the presence of a glioma. The animals were randomly assigned to 1 of 3 groups: 1) temozolomide alone (350 mg/m(2)/day for 5 days); 2) temozolomide and radiation therapy (8 Gy); or 3) TSC (100 microg/kg for 5 days), temozolomide, and radiation therapy. Animals were followed through survival studies, and tumor response was assessed on serial MR images obtained at 15-day intervals during a 2-month period. RESULTS: Mean survival (+/- SEM) of the temozolomide-alone and the temozolomide/radiotherapy groups was 23.2 +/- 0.9 and 29.4 +/- 4.4 days, respectively. Mean survival in the TSC/temozolomide/radiotherapy group was 39.8 +/- 6 days, a statistically significant improvement compared with either of the other groups (p < 0.05). Although tumor size was statistically equivalent in all groups at the time of treatment initiation, the addition of TSC to temozolomide and radiotherapy resulted in a statistically significant reduction in the MR imaging-documented mean tumor size at 30 days after tumor implantation. The mean tumor size in the TSC/temozolomide/radiotherapy group was 18.9 +/- 6.6 mm(2) compared with 42.1 +/- 2.7 mm(2) in the temozolomide-alone group (p = 0.047) and 35.8 +/- 5.1 mm(2) in the temozolomide/radiation group (p = 0.004). CONCLUSIONS: In a hypoxic GB model, TSC improves the radiological and clinical effectiveness of temozolomide and radiation therapy. Further investigation of this oxygen diffusion enhancer as a radiosensitizer for hypoxic brain tumors seems warranted.
OBJECT: Glioblastoma (GB) tumors typically exhibit regions of hypoxia. Hypoxic areas within the tumor can make tumor cells less sensitive to chemotherapy and radiation therapy. Trans-sodium crocetinate (TSC) has been shown to transiently increase oxygen to hypoxic brain tumors. The authors examined whether this improvement in intratumor oxygenation translates to a therapeutic advantage when delivering standard adjuvant treatment to GBs. METHODS: The authors used C6 glioma cells to create a hypoxic GB model. The C6 glioma cells were stereotactically injected into the rat brain to create a tumor. Fifteen days later, MR imaging was used to confirm the presence of a glioma. The animals were randomly assigned to 1 of 3 groups: 1) temozolomide alone (350 mg/m(2)/day for 5 days); 2) temozolomide and radiation therapy (8 Gy); or 3) TSC (100 microg/kg for 5 days), temozolomide, and radiation therapy. Animals were followed through survival studies, and tumor response was assessed on serial MR images obtained at 15-day intervals during a 2-month period. RESULTS: Mean survival (+/- SEM) of the temozolomide-alone and the temozolomide/radiotherapy groups was 23.2 +/- 0.9 and 29.4 +/- 4.4 days, respectively. Mean survival in the TSC/temozolomide/radiotherapy group was 39.8 +/- 6 days, a statistically significant improvement compared with either of the other groups (p < 0.05). Although tumor size was statistically equivalent in all groups at the time of treatment initiation, the addition of TSC to temozolomide and radiotherapy resulted in a statistically significant reduction in the MR imaging-documented mean tumor size at 30 days after tumor implantation. The mean tumor size in the TSC/temozolomide/radiotherapy group was 18.9 +/- 6.6 mm(2) compared with 42.1 +/- 2.7 mm(2) in the temozolomide-alone group (p = 0.047) and 35.8 +/- 5.1 mm(2) in the temozolomide/radiation group (p = 0.004). CONCLUSIONS: In a hypoxic GB model, TSC improves the radiological and clinical effectiveness of temozolomide and radiation therapy. Further investigation of this oxygen diffusion enhancer as a radiosensitizer for hypoxic brain tumors seems warranted.
Authors: Yi Wang; Ryo Yoshimura; Hiroaki Manabe; Catherine Schretter; Ryon Clarke; Yu Cai; Mark Fitzgerald; Kevin S Lee Journal: Brain Res Date: 2014-08-14 Impact factor: 3.252
Authors: Daniel P Radin; Gregory Smith; Victoria Moushiaveshi; Alexandra Wolf; Robert Bases; Stella E Tsirka Journal: Front Oncol Date: 2022-04-14 Impact factor: 5.738