Sunitinib seems to be a promising treatment for the objective of this proposal: to evaluate the clinical activity of Sunitinib as first line therapy in patients who have measurable disease and to evaluate the safety of Sunitinib with radiation therapy.
Sunitinib (SU 11248) is a small molecule with good oral bioavailability that inhibits multiple receptor tyrosine kinases (RTKs) expressed on diverse tumour cells: VEGFR, PDGFR, KIT, FLT3 and endothelium, pericytes, and stroma VEGFR, PDGFR. It has the potential to inhibit directly the growth of multiple tumour types by the inhibition of multiple targets and to act negatively on antiangiogenesis. Glioblastoma (GB) is the most frequent brain tumour. Standard treatment after surgical resection is radiation therapy with Temozolomide. But patients who can afford only a biopsy of their lesion due to the location in eloquent areas of their tumour or multifocality, don't get benefit from such treatment and their median survival is in the best case of only 9 months. These patients constitute 30% of Glioblastomas. Clinical trials in this setting are required as patients should be treated immediately after the biopsy to prevent neurological deterioration. These patients are ideal to test new promising therapies. Their survival is similar to recurrent patients. The evaluation of response is easier as it's possible to avoid the confounding post-surgical changes that interfere with the evaluation of treatment efficacy in terms of tumour size reduction.. Furthermore, neo adjuvant treatment before radiotherapy has shown not to worsen their survival. Glioblastoma is a tumour rich in molecular abnormalities. PDGFRs are important in growth signalling pathways and neoangiogenesis of gliomas. PDGF ligands and PDGFR-alfa are expressed in most human gliomas, while PDGFR-beta is expressed in glioma cells and tumor endothelial cells, PDFGR-α is expressed in most human gliomas. Imatinib mesylate exhibited antiglioma activity in preclinical studies, sensitizes glioma cells to radiation injury, and combined with hydroxyurea has shown promising results in the recurrent setting. Moreover gliomas are among the most angiogenic cancers. VEGF/VEGFR-2 is the most prominent angiogenic signalling pathway. Its inhibition either by a neutralizing anti-VEGF antibody, anti-sense VEGF constructs, expression of a dominant-negative mutant form of VEGFR-2 (a specific small molecule inhibitor of the VEGFR-2 tyrosine kinase) or neutralizing anti-VEGFR-2 antibody has resulted in suppression of experimental malignant glioma growth. VEGF has been the focus in the development of glioma-targeted therapies. Recently Bevacizumab has shown to be active in phase II studies. For these reasons, Sunitinib seems to be a promising treatment fo The objective of this proposal is to evaluate the clinical activity of Sunitinib as first line therapy in patients who have measurable disease and to evaluate the safety of Sunitinib with radiation therapy.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
12
Grupo Español de Investigacion en Neurooncologia
Madrid, Madrid, Spain
Objective response rate to Sunitinib therapy
Clinical activity in terms of clinical response (RANO criteria) after 2, 4 weeks cycles of Sunitinib treatment.
Time frame: 8 weeks after treatment
Safety of Sunitinib with Radiation therapy
Percentage of patients without neurological damage after the first 14 weeks of the treatment
Time frame: 14 weeks
Assess the number of patients without neurological deterioration before radiation
Time frame: 8 weeks
Evaluation of progression free survival
After radiation therapy, Sunitinib will be continued until progression. (Evaluation of progression free survival)
Time frame: participants are followed until progression
Overall survival
Time frame: participants are followed until death
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