Corticodependent or Corticoresistant Brain Radionecrosis After Radiotherapy for Brain Metastases
Status:
RECRUITING
Trial end date:
2030-08-01
Target enrollment:
Participant gender:
Summary
Brain metastases (BM) afflict a significant portion of cancer patients, ranging from 10% to 50%, leading to debilitating symptoms and diminished quality of life, thereby impacting overall survival. Treatment options typically include surgery, stereotactic radiosurgery (SRS), and whole brain radiotherapy (WBRT). SRS has emerged as the preferred focal treatment due to its efficacy, delivering ablative doses with notable overall survival benefits, especially for single BM or postoperative cases, while being less invasive than neurosurgery and capable of addressing inoperable sites and multiple lesions. Contrastingly, WBRT is now reserved for select cases with multiple BMs ineligible for SRS, owing to its lower rate of neurocognitive toxicities and high local control rates at one year.
Despite its advantages, SRS can engender late side effects, with cerebral radio necrosis (RN) being the most common, occurring in approximately 10% of patients treated. The exact pathophysiology of RN remains unclear but is thought to involve vascular injury, immune-mediated mechanisms, and direct neuronal effects, culminating in radiological changes or symptomatic manifestations necessitating treatment. Corticosteroids are the mainstay therapy, albeit with associated side effects and instances of cortico-resistance or cortico-dependence. Bevacizumab, an anti-VEGF agent, has shown promise in small studies but awaits validation in larger trials.
Consequently, a randomized phase III trial seeks to evaluate the efficacy of adding bevacizumab to standard corticosteroid therapy in patients with symptomatic RN. The trial aims to determine if this combination therapy yields superior symptomatic improvement compared to corticosteroids alone. RN will be diagnosed using multimodal imaging, and the primary objective is to assess the efficacy of bevacizumab in reducing corticosteroid usage and neurological symptoms associated with RN at three months. Secondary endpoints include toxicities, quality of life, imaging changes, and response duration. Additionally, an ancillary study will explore correlations between initial imaging parameters and treatment response, as well as changes in biological parameters with bevacizumab therapy.