Clinical Trials/NCT06471465

NCT06471465

Recruiting

Phase 3

Corticodependent or Corticoresistant Brain Radionecrosis After Radiotherapy for Brain Metastases: a Multicentre Randomized, Controlled Double-blind Phase III Study, Comparing Bevacizumab Versus Placebo

Institut Cancerologie de l'Ouest10 sites in 1 country84 target enrollmentApril 29, 2025

ConditionsRadionecrosis of Brain Brain Metastases

InterventionsBevacizumab Prednisolone Placebo

Overview

Phase: Phase 3
Intervention: Bevacizumab
Conditions: Radionecrosis of Brain
Sponsor: Institut Cancerologie de l'Ouest
Enrollment: 84
Locations: 10
Primary Endpoint: Efficacy at 90 days on decrease in corticosteroids
Status: Recruiting
Last Updated: 8 months ago

Overview Investigators Eligibility Criteria Arms & Interventions Outcomes Sites Similar Trials

Overview

Brief 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.

Detailed Description

Brain metastases (BM) are increasingly common in cancer patients; between 10% and 50% (1) will develop BM resulting in potentially disabling symptoms, degrading quality of life and impacting overall survival. The main local treatment options include surgery, hypo-fractionated radiotherapy in stereotactic condition (SRS) and whole brain radiotherapy (WBRT). Over the past decade, SRS has become the most frequently administered focal treatment(2). SRS delivers a single or multi-fraction "ablative" dose as the sole treatment for BM with an overall survival (OS) benefit in patients with single BM (HR = 0.76; CI95%: 0.66 - 0.88)(3) or postoperatively decreasing the risk of recurrence (HR = 0.46; CI95%: 0.24 - 0.88)(4). SRS compared to neurosurgery, has the ability to treat inoperable sites, multiple lesions, and has the advantage of being less invasive. WBRT is now limited to certain patients with multiple BMs and not eligible for SRS. SRS is often preferred to WBRT because of a lower rate of neurocognitive toxicities at 12 months (difference, -34.4%; CI95%: -74.4% to 5.5%; P = .04) for patients with 5 to 10 BMs. Local control at 1 year is high in the order of 90%, and SRS is generally considered a cost-effective treatment. However, after SRS there can be late side effects, that can start 3 months to several years after irradiation, the most common is cerebral radio necrosis (RN) in 10% of treated patients. The pathophysiology is poorly understood and includes vascular injury, immune-mediated mechanisms and direct neuronal effects. Vascular injury leads to increased permeability after radiotherapy resulting in vasogenic oedema and ischemia, induce hypoxia and an increase in hypoxia inducible factor (HIF-1α) then upregulating vascular endothelial growth factor (VEGF) which exacerbates the oedema by increasing vascular permeability which creates a vicious cycle and RN, hence the importance of inhibiting VEGF(5). RN may remain as radiological changes (CTCAE v5 grade I toxicity approximately 50%)(6) to be monitored or be symptomatic (grade II-IV) and requiring treatment. Symptoms are usually manifested by focal neurological signs and symptoms related to cerebral oedema. Corticosteroids are the only standard of care before surgery, which is performed when possible. The problem is that high-dose, long-term corticosteroids have multiple side effects and some patients with RN may remain symptomatic despite corticosteroid administration (cortico-resistance) or relapse while decreasing the corticosteroid dose (cortico-dependence) and no standard treatment is available. Only one small (14 patients) randomized double-blind study compared bevacizumab 7.5 mg/kg every 3 weeks versus placebo in RN after irradiation. All 7 patients in the bevacizumab arm had a decrease in FLAIR oedema volume with clinical improvement in contrast to the placebo arm where everything worsened(7). Thus, the anti-VEGF, bevacizumab, is an option but needs to be validated in a phase 3 randomized trial. This randomized phase III trial aims to determine whether the impact of adding bevacizumab to standard corticosteroid therapy results in greater symptomatic improvement than corticosteroid therapy alone in patients with symptomatic RN. RN will be defined by a multimodal imaging approach combining brain MRI and nuclear medicine imaging (18F-FDOPA PET or dual phase 18F-FDG PET on CT or MRI). The primary objective of this study is to investigate whether the addition of bevacizumab to standard corticosteroid therapy, compared to corticosteroid therapy plus placebo, results in greater efficacy at 3 months on decrease in corticosteroids and in neurological symptoms associated with radionecrosis (RN). Secondary endpoints were toxicities, quality of life, PROs (Patient Reported Outcomes) and Clinician Reported Outcomes (CRO), imaging changes at 3 months, total weaning of corticosteroids and response duration. An ancillary study will evaluate the correlation between the initial nuclear medicine imaging parameters and the response to treatment as well as the evolution of biological parameters under bevacizumab.

Registry

clinicaltrials.gov

Start Date

April 29, 2025

End Date

August 1, 2030

Last Updated

8 months ago

Study Type

Interventional

Study Design

Parallel

Sex

All

Investigators

Sponsor

Institut Cancerologie de l'Ouest

Responsible Party

Sponsor

Eligibility Criteria

Inclusion Criteria

•Patient with a diagnosis of radionecrosis based on a clinical onset of symptoms and radiological findings of RN following radiotherapy, with or without pathological confirmation:
•MRI evidence to support the diagnosis of RN (transient increase in irradiated lesion volume -FLAIR hypersignal and/or enhanced portion- without rCBV increase) COMBINED with nuclear medicine imaging:
•biphasic 18FDG-PET-TDM/MRI according to Horky or 18F-FDOPA with stage 0-1 according to Lizarraga;
•Symptoms are persistent or worsening despite administration of corticosteroids: at least 1 mg/kg/d of prednisolone or equivalent:
•Corticoresistant: neurological symptoms despite administration of at least 2 weeks of 1 mg/kg/d prednisolone or equivalent; Corticodependant: worsening of neurological signs or symptoms after an initial improvement when weaning off steroids at a dose \< 0.5 mg/kg/d prednisolone or equivalent;
•Patients must have received the last cranial irradiation with photons or proton therapy for brain metastases ≥ 3 months with one or more sequences;
•Age≥18-year-old;
•ECOG performance status score ≤ 3
•Life expectancy of at least 3 months assessed by graded prognostic score (DS-GPA) score 0.5 or greater;
•Patient who has never received Bevacizumab for the indication of radionecrosis.

Exclusion Criteria

•Evidence of active bleeding or a pathological condition at high risk of bleeding: CNS hemorrhage, bleeding diathesis or coagulopathy, hemoptysis (\>2.5ml of bright red blood per episode), evidence of history of bowel obstruction, abdominal fistula, or gastrointestinal tract perforation or gastro intestinal abscess occurring less than 28 days prior study entry;
•Grade 4 venous thromboelism and peripheral arterial thrombus
•Evidence of very high intracranial pressure that suggests brain hernia and needs emergency surgery;
•Major surgical procedure or significant traumatic injury less than 28 days prior study entry; minor surgery within 3 days prior to initiation of study treatment;
•Clinically significant cardiovascular disease such as uncontrolled arterial hypertension (BP ≥160 mm Hg or diastolic BP ≥100 mm Hg despite maximal medical therapy), cerebrovascular event, myocardial infarction, cardiac arrhythmias, unstable angina, or congestive heart failure within the last 6 months;
•History of hypertensive crisis or hypertensive encephalopathy
•Patients scheduled to undergo head and neck, thoracic, or abdominal radiotherapy during the study treatment
•Prior bevacizumab ≤ 3 months before randomization;
•Progressive brain metastases;
•History of severe allergic anaphylactic reactions to bevacizumab

Arms & Interventions

Experimental arm

Experimental: bevacizumab + prednisolone The patient will receive bevacizumab 7.5 mg/kg IV given on Q3W for4 cycles or until progression of radionecrosis or unacceptable adverse event. Once the patient has started the study treatment, the dose of prednisolone will be tapered every 7 days beginning at C2D1 (at least 10 mg prednisolone or equivalent), depending on tolerance. If the patient weighs more than 100 kg, the tapering can be increased by 10 to 20 mg per week for the first 3 months. Interventions: Drug: bevacizumab Drug : prednisolone

Intervention: Bevacizumab

Experimental arm

Intervention: Prednisolone

Placebo arm

Placebo arm: placebo + prednisolone The patient will receive placebo 0.9% NaCl volume equal to bevacizumab volume added to 100 mL bag of 0.9% NaCl delivered IV given on on Q3W for4 cycles or until progression of radionecrosis or unacceptable adverse event. Once the patient has started the study treatment, the dose of prednisolone will be tapered every 7 days beginning at C2D1 (at least 10 mg prednisolone or equivalent), depending on tolerance. If the patient weighs more than 100 kg, the tapering can be increased by 10 to 20 mg per week for the first 3 months. Interventions: Drug: placebo Drug : prednisolone

Intervention: Placebo

Placebo arm

Intervention: Prednisolone

Outcomes

Primary Outcomes

Efficacy at 90 days on decrease in corticosteroids

Time Frame: 90 days after start of treatment

To investigate whether the addition of bevacizumab to standard corticosteroid therapy, compared to corticosteroid therapy plus placebo, results in greater efficacy at 3 months (90 days) on decrease in corticosteroids with radionecrosis (RN) after radiotherapy for brain. metastases. Will be assessed corticosteroids dose at Cycle 1 Day 1 and at 3 months (90 days after Cycle 1 Day 1, End of treatment visit)

Secondary Outcomes

Patient-reported outcome symptoms of radionecrosis(90 days after start of treatment)
Toxicity (CTCAE Version 4.0)(up to 90 days after end of treatment)