Precision Radiotherapy for Refractory Brain Metastases: A Multicenter Study
NCT07586657 · Status: NOT_YET_RECRUITING · Phase: PHASE3 · Type: INTERVENTIONAL · Enrollment: 200
Last updated 2026-05-14
Summary
Conventional image-guided techniques (such as cone-beam CT) have poor soft tissue contrast and unsatisfactory treatment outcomes. MRgART offers high-resolution imaging of brain tissue and, by acquiring daily MR images, successfully achieves real-time image monitoring, displaying tumor position and volume changes during treatment. This may improve local control rates for brain metastases, reduce toxicities, and translate into survival benefits. Our research team has already conducted a phase II prospective study and achieved favorable results, with a 1-year local control rate of 100% for intracranial brain metastases, significantly superior to historical controls of conventional radiotherapy, no severe late toxicities, and real-time individualized precision treatment. Based on the phase II study results, this phase III single-arm prospective study was designed. This study aims to conduct a multicenter prospective study to establish an MR-guided adaptive radiotherapy (MRgART) technical platform, enabling real-time monitoring of tumor position and volume changes and individualized plan adaptation. Through technological innovation, we aim to significantly improve local control rates for large and complexly located brain metastases while reducing severe adverse effects such as radiation brain necrosis, thereby laying the technical foundation for precise and safe treatment. This study will establish a new technical system for adaptive radiotherapy (ART) for brain metastases based on per-fraction MR images acquired during radiotherapy, using adaptive radiotherapy to improve target dose coverage and reduce radiation doses to organs at risk such as normal brain tissue. It is anticipated to validate the phase II findings of high local control, low toxicity, and significantly prolonged survival. Based on the obtained results, combined with multicenter clinical practice and application experience, domestic and international expert symposiums and special sessions will be conducted, and a multicenter consensus on MRI-linac guided adaptive radiotherapy for brain metastases from lung cancer will be developed.
Furthermore, this study recognizes that MRI generates high noise levels and that without appropriate hearing protection, repeated treatments may cause hearing damage to patients. Therefore, the study will simultaneously collect hearing-related scales from patients before, during, and after treatment (through pure-tone audiometry tests performed in the otolaryngology department or self-administered pure-tone screening via a mini-program) to explore the impact of performing or not performing strict hearing protection on changes in patients' hearing scales, as well as its effect on treatment interruption or repeated setup.
Compared to conventional cone-beam CT-guided radiotherapy, MRI-guided adaptive radiotherapy still has some shortcomings. MR image acquisition is slow, and after each fraction's images are acquired, they require manual registration with CT images, followed by manual re-contouring and manual plan calculation, and finally, execution requires triple review by physicians, physicists, and therapists. Currently, each patient requires approximately 40 minutes to 1 hour from lying on the treatment couch to the end of treatment. If there are setup errors or significant target volume changes requiring adaptive re-contouring, even more time may be needed to complete the treatment, posing significant challenges to patients' physical strength and mental state, and limiting its potential application value in patients with altered consciousness, the elderly and frail, or those unable to cooperate. Additionally, it consumes substantial medical resources. To address this situation, our research group plans to develop an artificial intelligence-assisted system for target contouring, treatment planning, and treatment decision-making. Based on our center's previously published results, we aim to establish a full-process AI-assisted model for MRgART in the treatment of lung cancer brain metastases, and compare its efficacy and treatment time differences with manual-only radiotherapy delivery. On this basis, we will explore the feasibility of exempting a small subset of patients (approximately 10-20 patients) in the phase III study from conventional CT and MR simulation, contouring targets and generating plans on simulation CT and MRI images, and then directly using ATS (adaptive target shaping based on interfractional target deformation) to generate radiotherapy plans within the MRgART workflow and proceed with subsequent treatment.
Conditions
- Brain Metastasases
Interventions
- RADIATION
-
adaptive radiotherapy
Patients will receive 1.5T MR-Linac guided adaptive radiotherapy (52 Gy/13 fractions, with individualized fractionation adjustments based on tumor size and location).
Sponsors & Collaborators
-
Cancer Institute and Hospital, Chinese Academy of Medical Sciences
lead OTHER
Study Design
- Allocation
- NA
- Purpose
- TREATMENT
- Masking
- NONE
- Model
- SINGLE_GROUP
Eligibility
- Min Age
- 18 Years
- Max Age
- 75 Years
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2026-04-28
- Primary Completion
- 2028-12-31
- Completion
- 2028-12-31
More Related Trials
-
Neurococognitive and Functioal Assessment of Patients With Brain Metastases
NCT01861405 ·Status: UNKNOWN
-
Diffusion-weighted MRI to Predict Treatment Response in Stereotactic Radiotherapy of Central Nervous System (CNS) Metastases
NCT04700748 ·Status: UNKNOWN ·Phase: NA
-
68Ga-BNOTA-PRGD2 PET/CT in Diagnosis and Evaluation of Glioma
NCT01801371 ·Status: UNKNOWN ·Phase: EARLY_PHASE1
-
FLT-PET / MRI Brain Mets
NCT04244019 ·Status: ACTIVE_NOT_RECRUITING
-
Impact of the MRI Restraint System on the Quality of the Synthetic Scan for Intracranial Radiotherapy Treatment
NCT06994702 ·Status: COMPLETED ·Phase: NA
-
Exploring the Role of 3T MRI in Gamma Knife Radiosurgery
NCT00602992 ·Status: COMPLETED
-
Proton MR Spectroscopy of Brain Metastases in Evaluation of Treatment Response.
NCT00184288 ·Status: WITHDRAWN
-
MRI Following Stereotactic Radiosurgery (SRS) for Brain Metastases
NCT04246879 ·Status: ACTIVE_NOT_RECRUITING ·Phase: NA
-
Radiomics for Prediction of Long Term Survival and Local Failure After Stereotactic Radiotherapy for Brain Metastases
NCT02265549 ·Status: COMPLETED
-
Dosimetric Validation of Scans Generated by GAN From Pre-therapeutic MRI in Stereotactic Cerebral Radiotherapy
NCT04525053 ·Status: COMPLETED
-
Response of Brain Metastases After Gamma-Knife Radiosurgery Using Dynamic Susceptibility-weighted Contrast-enhanced Perfusion Magnetic Resonance Imaging
NCT02311556 ·Status: COMPLETED ·Phase: PHASE1
-
Developing a New MRI Technique to Understand Changes in Brain Tumors After Treatment
NCT05559853 ·Status: RECRUITING
-
Reducing the Incidence of Symptomatic Brain Metastases With MRI Surveillance
NCT05692635 ·Status: RECRUITING ·Phase: PHASE2
-
Development of MRF for Characterization of Brain Tumors After Radiotherapy
NCT06101069 ·Status: RECRUITING ·Phase: NA
-
68Ga-RM26-RGD PET/CT Imaging in the GRPR and αvβ3 Positive Tumor Patients
NCT05549024 ·Status: RECRUITING ·Phase: EARLY_PHASE1
-
PET (FDG)-MR Imaging for the Adult Patients Presented With Brain Tumor
NCT02071017 ·Status: UNKNOWN
-
Analyzing Preoperative Stereotactic Radiosurgery With Gamma Knife Icon for Brain Metastases
NCT04545814 ·Status: COMPLETED ·Phase: NA
-
MRI Biomarkers for Radiation-Induced Neurocognitive Decline Following SRS of Newly Diagnosed Brain Mets
NCT04073966 ·Status: RECRUITING
-
UCSD Image-Guided Cognitive-Sparing Radiosurgery for Brain Metastases
NCT04343157 ·Status: RECRUITING ·Phase: PHASE2
-
Assessment of Early Treatment Response by Diffusion and Perfusion MRI in Patients With Brain Metastasis
NCT01974804 ·Status: COMPLETED
-
Imaging Features for the Risks for Recurrence After Stereotactic Radiosurgery in Brain Metastasis
NCT05868928 ·Status: RECRUITING
-
Brain Imaging Biomarkers in Patients With Brain Metastasis
NCT04197297 ·Status: RECRUITING ·Phase: PHASE2
-
Metabolic Tumor Volumes in Radiation Treatment of Primary Brain Tumors
NCT02006563 ·Status: COMPLETED
-
A Study of How Proton Beam Radiotherapy (PBRT) Affects Brain Function and Quality of Life in Children and Young Adults Undergoing Treatment for a Brain Tumor
NCT05288439 ·Status: ACTIVE_NOT_RECRUITING ·Phase: NA
-
Feasibility of MRI Workflow Alone in External Radiotherapy for the Treatment of Brain and Prostate Tumors
NCT04704804 ·Status: COMPLETED