Comparing the Addition of Radiation Either Before or After Surgery for Patients With Brain Metastases
a study on Malignant Neoplasm Brain Cancer Brain Tumor Neoplasms
Summary
- Eligibility
- for people ages 18 years and up (full criteria)
- Location
- at San Francisco, California and other locations
- Dates
- study startedcompletion around
- Principal Investigator
- by Steve E. Braunstein
Description
Summary
This phase III trial compares the addition of stereotactic radiosurgery before or after surgery in treating patients with cancer that has spread to the brain (brain metastases). Stereotactic radiosurgery is a type of radiation therapy that delivers a high dose of radiation only to the small areas of cancer in the brain and avoids the surrounding normal brain tissue. Surgery and radiation may stop the tumor from growing for a few months or longer and may reduce symptoms of brain metastases.
Official Title
A Randomized Phase III Trial of Pre-Operative Compared to Post-Operative Stereotactic Radiosurgery in Patients With Resectable Brain Metastases
Details
PRIMARY OBJECTIVE:
- To determine if the time to composite adverse endpoint (CAE) (defined as: 1) local tumor progression within the surgical bed; and/or 2) Adverse Radiation Effect (ARE), the imaging correlate of post-stereotactic radiosurgery (SRS) radiation necrosis; and/or 3) nodular meningeal disease (nMD) is improved in patients treated with pre-resection SRS to the intact lesion versus those treated with post-resection SRS.
SECONDARY OBJECTIVES:
- To assess the trajectory of symptom burden in patients treated with pre-resection SRS to the intact lesion versus those treated to the post-resection surgical cavity as measured by MD Anderson Symptom Inventory for brain tumor (MDASI-BT) II. To determine whether there is improved overall survival (OS) in patients with resected brain metastases who undergo pre-resection SRS compared to patients who receive post-resection SRS.
III. To compare rates of ARE, the imaging correlate of radiation necrosis, in patients who receive pre-resection SRS to patients who receive post-resection SRS.
IV. To determine whether there is increased time to whole brain radiotherapy (WBRT) in patients who receive pre-resection SRS compared to patients who receive post-resection SRS.
- To assess the trajectory of neuro-cognitive function in patients treated with pre-resection SRS to the intact lesion versus those treated to the post-resection surgical cavity as measured by the Montreal Cognitive Assessment (MoCA).
VI. To compare rates of nodular meningeal disease in patients who receive pre-resection SRS to patients who receive post-resection SRS.
VII. To compare rates of local recurrence in the resection cavity for patients who receive pre-resection SRS to patients who receive post-resection SRS.
VIII. To compare rates of local recurrence of intact, non-index metastases treated with SRS.
IX. To compare rates of distant brain failure in patients who receive pre-resection SRS to patients who receive post-resection SRS.
- To assess toxicity in the two treatment arms.
EXPLORATORY OBJECTIVE:
- To explore if the type of surgical resection (piece-meal versus [vs.] en-bloc) may be associated with the rate of nodular meningeal disease.
OUTLINE: Patients are randomized to 1 of 2 arms.
ARM I: Patients undergo surgery per standard of care. Within 10-30 days after surgery, patients undergo stereotactic radiosurgery for 1 fraction.
ARM II: Within 7 days before surgery, patients undergo stereotactic radiosurgery for 1 fraction. Patients undergo surgery per standard of care.
After completion of study treatment, patients are followed up every 3 months for 2 years and then every 6 months for 2 years.
Keywords
Metastatic Malignant Neoplasm in the Brain, Brain Neoplasms, Neoplasms, Brain Surgery, Quality-of-Life Assessment, Stereotactic Radiosurgery, surgery, stereotactic radiosurgery, stereotactic radiosurgery, surgery
Eligibility
You can join if…
Open to people ages 18 years and up
- Radiographic confirmation of 1-4 brain metastases, one of which requires resection, as defined by magnetic resonance imaging (MRI) with contrast obtained within 14 days prior to registration
- The maximum diameter of the lesion to be resected on the post-contrast MRI, as measured on any orthogonal plane (axial, sagittal, coronal), must measure > 2.0 cm and < 5.0 cm.
- The maximum diameter of the lesions not to be resected must measure < 4.0 cm
- Known active or history of invasive non-central nervous system (CNS) primary cancer based on documented pathologic diagnosis within the past 3 years
- All brain metastases must be located > 5 mm from the optic chiasm and outside the brainstem
- Patient is able to medically tolerate surgery and SRS
- The lesion chosen for surgical therapy must be deemed an appropriate target for safe, gross total resection by the treating surgeon
- History/physical examination within 14 days prior to registration
- Age >= 18
- Karnofsky performance status (KPS) >= 60 within 14 days prior to registration
- A negative urine or serum pregnancy test (in persons of childbearing potential) within =< 14 days prior to registration. Childbearing potential is defined as any person who has experienced menarche and who has not undergone surgical sterilization (hysterectomy or bilateral oophorectomy) or who is not postmenopausal for at least 12 consecutive months
- Participants who are sexually active must agree to use medically acceptable forms of contraception during treatment on this study to prevent pregnancy
- The patient or a legally authorized representative must provide study-specific informed consent prior to study entry and, for patients treated in the United States (U.S.), authorization permitting release of personal health information
You CAN'T join if...
- Prior cranial radiotherapy, including whole brain radiotherapy, or SRS to the resection site
- Note: The index lesion to be resected cannot have been previously treated with SRS (i.e. repeat radiosurgery to the same location/lesion is not allowed on this protocol). Previous SRS to other lesions is allowed
- Evidence of leptomeningeal disease (LMD)
- Note: For the purposes of exclusion, LMD is a clinical diagnosis, defined as positive cerebrospinal fluid (CSF) cytology and/or unequivocal radiologic or clinical evidence of leptomeningeal involvement. Patients with leptomeningeal symptoms in the setting of leptomeningeal enhancement by imaging (MRI) would be considered to have LMD even in the absence of positive CSF cytology. In contrast, an asymptomatic or minimally symptomatic patient with mild or nonspecific leptomeningeal enhancement (MRI) would not be considered to have LMD. In that patient, CSF sampling is not required to formally exclude LMD, but can be performed at the investigator's discretion based on level of clinical suspicion
- Any medical conditions which would make this protocol unreasonably hazardous, including, but not limited to: contraindications to general endotracheal anesthesia; intracranial surgery; and stereotactic radiosurgery
- Primary histology of germ cell tumor, small cell carcinoma or lymphoma
- More than one brain metastasis planned for resection
- Inability to undergo MRI with contrast
- Planned administration of cytotoxic chemotherapy or tyrosine/multi-kinase inhibitors within the 3 days prior to, the day of, or within 3 days after the completion of SRS
- Note: chemotherapy and immunotherapy outside of this window are allowed
Locations
- UCSF Medical Center-Parnassus
accepting new patients
San Francisco California 94143 United States - California Pacific Medical Center-Pacific Campus
currently not accepting new patients, but might later
San Francisco California 94115 United States - Stanford Cancer Institute Palo Alto
accepting new patients
Palo Alto California 94304 United States - Sutter Solano Medical Center/Cancer Center
accepting new patients
Vallejo California 94589 United States
Lead Scientist at UCSF
- Steve E. Braunstein
Dr. Braunstein is a radiation oncologist with a clinical interest in the treatment of pediatric, central nervous system, and soft tissue malignancies. He has expertise in modern radiation therapy techniques including stereotactic radiotherapy (Gamma Knife, Cyberknife, Linac-based SBRT), intraoperative radiotherapy, and intensity modulated radiation therapy. Dr. Braunstein earned his M.D.
Details
- Status
- accepting new patients
- Start Date
- Completion Date
- (estimated)
- Sponsor
- NRG Oncology
- ID
- NCT05438212
- Phase
- Phase 3 research study
- Study Type
- Interventional
- Participants
- Expecting 236 study participants
- Last Updated
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