This clinical trial studies whether it is safe to remove radiation therapy from the treatment of melanoma or non-small cell lung cancer (NSCLC) that has spread from where it first started (primary site) to the brain (brain metastases) in patients who are receiving central nervous system (CNS)-active systemic therapy after surgery to remove the brain metastases (resection). Patients with brain metastases usually receive radiation therapy after resection to reduce the chance of the tumor returning. Radiation therapy uses high energy x-rays, particles, or radioactive seeds to kill tumor cells and shrink tumors. Radiation therapy is effective but can cause side effects, including swelling or damage to healthy brain tissue. CNS-active systemic therapy is a label used for specific anti-cancer drugs that can control tumors in the CNS, including the brain. However, it is not yet known whether these medicines can control the area where a tumor was removed without the use of radiation therapy. Researchers hope that removing radiation therapy may be a safe, tolerable, and/or effective way to treat brain metastases in patients with melanoma or NSCLC who are receiving CNS-active therapy after resection.
Study sponsor and potential other locations can be found on ClinicalTrials.gov for NCT07655583.
Locations matching your search criteria
United States
Texas
Houston
UT MD Anderson Cancer CenterStatus: Temporarily closed to accrual
Contact: Thomas Hendrix Beckham
Phone: 713-792-5933
PRIMARY OBJECTIVE:
I. To estimate the risk of surgical bed recurrence of resected melanoma or NSCLC brain metastases treated with highly CNS-active systemic therapy without post-operative radiation.
SECONDARY OBJECTIVES:
I. To assess the risk of disease recurrence at any site (i.e. surgical bed recurrence, distant intracranial progression, leptomeningeal spread, and extracranial progression) of resected melanoma and NSCLC brain metastases treated with highly CNS-active systemic therapy without post-operative radiation.
II. To evaluate the risk of death, including neurologic death, for patients with resected melanoma and NSCLC brain metastases treated with highly CNS-active systemic therapy without post-operative radiation.
III. To characterize the incidence of treatment-related adverse events (TRAEs) for patients with resected melanoma and NSCLC brain metastases started on highly CNS-active systemic therapy without post-operative radiation.
IV. To describe neurocognitive changes that occur for patients with resected melanoma and NSCLC brain metastases after starting highly CNS-active systemic therapy without post-operative radiation.
EXPLORATORY OBJECTIVES:
I. To perform correlative analyses between baseline patient, disease, pathologic, and treatment characteristics and the primary and secondary endpoints.
II. To explore landmark analysis to compare responders (including complete response or partial response, as defined) and non-responders to the study treatment at a predefined follow-up time point (e.g. 1 year), with respect to baseline patient, disease, pathologic, and treatment characteristics and the primary and secondary endpoints.
III. To explore preliminary insights into imaging biomarkers by radiomic analysis to identify classifications and patterns of surgical bed recurrence, which can be assessed for correlations between baseline patient, disease, pathologic, and treatment characteristics.
OUTLINE: Patients with resected melanoma brain metastases are assigned to cohort I, patients with resected NSCLC brain metastases are assigned to cohort II.
COHORT I: Within five weeks after surgical resection, patients receive dual-agent immune checkpoint inhibitor therapy as determined by treating physician. Patients may also receive additional systemic therapy and/or radiation therapy, if deemed allowable, on study. Treatment continues at the discretion of the treating physician. Additionally, patients undergo magnetic resonance imaging (MRI) throughout the study for up to 2 years.
COHORT II: Within five weeks after surgical resection, patients receive either osimertinib or brigatinib, alectinib, or lorlatinib as determined by the treating physician. Patients may also receive newly approved agents at the discretion of the principal investigator or additional systemic therapy and/or radiation therapy, if deemed allowable, on study. Treatment continues at the discretion of the treating physician. Additionally, patients undergo MRI throughout the study for up to 2 years.
After completion of study treatment, patients are followed up every 18 weeks until death.
Trial PhaseNo phase specified
Trial Typetreatment
Lead OrganizationUT MD Anderson Cancer Center
Principal InvestigatorThomas Hendrix Beckham