View clinical trials related to Brain Metastases, Adult.
Filter by:A biomarker is a measurable indicator of the severity or presence of some disease state. In this study, brain metastases patients who will be receiving radiation treatment, will undergo CT (Computed Tomography) and MRI (Magnetic Resonance Imaging) scans prior to and after radiation treatment to measure these biomarkers. This is a single-center phase II study to validate the predictive abilities of biomarkers, in terms of determining how patients will respond to radiation treatment.
This is an open-label, historically controlled pilot study investigating the immune effect of Laser Interstitial ThermotHerapy (LITT)+ pembrolizumab in adult patients with a primary cancer approved by the FDA for treatment with an immune-checkpoint inhibitor who have recurrent brain metastasis after prior stereotactic radiosurgery (SRS).
Recent research indicates that variability in cognitive function for brain tumor survivors may be explained by differences in cognitive reserve (CR) and use of compensatory strategies.However, it is unknown when cognitive function declines or survivors tap into compensation. This longitudinal mixed methods study proposes to explore differences in cognitive function and change over time in newly diagnosed adults with brain cancer prior to, immediately after (within 2 weeks), and 2-3 months after radiation therapy treatment has been completed. Specific aims are to: Aim1: Examine the relationship between objective and subjective cognitive function in subjects newly diagnosed with brain cancer prior to and after XRT. Aim 2: Explore the interrelationship between cognitive function and compensation (neural and behavioral) by high/low CR prior to and after XRT. Aim 3: Describe the trajectory of objective and subjective cognitive function over time by CR, cancer type, and associated treatment-related factors.
This study investigates the intrafractional accuracy of a frameless thermoplastic mask used for head immobilization during stereotactic radiotherapy. Non-invasive masks cannot completely prohibit head movements. Previous studies attempted to estimate the magnitude of intrafractional inaccuracy by means of pre- and postfractional measurements only. However, this might not be sufficient to accurately map also intrafractional head movements. Intrafractional deviation of mask-fixed head positions is measured in five patients during a total of 94 fractions by means of close-meshed repeated ExacTrac measurements conducted during the entire treatment session. From the obtained data the investigators evaluate the need to adjust safety margins around the gross tumor volume (GTV) whenever the investigated thermoplastic mask is used instead of invasive ring fixation.
This is a Prospective Randomized Open Blinded Endpoint phase II clinical trial. The study will be adaptive: an interim analysis is planned after enrolment of 20 patients in each arm of treatment (WBRT and AGuIX® + WBRT), to select and continue the study with group(s) that present the best response rate to the experimental treatment (AGuIX® + WBRT). The main endpoint will be evaluated by a blinded endpoint committee.
Brain metastases (BM) are the most prevalent tumors of the central nervous system (CNS), with a ratio of 10: 1 in relation to primary tumors. In prospective studies, whole-brain radiotherapy (WBRT) reduced the risk of local recurrence after resection of brain metastases from 46-59% to 10-28%. Furthermore, WBRT reduces the incidence of new metastases and death from disease, but no apparent improvement in overall survival (OS). Due to the potential neurocognitive effects associated with WBRT compared to isolated focal approach, several authors have suggested delaying WBRT and perform focal adjuvant RT after resection of isolated BM. In this context, intraoperative radiotherapy (IORT) in the cavity after resection of BM may be an appealing option. The primary objectives of this study are to evaluate local control (LC) and the control of brain disease (LC associated with the absence of new distant BM) after IORT for one completely resected supratentorial BM in the presence of up to 10 lesions suggestive of BM.
Stereotactic radiosurgery or hypofractionated radiotherapy of the resection cavity after metastasectomy in cancer patients with brain metastases
In advanced cancer disease brain metastases are common, difficult to treat, and are associated with a poor prognosis. As new local and systemic therapies are eventually resulting in improved survival and quality of life for patients with brain metastases, negative neurocognitive effects of radiation therapy are becoming increasingly important as well as good loco-regional disease control of brain metastases. Concerning treatment, brain metastases remain a major clinical problem and a multidisciplinary approach to management should be adopted. Neurosurgical resection with postoperative whole brain radiotherapy (WBRT) is one major treatment option in solitary or symptomatic brain metastases. Furthermore, WBRT is recommended for multiple brain metastases. For a limited number of brain metastases stereotactic radiosurgery (SRS) has been established as a highly effective treatment alternative. Recently, a new treatment approach combing neurosurgery with postoperative stereotactic radiotherapy (SRT) of the resection cavity is emerging. Based on available evidence, postoperative SRT of the resection cavity improves local control following surgery, reduces the number of patients who require whole brain radiotherapy, and is well tolerated (1). This protocol is aimed at primarily evaluating the safety and toxicity profile of SRT to the resection cavity following neurosurgical resection combined with SRT of potentially further unresected brain metastases, compared to postoperative whole-brain radiotherapy (WBRT). Secondary, the local effect of SRT in patients with brain metastases will be assessed by measuring time to local recurrence (LR), local and loco-regional progression-free survival (PFS). Additional systemic treatment will be carried out according to the standards of the National Center for Tumor Therapy (NCT).
Stereotactic radiosurgery (SRS) is increasingly administered as the sole treatment of brain metastases, in order to spare acute and long term side effects associated with whole brain radiotherapy. Local control of SRS treated lesions is good, but patients tend to develop additional brain metastases subsequently. Nivolumab is a modulator of the immune system. Treatment with Nivolumab is associated with an increase in local control and survival in patients with non-small cell lung cancer and clear cell renal cell carcinoma. In the presence of Nivolumab, treatment of brain metastases with SRS may trigger an immune reaction against cancer. Therefore, the combination of SRS with Nivolumab may reduce the development of new brain metastases and improve patient survival. The purpose of this study is to assess the effect of combining Nivolumab and SRS in controlling cancer progression. SRS will be administered to patients while they are receiving Nivolumab.
The purpose of this study is to determine the effectiveness and efficiency of Single Isocenter Multi-target Stereotactic Radiosurgery (SIMT SRS) in patients with four or more brain metastases