View clinical trials related to Brain Neoplasms.
Filter by:PPROSPERITIT is a prospective clinical study assessing the use of comprehensive molecular profiling to define the best matching targeted and immune treatment for relapsed, refractory or very high risk pediatric CNS tumors.
Background. Brain metastases (BM) are the most common intracranial tumor and occur in 20-40% of all oncological patients. The most common primary cancer in brain metastases is lung cancer, followed by melanoma, breast cancer, renal cancer and colorectal cancer. The incidence of brain metastases has been increasing but the occurrence of brain metastases is still associated with high morbidity and poor prognosis. The main treatment methods are stereotactic radiosurgery (SRS), microsurgical resection and whole brain irradiation (WBRT). In contrast to microsurgical resection, Gamma Knife radiosurgery (GKRS) is a non-invasive neurosurgical method, which allows treatment in multimorbid patients with contraindications for surgery in general anesthesia. Furthermore, stereotactic radiosurgery is the only local treatment method for multiple disseminated and thereby non-resectable brain metastases. In general, microsurgical resection is considered the treatment of choice for BM exceeding >3 cm in diameter. However, since the establishment of the dose-staged technique, larger metastases can also be treated radiosurgically in selected patients. This novel method allows the application of high cumulative dose for the treatment of complex brain metastases. Aim. The aim of the study is to evaluate the clinical outcome in brain metastases patients with tumor volume between 8 and 20 ccm3. The clinical outcome will be compared between surgically and radiosurgically treated BM patients. Patients and methods. The investigators plan to conduct an explorative prospective study including about 50 radiosurgically and 50 surgically treated patients with brain metastases. If a patient fulfill study-relevant inclusion criteria at the time of BM diagnosis, the principle study investigator will offer both treatment options to the patient. Depending on patient's choice, he/she will be categorized either to surgical or to radiosurgical treatment group. For the outcome evaluation of the different treatment options, a comprehensive database will be established. The study participations will not interfere with any clincally indicated therapeutic decisions and the study participants will not be exposed to any additional risks since both treatments represent suitable therapy options.
Intraoperative radiotherapy (IORT) is a new alternative for local radiotherapy with the advantages of dose escalation, reduced overall treatment time, and enhanced patient convenience, however the degree of efficacy is unknown, as well as and which is the most efficient dose. The objective of this study is to evaluate the efficacy and safety of IORT in patients with surgical excision of brain metastases at a dose of 20 Gy is at least as effective and safe as other forms of radiation therapy in patients with resection of brain metastases.
Arterial spin labeling (ASL) is a non-invasive MRI technique that could help the radiologists to distinguish brain metastasis progression versus radionecrosis following gamma-knife treatment. The primary target of the study is to establish the diagnostic performances (specificity, sensitivity) of quantitative measures of ASL in brain metastases suspected of progression/radionecrosis after GK treatment
The purpose of this study is to evaluate the safety and efficacy of Keynatinib capsules in patients with advanced non-small cell lung cancer (NSCLC) with brain metastasis or progression of brain metastasis after treatment with EGFR inhibitors. As well as, to evaluate the penetration rate of Keynatinib in the Blood-Brain Barrier (BBB) and its PK characteristics, and the relationship between exposure levels with efficacy and safety.
This clinical trial evaluates the side effects and possible benefits of operating on brain tumors prior to the tumor coming back (recurrence). Understanding when surgery is most useful to patients with brain tumors is important. Some patients may undergo chemotherapy or radiation but still have visible tumor remaining after treatment. The purpose of this research is to compare outcomes of those who have surgery after chemotherapy or radiation, but prior to tumor recurrence, to those who have surgery at a different time, or no surgery at all.
Background: For newly-diagnosed patients with brain metastasis, conventional whole-brain radiation therapy (WBRT) might still remain a common palliative management even for those with brain oligometastases. However, WBRT-related late consequences, particularly a decline in neurocognitive functions (NCFs), are a major concern. Actually, WBRT-related neurocognitive dysfunction is usually characterized as deterioration involving learning and memory, in which the extremely radiosensitive hippocampus indeed plays a critical role. In order to postpone or mitigate the effect of conventional WBRT-induced neurocognitive impairments, there have been some strategies and options in clinical practice. Among them, the technique of highly precise and accurate stereotactic radiosurgery or stereotactic radiotherapy (i.e., hypofractionated stereotactic radiotherapy, HS-SRT) might have been widely administered in irradiating purely focal metastatic foci in cancer patients with a limited number of brain metastases. Methods: Newly-diagnosed cancer patients harboring 1-3 brain metastatic lesions are eligible if they are still in a fair/good performance status. All recruited patients should receive baseline brain MRI examination and pre-radiotherapy neurocognitive assessment. Sticking to the principles of stereotactic radiosurgery/radiotherapy (SRS/SRT), treatment planning will be designed via the technique of volumetric-modulated arc therapy (VMAT) to achieve both satisfactory in-field local control (but assuring of hippocampal avoidance) and a tolerably low incidence of radiation necrosis, a course of hypofractionated stereotactic radiotherapy (HF-SRT) is delivered within 2 weeks with a cumulative dose of 3000 - 3500 cGy in 5 fractions. Accordingly, a battery of neuropsychological measures, which includes 7 standardized neuropsychological tests (e.g., executive functions, verbal and non-verbal memory, working memory, and psychomotor speed), is used to evaluate neurocognitive functions for our registered patients. The primary outcome measure is cognitive-deterioration-free survival, which is defined mainly as the time from enrollment to a NCF decline of exceeding than 1 SD away from the baseline involving at least one of the assessed NCF tests. Additionally, patients who expire before 6 months or are alive but fail to undergo all the neurocognitive testing administered would also be defined as suffering from cognitive deterioration. There are quite a few secondary endpoints of interest, including the patterns of (CNS) failure, actual local control rates, time to (CNS) progression, and cumulative incidence of radiation necrosis. Expected results: This prospective neurocognitive study aims to examine thoroughly the impact of the technique of highly focal brain irradiation administered with a course of hypofractionated SRT delivered to brain metastatic lesions merely (but sparing hippocampal structures), on neurocognitive performance, time to (CNS) progression, and patterns of (CNS) failure, in patients with brain oligometastases and a fair/good performance status. It is anticipated that (in-field) local control would be durable and that neurocognitive outcomes would also be maintained favorably. Moreover, we also expect that the patterns of (CNS) failure and the individual time to progression will be clearly demonstrated in this prospective longitudinal neurocognitive study.
This is a multi-institutional, single arm, open label, Phase Ib/II study of abemaciclib in combination with elacestrant in patients with HR+/Her2- breast cancer metastatic to the brain. Patients may have received up to two prior lines of systemic chemotherapy for locally advanced or metastatic disease. There will be no limit on prior use of endocrine therapy including aromatase inhibitors, tamoxifen and fulvestrant, given a documented clinical benefit of elacestrant in this setting.
The study's primary objective is the evaluation of toxicities reported during RS or HFSRT in patients with brain metastases from NSCLC undergoing immunotherapy (Safety), with particular reference to the rate of symptomatic radionecrosis and intralesional hemorrhage. Others primary objectives of the study are the Feasibility and the intracranial control of the disease, both local (site radiotherapy treatment) and at a distance (intracranial, but at a distance from the site of the disease treated with stereotaxic radiotherapy). The secondary objectives concern quality assessment of life of the patients under study (Quality Of Life, QoL).
Brain metastases (BM) represents a devastating clinical reality, carrying an estimated survival time of less than one year. Number of reasons, including complicated tumor biology and difficulties in modeling metastatic cancer in brain microenvironment, do hinder research on this topic. BM are indeed the most frequent neoplasm in the central nervous system (CNS) and is estimated that up to 14% of all newly diagnosed cancers will metastasize to the brain. A number of reasons, including complicated tumor biology and difficulties in modeling metastatic cancer in brain microenvironment, do hinder research on this topic. Present knowledge regarding alterations in Glutamate (Glu) homeostasis and BM is poor. This study aims at investigating Glu balance in BM patients and providing supporting evidence to the identification of new putative biomarkers to be used as potential therapeutic targets.