View clinical trials related to Brain Metastases.
Filter by:The purpose of this study is to determine whether AGuIX (Activation and Guidance of Irradiation by X-ray) gadolinium-based nanoparticles make radiation work more effectively in the treatment of patients with brain metastases that are more difficult to control with stereotactic radiation alone.
About 20 to 30% of patients treated for cancer will have brain metastases. These brain metastases are found more frequently in patients with lung cancer, breast cancer or melanoma. The prognosis of these patients is unfavorable but prolonged survival can be obtained with the local and systemic treatments currently available. Brain MRI is the gold standard for evaluating brain metastases but has limitations in therapeutic evaluation, partially offset by PET imaging of amino acid metabolism. Our work aims to compare the performance of PET-DOPA with standard MRI for the detection of brain metastases (≥ 5mm) in lung cancer, breast cancer and melanoma; and to characterize these lesions using dynamic acquisitions obtained with a digital PET camera with high spatial resolution. Having better knowledge of the metabolic characteristics of newly discovered brain metastases, the objective of subsequent studies will be to better assess the per- or post-therapeutic efficacy of radiotherapy and the various systemic therapies available (chemotherapy, targeted therapy, immunotherapy).
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.
Almonertinib is a three-generation epidermal growth factor receptor tyrosine kinase inhibitor(EGFR-TKI), which has shown competitive potential in the second-line treatment against first-generation TKIs. This study aims to explore the efficacy and safety of different doses of almonertinib in the first-line and second-line treatment of brain metastases/meningeal metastases in NSCLC patients.
This study assesses the feasibility of SGM-101, a fluorochrome-labeled anti-carcinoembryonic antigen monoclonal antibody, for intraoperative near-infrared fluorescence imaging of colorectal brain metastases by injecting SGM-101 intravenously 3 - 5 days prior to surgery.
The present study aims to investigate the potential application of multispectral analysis, hyperspectral imaging, and fluorescence during neuro-oncological procedures, specifically during brain tumour debulking / resection. These optics techniques are entirely non-invasive and consist in camera with a filter to be linked to the standard microsurgical and endoscopic instruments used in theatre. The research procedure consists of images acquisition and data processing, with virtually no additional invasive procedures to be performed on patients.
Stereotactic radiation therapy is an important and common method of treating brain metastases in patients with malignant disease. Today, however, there are no methods available to determine the metastasis' radiation sensitivity in advance and treatment responses can only be seen by changing of the size of the metastasis on conventional X-ray examinations, computed tomography (CT) and magnetic resonance imaging (MRI). Changes in the size of the metastases is something that is often seen weeks / months after treatment is completed. At Lund University Hospital, a new imaging technique, diffusional variance decomposition (DIVIDE), has now been developed. With this technique, the scatter in isotropic and anisotropic diffusion can be measured for each measuring point, which provides significantly more information about the properties of the tissue compared to current methods.