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Browse 1,242 clinical trials for brain cancer. Find studies that match your criteria and connect with research centers.
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NCT06523582
Neuroendocrine neoplasms (NENs) are a heterogeneous group of lesions derived from cells with the ability to produce hormones that may arise from multiple different organs. Their clinical behavior is quite variable, encompassing both benign lesions and aggressive tumors that invade surrounding and/or distant structures. NENs may also cause serious morbidity due to hormone oversecretion. NENs are among the most frequently inherited human tumors, presenting either isolated or as part of syndromes in which a single patient or family develops multiple tumors. There are also non-inherited changes in the genetic information of the tumor cells that are potential targets for treatment. Both inherited and non-inherited DNA defects can be identified using modern routine genetic tests which, unfortunately, are not widely available in Mexico. This project seeks to uncover the genetic defects causing NENs in a large cohort of Mexican patients, using three different methods for genetic testing. Adult individuals with various types of NENs from two reference hospitals in Mexico City will be invited to participate. After completing informed consent, blood and, if possible, tissue samples will be obtained from all participants. Clinical details, laboratory results, imaging studies, and histopathological data at disease presentation will be retrieved. An initial screening will be performed by analyzing changes in the sequence of multiple genes that have been associated with the occurrence of NENs. In cases with negative screening, a specific method to assess changes in the number of copies of the same genes will also be employed. Finally, sequences of all DNA regions encoding information required to make proteins will be obtained in selected cases. Analyses will be carried out in blood and, if available, also in tumor tissue samples from study participants. Screening of additional family members will be offered. This project will accurately describe the repertoire of specific defects causing NENs in the study population, and will likely uncover and characterize novel genetic associations. The results will contribute for a better understanding of the alterations within and outside known driver genes that shape syndromic presentations, tumor behaviors, and inheritance patterns in individuals with NENs. These data will contribute to improve the information on the molecular bases of NENs, including alterations that can be used as therapeutic targets.
NCT05184790
This study will develop a whole-of-body markerless tracking method for measuring the motion of the tumour and surrounding organs during radiation therapy to enable real-time image guidance. Routinely acquired patient data will be used to improve the training, testing and accuracy of a whole-of-body markerless tracking method. When the markerless tracking method is sufficiently advanced, according to the PI of each of the data collection sites, the markerless tracking method will be run in parallel to, but not intervening with, patient treatments during data acquisition.
NCT05990556
Glioblastoma is the most common primary malignancy of the central nervous system with a very poor prognosis. Most of the immunotherapies that have made significant breakthroughs in the treatment of other tumors in recent years are unsatisfactory in the application of glioblastoma, which is mainly inseparable from the highly inhibitory immune microenvironment formed by the latter. Therefore, how to change this "immune desert" and better activate immune effector cells to play an anti-tumor effect is currently a hot spot in glioma immune research. In recent years, there has been continuous research support that the myeloid cells of the central nervous system are partly derived from the bone marrow of the skull, and there is a special channel connection between the skull and the dura mater, through which immune cells can be transported. This suggests that some of the tumor-associated macrophages recruited in the glioblastoma microenvironment may be passed through the dura mater. In previous animal experiments, we blocked the main blood supply to the dura mater by ligating the bilateral external carotid arteries of mice, cutting off the potential supply of dura mater to suppressor myeloid cells in the lesion. The results showed that after ligation of bilateral external carotid arteries, the survival period of tumor-forming mice was significantly prolonged and the prognosis was improved. The proportion of myeloid cells in the tumor microenvironment of mice decreased significantly, and the expression of tumor suppressor molecules such as arginase Arg1 decreased, indicating that the improvement of mouse prognosis was closely related to the proportion and phenotypic changes of myeloid cells after dural blood supply blockade. The meningeal lymphatic system of the human central nervous system has been shown to be an important part of the immune system, while the external carotid artery system, the main source of blood supply to the dura, carries abundant immune cells that ooze out to the dura mater through the endothelial window hole of the dural blood vessel, which is an important source of dural immune cells. In the glioblastoma immune microenvironment, the source of immune cells includes dural branches from the external carotid artery system in addition to branches of the internal carotid artery system. Therefore, for patients diagnosed with glioblastoma, this study involves embolization of the dural branch of the external carotid artery system (bilateral middle meningeal artery) to block the dural blood supply before craniotomy. At the same time, microsurgery under multimodal image navigation was used to remove the tumor. It is expected to be effective in reducing the proportion of myeloid suppressor cells in the tumor microenvironment, slowing the growth rate of residual tumor cells, and prolonging the tumor-free progression and survival of patients.
NCT03991832
This is a phase 2 study of the combination of drugs olaparib and durvalumab for the treatment of isocitrate dehydrogenase or (IDH) mutated solid tumors. The purpose of this study is to assess the efficacy of the drug combination via overall response rate and overall disease control rate. It is believed that giving olaparib and durvalumab together would be more useful when given to patients with IDH-mutated solid tumors than giving each drug alone.
NCT05618990
This monocentric methodological study aims at optimizing advanced MR sequences for image quality (reduced artefacts, signal to noise ratio, acquisition time, stability of quantitative measurements) on a new MR unit dedicated to research in clinical and cognitive neuroscience.
NCT06490497
Cancers of the central nervous system have a poor prognosis. Glioblastoma is most common glial tumor of the central nervous system. The presence of a tumour in the brain determines the particular and specific nature of care for these patients and their families. Symptoms affect daily life and the balance of the family sphere.It's easy to imagine a difficult and disturbed family's daily routine. Caregivers find themselves in great distress but can still benefit from support to lighten the domestic burden, and financial burden, thanks to the various recommendations of successive Cancer Plans. In fact, support for patients and their families during the illness and after is one of the key points of the programs in place. The aim of this research will be to provide food for thought in order to improve the support provided to family and friends.
NCT04047303
CC-90010-GBM-001 is a multi-center, open-label study to assess the pharmacokinetics (PK), pharmacodynamics (PD) and CNS penetration of CC-90010 following short-term interval therapy (4 daily doses ) prior to surgery, in subjects with progressive or recurrent WHO Grade II Diffuse Astrocytoma, Grade III Anaplastic Astrocytoma and recurrent Glioblastoma who have failed radiation and chemotherapy, and who are candidates for surgical tumor resection as part of their salvage regimen (planned salvage resection).
NCT04461002
From the medical records of a series of patients operated on for incident grade II and III glioma, the primary objective is to evaluate the correlation between the molecular profile of tumours and preoperative imaging data (by FDG and FDOPA PET-scan and multimodal MRI).
NCT06480721
The goal of this diagnostic randomised clinical trial is to determine, in glioblastoma patients with diagnostic uncertainty between pseudoprogression and tumor progression on follow-up MRI after chemoradiation, the added value of a direct \[¹⁸F\] FET-PET scan for clinical management. The main questions it aims to answer are: * Does the clinical management guided by an additional FET-PET scan leads to fewer unnecessary interventions, compared with management based on MRI only? * Does the clinical management guided by an additional FET-PET scan leads to better health-related quality of life after 12 weeks, compared with management based on MRI only? * Does the clinical management guided by an additional FET-PET scan leads to reduced net healthcare costs, compared with management based on MRI only? Researchers will compare the investigational arm, where clinical management is based on the index MRI scan and an additional FET-PET scan, with the control arm, where clinical management is based solely on the index MRI scan, to investigate the added value of the FET PET scan for clinical management. Participants in the investigational arm will undergo the FET PET scan. All participants will complete health-related quality of life questionnaires at four different timepoints.
NCT06477939
This is phase III randomized, multicenter study adding or not intra-venous Liposomal Trasncrocetin (L-TC) to hypofractionated radiotherapy and concomitant Temozolomide followed by adjuvant Temozolomide in patients with histologically confirmed diagnosis of glioblastoma (GBM).
NCT03250299
This Phase I study investigated the side-effects and best dose of microtubule-targeted agent BAL101553 when given together with radiation therapy in treating patients with newly-diagnosed O6-methylguanine-DNA methyltransferase (MGMT) promoter unmethylated glioblastoma (GBM). Drugs used in chemotherapy, such as microtubule-targeted agent BAL101553, work in different ways to stop the growth of tumor cells, either by killing the cells, stopping them from dividing, or stopping them from spreading. Radiation therapy uses high-energy x-rays to kill tumor cells and shrink tumors. Giving microtubule-targeted agent BAL101553 and radiation therapy may work better in treating patients with GBM.
NCT04221061
The subject will be a candidate for this imaging study because they have agreed to participate in a treatment study involving TTFields (Optune device), a device that uses low intensity, wave like electrical fields, and a PARP inhibitor drug (niraparib). The research study is being conducted to test how a new radioactive imaging drug called 18F-Fluorthanatrace (18F-FTT) can be used to image sites of recurrent brain cancer before or after new treatment or surgery. 18F-FTT is a drug used with an imaging test called Positron Emission Tomography/Computed Tomography (PET/CT).
NCT02924038
This is a pilot, randomized, two arm neoadjuvant vaccine study in human leukocyte antigen-A2 positive (HLA-A2+) adults with World Health Organization (WHO) grade II glioma, for which surgical resection of the tumor is clinically indicated. Co-primary objectives are to determine: 1) the safety of the novel combination of subcutaneously administered IMA950 peptides and poly-ICLC (Hiltonol) and i.v. administered CDX-1127 (Varlilumab) in the neoadjuvant approach; and 2) whether addition of i.v. CDX-1127 (Varlilumab) increases the response rate and magnitude of CD4+ and CD8+ T-cell responses against the IMA950 peptides in post-vaccine peripheral blood mononuclear cell (PBMC) samples obtained from participating patients.
NCT05082493
This is a Phase 1, multicenter, open-label, dose escalation study of intravenous Berubicin in pediatric patients. The purpose of this first-in-pediatrics study is to examine the safety, tolerability, and PK of Berubicin and to estimate its MTD and/or RP2D when administered to pediatric patients with progressive, refractory, or recurrent HGG who have completed at least 1 standard line of therapy. This study will also make a preliminary assessment of the antitumor activity of Berubicin in this patient population. An exploratory evaluation of quality of life will also be performed
NCT06440122
White adipose tissue (WAT) and brown adipose tissue (BAT) form the main adipose tissue subtypes in humans and several animals. BAT, owing to its unique metabolic function, has been of increased focus and interest in metabolic research (1). BAT forms the major organ of non-shivering thermogenesis in the body, and is dependent on the large concentration of mitochondria and increased uncoupling protein-1 (UCP-1) activity present in this type of tissue (2). There are numerous triggers for the metabolic activation of BAT including cold temperature, low body mass index (BMI), adrenergic agonists, and elevated concentration of thyroid hormones (3). BAT is found more abundantly in fetuses and infants, with significant regression into adulthood. The main areas where BAT can be found are the neck, mediastinum, axilla, retroperitoneum, and abdominal wall (4). Clinical research suggests that activation and thermogenesis in BAT are mediated by noradrenaline release from the sympathetic nervous system (5). With the increasing use of fluorodeoxyglucose positron emission tomography (18FDG-PET) imaging, there has been an increased detection rate of activated brown adipose tissue (aBAT); this may affect diagnoses and lead to false-positive reporting (6). Phaeochromocytomas/paragangliomas (PPGLs) are chromaffin-cell-derived endocrine tumors that emerge from the adrenal medulla or extra-adrenal ganglia. High FDG accumulation has been commonly noted in aBAT in patients with catecholamine-producing tumours, with subsequent resolution of these findings after resection of the tumour (7). This finding is likely related to the increased glucose transport related to noradrenaline excess (4). BAT has traditionally been considered to mainly express β3-adrenoreceptors; however, in vitro studies have indicated that activated β2-adrenoreceptors may be the main driving force behind thermogenesis (8). Studies reviewing PPGLs have shown an aBAT detection rate of 7.8% to 42.8% on FDG-PET imaging, correlating with elevated catecholamine levels but without clear correlation to germline mutations (9-12). In one study, this imaging finding was associated with a statistically significant reduction in overall survival (12). Standardisation for the 'standardised uptake value' (SUV) cut-offs for aBAT on FDG-PET are lacking, but these are often reported between 1.0 and 2.0 (13); in previous studies of PPGL, a cut-off value of \>1.5 has been employed (10, 12). Research on the clinical implications of aBAT in patients with PPGL remains scarce. The main objectives of this study were to gain further insights into BAT activation rates in patients with PPGLs and how this may relate to patient demographics, biochemistry, radiological features, mutational status, and outcomes. The main hypotheses were that aBAT rates would be significantly linked to the severity of catecholamine excess and could be considered a poor prognostic feature.
NCT05553899
This is a pilot project to explore the utility of PET-MRI in the post-treatment surveillance of high-grade gliomas or medulloblastomas in children in our institution.
NCT02067156
This study will evaluate if a drug called G-202 can be safely used to treat people with glioblastoma (GBM) that has progressed or recurred. G-202 is given by intravenous infusion on three consecutive days of a 28-day cycle.
NCT05145049
The investigators aimed to research the incidence of hyperlactatemia in craniotomy cases, the relationship of lactate elevation with tumor type and other factors that may be related, and whether the general anesthesia method applied (inhalation anesthesia or total ıntravenous anesthesia) affects lactate level.
NCT06417372
Through the modified formulation of sodium fluorescein and methylene blue, the surface of the suspected cut edge of the patient's glioma was stained intraoperatively, and the surgical microscope image acquisition and processing system was used to determine whether the cut edge of the surgically resected tissue was positive or not. And combined with the existing multimodal surgical techniques (imaging, electrophysiology, neuronavigation and other equipment), the glioma is precisely resected.
NCT02613988
This clinical trial studies advanced MR imaging techniques in measuring early response of standard treatment may become predictors of long-term treatment response in patients with newly diagnosed glioblastomas.
