View clinical trials related to Glioblastoma.
Filter by:This early phase I trial studies the safety and feasibility of inducing a hypothyroxinemic state in patients with glioblastoma or gliosarcoma that has come back (recurrent). This trial aims to see if giving a specific thyroid hormone, such as methimazole and liothyronine, is safe and could benefit cancer treatment.
The aim of the present study is the prospective controlled use of physical activity in a collective of patients with glioblastoma after surgery and concomitant radiation/chemotherapy and during adjuvant cytotoxic therapy. The research question is whether physical exercise is feasible and whether patients benefit physically and mentally from the activities performed. For this purpose, specific training units under the supervision of a certified trainer and sports scientist as well as standardized sports medical test procedures are implemented. Beyond the instructed training, general physical activity phases are recorded electronically using a pedometer/activity tracker, which is worn at all times. It will be examined whether the individual training program 1. improves physical fitness 2. increases quality of life/life satisfaction throughout the intervention 3. can be detected in blood due to increased concentrations of brain-derived neurotrophic factor 1 (BDNF-1) (voluntary) The measurements should be taken before and 8, 16 and 24 weeks after the start of training.
The purpose of this study is to evaluate the safety of the Exablate Model 4000 Type 2.0 used as a tool to disrupt the BBB in patients with high grade glioma undergoing standard of care therapy.
This phase I trial is to find out the best dose, possible benefits and/or side effects of engineered natural killer (NK) cells containing deleted TGF-betaR2 and NR3C1 (cord blood [CB]-NK-TGF-betaR2-/NR3C1-) in treating patients with glioblastoma that has come back (recurrent). CB-NK-TGF-betaR2-/NR3C1- cells are genetically changed immune cells that may help to control the disease.
This is an open label, single arm, prospective, and pilot study. Eligible patients will be enrolled after acquiring the signed informed consent and then will receive the treatment of re-RT combined with FUS (FUS + re-RT) on an outpatient basis. The re-RT in FUS + re-RT treatment will include fractioned stereotactic radiosurgery (SRS) treatment (FUS + SRS) or conventional radiotherapy (cRT) treatment (FUS + cRT). The treatment of SRS or cRT treatment given to patients is determined by the investigator depending on the volume and location of the treatment region.
This is a first-in-human, open label, multicenter study to assess the safety, tolerability, pharmacokinetics, pharmacodynamics, and the preliminary antitumor activity of TAS2940 in patients with advanced or metastatic solid tumors who are not candidates for approved or available therapies.
Patients will receive a vaccine called SurVaxM on this study. While vaccines are usually thought of as ways to prevent diseases, vaccines can also be used to treat cancer. SurVaxM is designed to tell the body's immune system to look for tumor cells that express a protein called survivin and destroy them. The survivin protein can be found on up to 95% of glioblastomas and other types of cancer but is not found in normal cells. If the body's immune system knows to destroy cells that express survivin, it may help to control tumor growth and recurrence. SurVaxM will be mixed with Montanide ISA 51 before it is given. Montanide ISA 51 is an ingredient that helps create a stronger immune response in people, which helps the vaccine work better. This study has two phases: Priming and Maintenance. During the Priming Phase, patients will get one dose of SurVaxM combined with Montanide ISA 51 through a subcutaneous injection (a shot under the skin) at the start of the study and every 2 weeks for 6 weeks (for a total of 4 doses). At the same time that patients get the SurVaxM/Montanide ISA 51 injection, they will also get a second subcutaneous injection of a medicine called sargramostim. Sargramostim is given close to the SurVaxM//Montanide ISA 51 injection and works to stimulate the immune system to help the SurVaxM/Montanide ISA 51 work more effectively. If a patient completes the Priming Phase without severe side effects and his or her disease stays the same or improves, he or she can continue to the Maintenance Phase. During the Maintenance Phase, the patient will get a SurVaxM/Montanide ISA 51 dose along with a sargramostim dose about every 8 weeks for up to two years. After a patient finishes the study treatment, the doctor and study team will continue to follow his/her condition and watch for side effects up to 3 years following the last dose of SurVaxM/Montanide ISA 51. Patients will be seen in clinic every 3 months during the follow-up period.
The purpose of this study is to assess the safety/tolerability/feasibility of pembrolizumab and radiation therapy before surgical resection in patients with recurrent glioblastoma as defined by treatment-related AEs and the number of patients who do not necessitate a delay in surgical resection, and to assess overall survival. The secondary objectives are to assess progression free survival, and to assess the T cell clonality, CD8 T cell activation and Tumor Infiltrating Lymphocyte (TIL) score after treatment
This retrospective non - interventional patient chart review will be utilizing real world clinical data from patients treated for rGBM at the University Regensburg Medical center either with or without bevacizumab. Only patients will be analyzed who were potentially eligible for bevacizumab treatment. The study is designed to investigate the potential effects of bevacizumab treatment on the functional status, symptom burden, neurological deficits, time to tumor progression and overall survival between cohorts potentially eligible for bevacizumab.
Patient education plays an essential role in patient-centered care as it enhances patient satisfaction and information comprehension. However, about 40-80% of the information patients receive from healthcare professionals is forgotten and about half of the information patients remember is incorrect. To give informed consent, patients must be able to understand and recall the discussed information correctly. This is especially important in brain tumor patients, in which different treatment options determine outcome and risks. The goal of treatment in brain tumors is resection as completely as possible, without damaging healthy brain tissue. To this end, patients must understand the complex relation of the tumor to healthy brain tissue. This relation is different in each patient and three-dimensional (3D) in nature. Current two-dimensional visual tools lack the ability to properly display these complex 3D relations. In this study, we will investigate the effect of the use of 3D models in patient education, taking into account patient specific factors that might act as confounders. We will conduct a case control, multi-center study in the Radboud University Medical Center (Radboudumc) Maastricht University Medical Center (MUMC). Patients will be enrolled in the control group until inclusion for the control group is completed (n=30), after which patients will be enrolled in the intervention group (n=30). Patients will be cognitively tested using the Amsterdam Cognition Scale (ACS). After the consultation with their neurosurgeon, patients will be asked to fill out two questionnaires, consisting of two parts (patient experiences and information recall), one week apart.