View clinical trials related to Glioblastoma.
Filter by:The purpose of this study is to evaluate the safety and efficacy of targeted blood brain barrier disruption with Exablate Model 4000 Type 2.0/2.1 for liquid biopsy in subjects with suspected Glioblastoma brain tumors
Proposed treatment of subjects with newly diagnosed glioblastoma with novel personalized drug regimens identified to be effective in vitro using cancer stem cells derived from their individual tumors, alongside standard of care radiation and TMZ.
This study is open to adults with newly diagnosed glioblastoma, a type of brain tumor. The study has two parts. Part 1 is open to people who can get their brain tumor removed by surgery. Part 2 is open to people who already had such a brain surgery. This study tests a medicine called BI 907828 (Brigimadlin). BI 907828 (Brigimadlin) is a socalled MDM2 inhibitor that is being developed to treat cancer. The purpose of Part 1 of the study is to find out how BI 907828 (Brigimadlin) is taken up in the tumor. Participants take a single dose of BI 907828 (Brigimadlin) as a tablet before the brain surgery. Part 1 of the study takes about 1 month. During this time, participants have their brain tumor removed by surgery and visit the study site about 8 times. The purpose of Part 2 is to find the highest dose of BI 907828 (Brigimadlin) that the participants can tolerate in combination with standard radiation therapy. During the first 6 weeks, participants get standard radiation therapy. In addition, they take a dose of BI 907828 (Brigimadlin) once every 3 weeks. Participants may continue to take BI 907828 (Brigimadlin) as long as they benefit from treatment and can tolerate it. They visit the study site regularly. During the entire study, doctors also regularly check participants' health and take note of any unwanted effects.
The main purposes of this study are: I. To assess that the four habitats within the tumor (HAT and LAT) and edema (IPE and VPE) in high-grade glioma are different at vascular, tissular, cellular and molecular levels. II. To analyze the associations between the perfusion imaging markers and relevant molecular markers at the HTS habitats for high-grade glioma diagnosis, prognosis/aggressiveness, progression and/or prediction. III. To analyze the associations between the perfusion imaging markers and immune markers at the HTS habitats useful in immunotherapy evaluation and/or patient selection. IV. To prospectively validate the prognostic capacity (association with OS and PFS) and stratification capacity of the perfusion imaging markers calculated at the HTS habitats.
Autoimmune encephalitis (AE) and paraneoplastic neurological syndromes (PNS) are rare disease that could be difficult to diagnose. So it necessary to obtain numerous sample from different disease to develop more specific diagnosis kit It could be possible through the characterisation of new genetic biomarkers.
The purpose of this study is to test the safety of using T lymphocyte chimeric antigen receptor cells against the B7-H3 antigen (CAR.B7-H3T cells) in patients with glioblastoma. CAR.B7-H3T cells treatment has not been tested in humans and is not an approved treatment by the Food and Drug Administration for glioblastoma.
This study is the first step in testing the hypothesis that adding Photobac® Photodynamic Therapy to surgical removal of a glioblastoma or gliosarcoma will be both safe and effective. Photodynamic Therapy (PDT) combines light and a photosensitizer. PDT has been used to treat a variety of cancers with varying degrees of success. For the past thirty years Photolitec has been working to develop a treatment for glioblastoma or gliosarcoma using light and a photosensitizer. Photolitec's scientists were looking for a photosensitizer that: 1. has no significant systemic toxicity apart from some temporary skin photosensitivity, 2. crosses the blood brain barrier, 3. accumulates to a high level in glioblastoma and minimally in the brain, 4. is activated by the wavelength of light that penetrates most deeply into the brain, 5. minimizes any temporary skin photosensitivity. Preliminary testing indicates the Photolitec team has achieved these five goals. Photolitec is now able to offer a clinical trial based on the results of this work.
The treatment of patients with World Health Organization (WHO) grade 4 malignant glioma has not seen any significant breakthrough the past years. Following surgery and radio / chemotherapy patients still experience a very high recurrence risk and the prognosis is dismal. The investigators observed patients with grade IV malignant glioma receiving individualized treatment based on their molecular profile including fully personalized vaccines.
This is a phase I study to assess the safety and feasibility of IL-8 receptor modified patient-derived activated CD70 CAR T cell therapy in CD70+ adult glioblastoma.
In summary, standard of care postoperative chemoradiation for patients with newly diagnosed GBM does not routinely provide durable local control or prolonged overall survival. As discussed above it seems unlikely that patient outcomes will be significantly improved with radiation dose escalation given at the time of the EBRT boost. However, as most failures are local, improving LC could potentially improve the OS of patients. To do this, we propose a shift in the traditional radiation paradigm. This study will assess the feasibility and tolerability of adding GT radiation therapy as an upfront boost at the time of maximum safe resection, along with the backbone of the current standard of care approach, concomitant and adjuvant temozolomide +/- TTF, for patients with newly diagnosed GBM. GT, a novel brain brachytherapy device utilizing Cs-131 embedded in bioresorbable collagen tiles, offers a more sophisticated carrier and a shorter half-life radioisotope, Cs-131. Use of this device allows for radiation initiation at an earlier time point and a more rapid dose delivery and possibly more effective tumor control particularly for rapidly proliferating tumors such as GBM. Two prospective studies have demonstrated the safety and efficacy of re-irradiation with GT in patients with recurrent GBM. The overarching goal of this single-arm, open label phase 4 study is to determine the feasibility and tolerability of treating patients with GammaTile in combination with the Stupp Protocol and how to proceed with testing this treatment in a future, larger, randomized clinical study. The aims of the study are to demonstrate that the use of GammaTile at the time of surgery is well tolerated and does not delay the start of the Stupp protocol. Efficacy outcomes (e.g., LC, OS, PFS) will also be described.