Active clinical trials for "Glioblastoma"

In this pilot study, the study evaluators will evaluate the ability of positron emission tomography (PET) with 18F-fluorodeoxyglucose (FDG PET) and the computed tomography (CT) perfusion scanner, individually and combined, to predict the effectiveness of anti-angiogenic treatment.

In the treatment of glioblastoma (GBM) neurosurgical resection of the tumor is usually considered a a first step of effective therapy. Radical resection of the tumor is highly beneficial to the patient as measured in progression-free survival and overall survival. At the same time eloquent areas of the brain have to remain intact to preserve quality of life. Both 5-ALA fluorescence and intraoperative MRI are used for intraoperative marking of tumor tissue and thereby to improve precision of GBM-Resection. We now study whether the combination of 5-ALA fluorescence and intraoperative MRI increases the number of sites where tumor tissue can be detected. - Trial with surgical intervention

The purpose of this post-authorisation medical device study is to obtain real life data on the use of tumor-treating fields (TTFields) in patients with newly diagnosed GBM in routine clinical care in Germany. Patients with newly diagnosed GBM and clinical indication for TTFields treatment will be enrolled in the study after signing Informed consent to use their data and process it centrally for research purposes. The clinical indication for TTFields is one of the inclusion criteria and is defined prior to inclusion by the treating physician. The patient's decision regarding TTFields treatment is part of the observation and will be assessed within the baseline visit.

The tracer 11C-methionine (11 C-MET) is used as a specific cell proliferation tracer which shows metabolically active tumordeposities. A healthy brain barely takes up 11C-MET, causing the difference between the background and the tumor to be realively high. In addition, there is relatively little 11C-MET uptake in inflammatory processes. This makes 11C-MET a very suitable positron emission tomography (PET) tracer in order to differentiate between tumor progression and therapy changes. The latter is a major clinical problem for which further investigation is necessary. In order to be able to make this differentiation, a direct post-operative baseline scan is required. With regard to the advanced MRI sequences, it is known that it is necessary to produce the post-operative baseline scan within 48 hours. After that timeframe, operation induced changes start to occur, such as granulation tissue. In that case the interpretation of the scan is no longer possible. Immediately postoperatively (<48 hours) 11C-MET has never been used before. Therefore, it is unknown whether 11C-MET provides a good baseline scan directly after surgery. This pilot will investigate the feasibility of this 11C-MET baseline scan and comparison the results with the advanced MRI sequences.

The survival time and the number of long time survivors after radiotherapy in brain cancer patients have increased for the last decades. Therefore the topic of late-delayed neurotoxic effects of this therapy gains more and more importance. Among these side effects, the main and most frequent one is the leukoencephalopathy, a diffused and progressive damage of the white matter characterized by myelin loss, loss of axons and vascular lesions. The incidence rate assessment, as well as the occurrence time, is based on retrospective studies with low numbers of patients, but seems to reach 30 to 50 % of the patients according to the follow-up. The risk seems to be increased during the first two years after the radiotherapy, but persists for decades. To gain further insight in the radiation-induced leukoencephalopathy, the objective of this project is to study the onset and evolution of leukoencephalopathy in a 3-year prospective cohort of patients having undergone cerebral radiotherapy for glioma (stage 3-4), using specific cognitive tests, Magnetic Resonance Imagery (MRI) scans of the brain and predictive bio-markers of cognitive impairments.

The purpose of this study is to determine whether Q cells separated from the glioma sample are determinants in treatment response and prognosis of glioma patients

Summary of scientific evidence and rationale of this project: Integrative molecular-genetic approaches have provided important insights in the biology of glioblastoma. It has meanwhile become clear, that glioblastoma is not a single tumor entity but comprises different molecular subtypes, which are associated with a distinct genetic/epigenetic signature and prognosis. Multimodal treatment approaches combining radio- and chemotherapy as well as the recent introduction of novel antiangiogenic agents have resulted in increasing survival times and improved quality-of-life of glioblastoma patients. Yet, despite these intense treatment efforts the therapeutic efficacy in glioblastoma patients is limited, leading in virtually all cases to tumor recurrence and death of the patients. As only a limited fraction of glioblastoma patients undergo second neurosurgery at tumor recurrence (< 10%), post-therapeutic samples are rare and no systematic, large-scale studies exist, which address post-therapeutic morphological and molecular alterations in glioblastoma tumor tissue. Yet, these data would help to improve the understanding of mechanisms involved in therapy-resistance and tumor progression, to develop new therapeutic approaches and could pave the way for personalized treatment strategies.

This study aims to evaluate whether pre-treatment MRI can be used to predict treatment response for anti-angiogenic treatment in glioblastomas.

The aim of this study is to evaluate the role of automatic segmentation of cerebral gliomas in multi-sequence MR images using state-of-the-art methods for automatic segmentation and internal classification of brain tumors in correlation with operative findings

This is an exploratory study to evaluate the clinical feasibility of medical deivce 'AVATAMED' for predicting the clinical response to TMZ (temozolomide) in glioblasotma patients.