View clinical trials related to Germinoma.
Filter by:<Purpose of the Research> - Primary Establishing an Asian consortium to establish a database of pediatric CNS tumors in the prospective manner The target disease of this research focuses on pediatric tumors, and initially the registration of patients with CNS GCT will begin first. - Secondary Developing clinical protocols for pediatric CNS tumors based in Asia <Duration of Research Participation> Registration period for research subjects: 2022-08-01 - 2027-12-31 Duration of medical records to be utilized: to 2030-12-31 Total projected duration of research: IRB approved to 2032-12-31 Interim assessment of data quality and integrity: 6 Mo after Data collection Evaluation for the Adaptation of Protocols: 1 and 2 years after the initiation of the study Analysis of Quality of Life and other questionnaires: 3 and 5 years Interim Analysis of all data: 5 years (2027) Final analysis of treatment outcome: 2032
A Non-Therapeutic Study that aims to establish a cohort of GCT survivors to understand short term and long-term adverse effects of treatment and to conduct molecular analyses to improve risk stratification.
The first proton therapy treatments in the Netherlands have taken place in 2018. Due to the physical properties of protons, proton therapy has tremendous potential to reduce the radiation dose to the healthy, tumour-surrounding tissues. In turn, this leads to less radiation-induced complications, and a decrease in the formation of secondary tumours. The Netherlands has spearheaded the development of the model-based approach (MBA) for the selection of patients for proton therapy when applied to prevent radiation-induced complications. In MBA, a pre-treatment in-silico planning study is done, comparing proton and photon treatment plans in each individual patient, to determine (1) whether there is a significant difference in dose in the relevant organs at risk (ΔDose), and (2) whether this dose difference translates into an expected clinical benefit in terms of NormalTissue Complication Probabilities (ΔNTCP). To translate ΔDose into ΔNTCP, NTCP-models are used, which are prediction models describing the relation between dose parameters and the likelihood of radiation-induced complications. The Dutch Society for Radiotherapy and Oncology (NVRO) setup the selection criteria for proton therapy in 2015, taking into account toxicity and NTCP. However, NTCP-models can be affected by changes in the irradiation technique. Therefore, it is paramount to continuously update and validate these NTCP-models in subsequent patient cohorts treated with new techniques. In ProTRAIT, a Findable, Accessible, Interoperable and Reusable (FAIR)data infrastructure for both clinical and 3D image and 3D dose information has been developed and deployed for proton therapy in the Netherlands. It allows for a prospective, standardized, multi-centric data from all Dutch proton and a representative group of photon therapy patients.
The purpose of this study is to evaluate the outcome of intracranial germinoma treated with chemotherapy plus reduced radiotherapy.