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Clinical Trials associated with Dendritic Cells Vaccine(Fondazione I.R.C.C.S. Istituto Neurologico Carlo Besta)Phase I Clinical Trial Of Immunotherapy With Autologous Tumor Lysate-Loaded Dendritic Cells In Patients With Newly Diagnosed Glioblastoma Multiforme (DENDR1)
Rationale of the Study: Treatment for GBM currently consists of surgical resection of the tumour mass followed by radio- and chemotherapy ((1)Stupp et al., 2005). Nonetheless overall prognosis still remains bleak, recurrence is universal, and recurrent GBM patients clearly need innovative therapies. Dendritic cells (DC) immunotherapy could represent a well-tolerated, long-term tumour-specific treatment to kill all (residual) tumour cells which infiltrate in the adjacent areas of the brain. Preclinical investigations for the development of therapeutic vaccines against high grade gliomas, based on the use of DC loaded with a mixture of glioma-derived tumor have been carried out in rat as well as in mouse models, showing the capacity to generate a glioma-specific immune response. Mature DC loaded with autologous tumor lysate have been used also for the treatment of patients with recurrent malignant brain tumors; no major adverse events have been registered. Results about the use of immunotherapy for GBM patients are encouraging, but further studies are necessary to find out the most effective and safe combination of immunotherapy with radio- and chemotherapy after exeresis of the tumour mass.
Aim of the study. Primary objective of the study is to evaluate treatment tolerability and to get preliminary information about efficacy. Secondary objective is to evaluate the treatment effect on the immune response. Additional objective is to identify a possible correlation between methylation status of MGMT promoter and tumor response to treatment.
A two-stage Simon design ((2)Simon, 1989) will be considered for the study. Assuming as outcome measure the percentage of PFS12 patients and of clinical interest an increase to 42% (P1) of the historical control rate of 27% (P0) ((1)Stupp et al., 2005), the alternative hypothesis will be rejected at the end of the first stage if the PFS12 rate will be less than 8/24 treated patients (Fisher's exact test). In the second stage patients will be enrolled up to 76 overall. The null hypothesis will be rejected (a=0.05, b=0.2) if at least 27 subjects out of 76 are alive and progression free 12 months after the beginning of the treatment.
Phase I Clinical Trial Of Immunotherapy With Autologous Tumor Lysate-Loaded Dendritic Cells In Patients With Recurrence Of Glioblastoma Multiforme
Rationale of the Study: Treatment for GBM currently consists of surgical resection of the tumour mass followed by radio- and chemotherapy. Nonetheless overall prognosis still remains bleak, recurrence is universal, and recurrent GBM patients clearly need innovative therapies. Dendritic cells (DC) immunotherapy could represent a well-tolerated, long-term tumour-specific treatment to kill all (residual) tumour cells which infiltrate in the adjacent areas of the brain. Preclinical investigations for the development of therapeutic vaccines against high grade gliomas, based on the use of DC loaded with a mixture of glioma-derived tumor have been carried out in rat as well as in mouse models, showing the capacity to generate a glioma-specific immune response. Mature DC loaded with autologous tumor lysate have been used also for the treatment of patients with recurrent malignant brain tumors; no major adverse events have been registered.
Results about the use of immunotherapy for GBM patients are encouraging, but further studies are necessary to find out the most effective and safe combination of immunotherapy with radio- and chemotherapy after exeresis of the tumour mass.
Aim of the study: Primary objective of the study is to evaluate treatment tolerability and to get preliminary information about efficacy. Secondary objective is to evaluate the treatment effect on the immune response. Additional objective is to identify a possible correlation between methylation status of the MGMT promoter and tumor response to treatment.
A two-stage Simon design will be considered for the study. The primary objectives of the study include the evaluation of a PFS6 rate in treated patients. Assuming as outcome measure the percentage of PFS6 patients and of clinical interest an increase to 35% (P1) of the historical control response rate of 20% (P0), the null hypothesis will be rejected (a=0.05, b=0.2) at the end of the first stage if the response rate will be 5/22 treated patients (Fisher's exact test). In the second stage patients will be enrolled up to 72 overall. The study will be successful if at least 19 subjects out of 72 have PFS6 months after the beginning of the treatment.
100 Clinical Results associated with Dendritic Cells Vaccine(Fondazione I.R.C.C.S. Istituto Neurologico Carlo Besta)
100 Translational Medicine associated with Dendritic Cells Vaccine(Fondazione I.R.C.C.S. Istituto Neurologico Carlo Besta)
100 Patents (Medical) associated with Dendritic Cells Vaccine(Fondazione I.R.C.C.S. Istituto Neurologico Carlo Besta)
100 Deals associated with Dendritic Cells Vaccine(Fondazione I.R.C.C.S. Istituto Neurologico Carlo Besta)