Glioblastoma Clinical Trial
— IMAGLIOOfficial title:
Multimodal Imaging Analysis of Tissue Changes Occurring During Treatment With Antiangiogenic (Bevacizumab) in Patients With Recurrent Glioblastoma
The purpose of this study is to estimate the capacity of the multimodal imaging parameters measured at 15 days and 2 months of initiation of treatment with bevacizumab, to measure changes in clinical status (sensitivity to measure changes) in patients treated for recurrent glioblastoma.
| Status | Terminated |
| Enrollment | 6 |
| Est. completion date | December 2016 |
| Est. primary completion date | September 2016 |
| Accepts healthy volunteers | No |
| Gender | Both |
| Age group | 18 Years and older |
| Eligibility |
Inclusion Criteria: - World Health Organization performance index lower or equal to 3 - Estimated life expectancy greater than 3 months - patient in whom the diagnosis of glioblastoma was histologically proven - Patient with tumor progression of morphological magnetic resonance imagery evidenced by Pluri Disciplinary Meeting. This increase must meet the detailed criteria Response Assessment Neuro Oncology Working group : except in the case of a new lesion appearing outside of the field of radiotherapy, tumor progression can not therefore be defined on an magnetic resonance imagery performed in a period shorter than 12 weeks after the last day of radiotherapy (see criteria Response Assessment Neuro Oncology Working Group detailed chapter 2-1 B) - Patient with unilateral tensor above injury at baseline (in order to have in each case a tumor region of interest area and an area equivalent region of interest contralateral healthy tissue) . - Patient with measurable lesion at baseline, according to the criteria defined by the working group Respons Assessment Neuro Oncology. The lesion with contrast is measured two-dimensionally on T1 gadolinium in axial section. The two perpendicular diameters of red lead should be 10 mm and that at least two axial sections. - Patient with progression after radiotherapy and have received at least one chemotherapy regimen (temodal) - A patient in whom treatment with bevacizumab monotherapy Exclusion Criteria: - Pregnancy - Exclusion criteria related to cons to the realization of positron emission tomography or magnetic resonance imagery : Weight greater than 120 kg, Foreign body incompatible with magnetic resonance imagery (eg metallic intraocular foreign body), Medical equipment installed incompatible with magnetic resonance imagery (eg pacemaker) - Pregnant or lactating woman |
Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
| Country | Name | City | State |
|---|---|---|---|
| France | UHToulouse | Toulouse |
| Lead Sponsor | Collaborator |
|---|---|
| University Hospital, Toulouse |
France,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by tomography with emission of positron | Specific imagery parameters used are : Standard Uptake Value max, mean Standard Uptake Value, global or tumoral volume reported |
At day 15 after the 1st perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Perfusion magnetic resonance imagery | Specific imagery parameters used are : Cerebral blood volume and relative cerebral blood volume, absolute neo angiogenesis and reported to tumoral volume |
At day 15 after the 1st perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Diffusion magnetic resonance imagery | Specific imagery parameters used are : Apparent diffusion Coefficient and Apparent diffusion relative Coefficient , absolute elevated cellular density volume and reported to tumoral volume |
At day 15 after the 1st perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Spectroscopy magnetic resonance imagery | Specific imagery parameters used are : choline pike, NAA pike, mean and maximal creatinine pike, mean and maximal ratio choline/NAA, mean and maximal ratio choline/creatinine |
At day 15 after the 1st perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by tomography with emission of positron | Specific imagery parameters used are : Standard Uptake Value max, mean Standard Uptake Value, global or tumoral volume reported |
At day 60 after the 4th perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Perfusion magnetic resonance imagery | Specific imagery parameters used are : Cerebral blood volume and crelative cerebral blood volume, absolute neo angiogenesis and reported to tumoral volume |
At day 60 after the 4th perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Diffusion magnetic resonance imagery | Specific imagery parameters used are : Apparent diffusion Coefficient and Apparent diffusion relative Coefficient , absolute elevated cellular density volume and reported to tumoral volume |
At day 60 after the 4th perfusion of bevacizumab | No |
| Primary | Detection capacity of patient clinical status in imagery with F-MISO as assessed by Spectroscopy magnetic resonance imagery | Specific imagery parameters used are : choline pike, NAA pike, mean and maximal creatinine pike, mean and maximal ratio choline/NAA, mean and maximal ratio choline/creatinine |
At day 60 after the 4th perfusion of bevacizumab | No |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with relative cerebral blood volume in Perfusion magnetic resonance imagery | at day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with relative cerebral blood volume in Perfusion magnetic resonance imagery | at day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with apparent diffusion coefficient on diffusion magnetic resonance imagery | at day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with apparent diffusion coefficient on diffusion magnetic resonance imagery | at day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of choline on spectroscopy magnetic resonance imagery | at day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of choline on spectroscopy magnetic resonance imagery | at day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of N-acetyl aspartate on spectroscopy magnetic resonance imagery | at day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of N-acetyl aspartate on spectroscopy magnetic resonance imagery | at day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of rate of creatinine on spectroscopy magnetic resonance imagery | at day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of predictive parameters of progression free survival with a sensibility of change of at least 75% as assessed with rate of rate of creatinine on spectroscopy magnetic resonance imagery | at day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by relative cerebral blood volume in Perfusion magnetic resonance imagery | At day 15 after the first perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by relative cerebral blood volume in Perfusion magnetic resonance imagery | At day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by apparent diffusion coefficient on diffusion magnetic resonance imagery, | At day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by apparent diffusion coefficient on diffusion magnetic resonance imagery, | At day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by rate of choline on spectroscopy magnetic resonance imagery | At day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by rate of choline on spectroscopy magnetic resonance imagery | At day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by N-acetyl aspartate on spectroscopy magnetic resonance imagery | At day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by N-acetyl aspartate on spectroscopy magnetic resonance imagery | At day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed byrate of creatinine on spectroscopy magnetic resonance imagery | At day 15 after the 1st perfusion of bevacizumab | No | |
| Secondary | Estimation of imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% as assessed by rate of creatinine on spectroscopy magnetic resonance imagery | At day 60 after the 4th perfusion of bevacizumab | No | |
| Secondary | Variation in imagery predictive parameters for progression free survival with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by relative cerebral blood volume in Perfusion magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery predictive parameters for progression free survival with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by apparent diffusion coefficient on diffusion magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery predictive parameters for progression free survival with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by rate of choline on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery predictive parameters for progression free survival with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by N-acetyl aspartate on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery predictive parameters for progression free survival with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by rate of creatinine on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by relative cerebral blood volume in Perfusion magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by apparent diffusion coefficient on diffusion magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by rate of choline on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by rate of N-acetyl aspartate on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No | |
| Secondary | Variation in imagery prognostic parameters for global survival at 6 months with a sensibility of change of at least 75% between cycle 1 and cycle 4 of treatment as assessed by rate of creatinine on spectroscopy magnetic resonance imagery | At day 15 and day 60 | No |
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