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Clinical Trial Summary

The objectives of the trial are:

- To determine the localisation within the primary tumor of the therapy resistant cells, before and during radiotherapy to determine a possible accurate boost volume.

- To determine changes during treatment intra- and extratumoral within the irradiated area.(Intratumoral: change of up-take - decrease, increase, change of localization/ Extratumoral: effects of temporal changes in up-take - e.g. due to oedema).


Clinical Trial Description

Patients harboring a primary intracerebral high grade tumor (WHO III- IV) have a median survival of six to 12 months. Combined chemoradiotherapy with temozolomide is now the standard of care since results of the joint EORTC-NCIC phase III study randomizing between radiotherapy alone and combined radiochemotherapy with temozolomide showed a significant improvement in 2-years survival from 8% to 24% for the combined treatment arm (Stupp 2005).

A differentiation between possible responders and non-responders before the start of irradiation may eventual be possible by the use of 18F-FDG PET-CT. Preliminary own results have shown that a higher metabolic activity in glioblastoma as measured on a simulation 18F-FDG PET-CT scan can be a prognosticator for shortened survival (Baumert, 2006).

Our preliminary data show that a high uptake of 18F-FDG on a PET-CT scan before radiotherapy in glioblastoma could be a marker for reduced survival.

Popperl et al showed that dual phase FDG PET imaging is superior in differentiating low-grade from high-grade recurrent astrocytomas (Popperl, 2006). Visual analysis of delineation of glioma showed that the delayed images (imaged first 0-90 min and once or twice later at 180-480 min after injection) better distinguished the high uptake in tumors relative to uptake in gray matter. SUV comparisons also showed greater uptake in the tumors than in gray matter, brain, or white matter at the delayed times (Spence et al).

These findings support the view that by using FDG-PET scans we could image active areas within the tumor. Indeed, in vivo, a cancer is made up by different types of cells, including hypoxic cells, cells that proliferate more fast, as well as by non-malignant tissues, including inflammatory cells and vasculature.

Intra-tumor heterogeneity in malignant glioma is often observed and can be visualised also by current PET-CT techniques.

The dynamics of the tracer uptake in the different tumor sub-volumes may give important information about the biological characteristics as well. Indeed, the dynamics of FDG uptake per cell are dependent on the blood flow, the uptake in the cell and the phosphorylation. All these of these steps give information on the biology of the cancer in that particular area of the tumor. ;


Study Design

Observational Model: Case-Only, Time Perspective: Prospective


Related Conditions & MeSH terms


NCT number NCT00643591
Study type Observational
Source Maastricht Radiation Oncology
Contact
Status Terminated
Phase N/A
Start date June 2008
Completion date June 2010