UNLABELLED: Methyl-L-(11)C-methionine ((11)C-MET) PET has been shown to detect brain tumors with a high sensitivity and specificity. In this study, we investigated the potential of (11)C-MET PET to noninvasively detect tumor progression in patients with gliomas. Moreover, we analyzed the relationship between changes in (11)C-MET uptake on PET and changes in various molecular immunohistochemical markers during progression of gliomas. METHODS: Twenty-four patients with histologically proven glioma were investigated repeatedly with (11)C-MET PET. (11)C-MET uptake was determined for a circular region of interest. Histologic and molecular analyses for tumor progression were performed after open surgery and stereotactic biopsy, respectively. RESULTS: In patients with malignant progression, the mean increase in (11)C-MET uptake was 54.4% (SD, 45.5%; range, 3.1%-162.2%), whereas in patients without a change in tumor grade, mean (11)C-MET uptake did not significantly change (3.9%; SD, 13.7%; range, -24.4% to 26.3%). The difference in the change in (11)C-MET uptake between the group with malignant progression and the group without malignant progression was highly significant (P < 0.001). Receiver-operating-curve analysis revealed a sensitivity of 90% and a specificity of 92.3% for the detection of malignant transformation by an increase in (11)C-MET uptake of more than 14.6%. Increased (11)C-MET uptake of more than 14.6% was indicative of malignant progression in all but 3 leave-one-out iterations. A detailed immunohistochemical analysis demonstrated a significant correlation between changes in (11)C-MET uptake and the expression of vascular endothelial growth factor. CONCLUSION: These data suggest that (11)C-MET-PET represents a noninvasive method to detect malignant progression in patients with gliomas. Moreover, the increase in (11)C-MET uptake during malignant progression is reflected by an increase in angiogenesis-promoting markers as vascular endothelial growth factor.
UNLABELLED: Methyl-L-(11)C-methionine ((11)C-MET) PET has been shown to detect brain tumors with a high sensitivity and specificity. In this study, we investigated the potential of (11)C-MET PET to noninvasively detect tumor progression in patients with gliomas. Moreover, we analyzed the relationship between changes in (11)C-MET uptake on PET and changes in various molecular immunohistochemical markers during progression of gliomas. METHODS: Twenty-four patients with histologically proven glioma were investigated repeatedly with (11)C-MET PET. (11)C-MET uptake was determined for a circular region of interest. Histologic and molecular analyses for tumor progression were performed after open surgery and stereotactic biopsy, respectively. RESULTS: In patients with malignant progression, the mean increase in (11)C-MET uptake was 54.4% (SD, 45.5%; range, 3.1%-162.2%), whereas in patients without a change in tumor grade, mean (11)C-MET uptake did not significantly change (3.9%; SD, 13.7%; range, -24.4% to 26.3%). The difference in the change in (11)C-MET uptake between the group with malignant progression and the group without malignant progression was highly significant (P < 0.001). Receiver-operating-curve analysis revealed a sensitivity of 90% and a specificity of 92.3% for the detection of malignant transformation by an increase in (11)C-MET uptake of more than 14.6%. Increased (11)C-MET uptake of more than 14.6% was indicative of malignant progression in all but 3 leave-one-out iterations. A detailed immunohistochemical analysis demonstrated a significant correlation between changes in (11)C-MET uptake and the expression of vascular endothelial growth factor. CONCLUSION: These data suggest that (11)C-MET-PET represents a noninvasive method to detect malignant progression in patients with gliomas. Moreover, the increase in (11)C-MET uptake during malignant progression is reflected by an increase in angiogenesis-promoting markers as vascular endothelial growth factor.
Authors: Nathalie L Jansen; Vera Graute; Lena Armbruster; Bogdana Suchorska; Juergen Lutz; Sabina Eigenbrod; Paul Cumming; Peter Bartenstein; Jörg-Christian Tonn; Friedrich Wilhelm Kreth; Christian la Fougère Journal: Eur J Nucl Med Mol Imaging Date: 2012-04-11 Impact factor: 9.236
Authors: Talia C Oughourlian; Jingwen Yao; Jacob Schlossman; Catalina Raymond; Matthew Ji; Hiroyuki Tatekawa; Noriko Salamon; Whitney B Pope; Johannes Czernin; Phioanh L Nghiemphu; Albert Lai; Timothy F Cloughesy; Benjamin M Ellingson Journal: J Neurooncol Date: 2020-01-24 Impact factor: 4.130
Authors: Nathalie L Albert; Michael Weller; Bogdana Suchorska; Norbert Galldiks; Riccardo Soffietti; Michelle M Kim; Christian la Fougère; Whitney Pope; Ian Law; Javier Arbizu; Marc C Chamberlain; Michael Vogelbaum; Ben M Ellingson; Joerg C Tonn Journal: Neuro Oncol Date: 2016-04-21 Impact factor: 12.300