OBJECTIVE: Diffuse gliomas may harbor anaplastic foci which affect prognosis and determine adjuvant therapies. Such foci are not always detected by contrast-enhancement on MRI. Recently, other modalities have been introduced, such as FET-PET for pre-diagnostic imaging and 5-aminolevulinic derived tumor fluorescence for intraoperative identification of malignant glioma tissue. The relationship between these modalities and their value for guiding biopsies during resection has not yet been elucidated in the group of diffuse gliomas. METHODS: FET-PET was performed in 30 consecutive patients with intracerebral lesions suggestive of diffuse gliomas on MRI with or without areas of contrast-enhancement. Prior to surgery patients were given 5-ALA at a dose of 20mg/kg body weight. Areas of FET uptake with a lesion/brain ratio of 1.6 or more were considered indicators of tumor. FET-PET data were corregistered with MRI data before surgery in order to obtain neuronavigated biopsies during resection, which were collected from FET positive and negative areas, analyzed for tumor fluorescence and correlated to contrast-enhancement on MRI. RESULTS: 13 of 30 tumors were diagnosed as gliomas WHO Grade II, 15 as gliomas WHO Grade III and 2 as gliomas WHO Grade IV. The mean lesion/brain tissue ratio of FET uptake was significantly greater for high-grade than for low-grade gliomas (averages SD 2.323±0.754 vs. 1.453±0.538 p=0.0014). A match of FET-pos/ALA-pos biopsies was found in 70.6% (12/17) of high-grade gliomas (WHO Grade III/IV) but only in 7.7% (1/13) of low grade gliomas. Gd-neg/FET-neg/ALA-neg biopsies yielded a low-grade tumor in 46.2% (6/13). A mismatch between FET uptake and 5-ALA (FET-pos/ALA-neg) was found in 46.2% (6/13) of the low-grade and in 17.6% (3/17) of the high-grade tumors. The combination of FET-PET- and 5-ALA-positivity yielded a sensitivity for identifying high-grade glioma foci of 70.5% and a specificity of 92.3%. CONCLUSIONS: In low grade gliomas 5-ALA fluorescence is the exception and FET PET is more sensitive. High grade areas in diffuse gliomas with anaplastic foci usually fluoresce, if they are FET PET positive. As a result, FET PET appears valuable for pre-operative identification of anaplastic foci and hot spots are strongly predictive for ALA-derived fluorescence, which highlight anaplastic foci during resection.
OBJECTIVE: Diffuse gliomas may harbor anaplastic foci which affect prognosis and determine adjuvant therapies. Such foci are not always detected by contrast-enhancement on MRI. Recently, other modalities have been introduced, such as FET-PET for pre-diagnostic imaging and 5-aminolevulinic derived tumor fluorescence for intraoperative identification of malignant glioma tissue. The relationship between these modalities and their value for guiding biopsies during resection has not yet been elucidated in the group of diffuse gliomas. METHODS: FET-PET was performed in 30 consecutive patients with intracerebral lesions suggestive of diffuse gliomas on MRI with or without areas of contrast-enhancement. Prior to surgery patients were given 5-ALA at a dose of 20mg/kg body weight. Areas of FET uptake with a lesion/brain ratio of 1.6 or more were considered indicators of tumor. FET-PET data were corregistered with MRI data before surgery in order to obtain neuronavigated biopsies during resection, which were collected from FET positive and negative areas, analyzed for tumor fluorescence and correlated to contrast-enhancement on MRI. RESULTS: 13 of 30 tumors were diagnosed as gliomas WHO Grade II, 15 as gliomas WHO Grade III and 2 as gliomas WHO Grade IV. The mean lesion/brain tissue ratio of FET uptake was significantly greater for high-grade than for low-grade gliomas (averages SD 2.323±0.754 vs. 1.453±0.538 p=0.0014). A match of FET-pos/ALA-pos biopsies was found in 70.6% (12/17) of high-grade gliomas (WHO Grade III/IV) but only in 7.7% (1/13) of low grade gliomas. Gd-neg/FET-neg/ALA-neg biopsies yielded a low-grade tumor in 46.2% (6/13). A mismatch between FET uptake and 5-ALA (FET-pos/ALA-neg) was found in 46.2% (6/13) of the low-grade and in 17.6% (3/17) of the high-grade tumors. The combination of FET-PET- and 5-ALA-positivity yielded a sensitivity for identifying high-grade glioma foci of 70.5% and a specificity of 92.3%. CONCLUSIONS: In low grade gliomas5-ALA fluorescence is the exception and FET PET is more sensitive. High grade areas in diffuse gliomas with anaplastic foci usually fluoresce, if they are FET PET positive. As a result, FET PET appears valuable for pre-operative identification of anaplastic foci and hot spots are strongly predictive for ALA-derived fluorescence, which highlight anaplastic foci during resection.
Authors: Evgenii Belykh; Eric J Miller; Danying Hu; Nikolay L Martirosyan; Eric C Woolf; Adrienne C Scheck; Vadim A Byvaltsev; Peter Nakaji; Leonard Y Nelson; Eric J Seibel; Mark C Preul Journal: World Neurosurg Date: 2018-02-02 Impact factor: 2.104
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
Authors: Pablo A Valdés; Valerie Jacobs; Brent T Harris; Brian C Wilson; Frederic Leblond; Keith D Paulsen; David W Roberts Journal: J Neurosurg Date: 2015-07-03 Impact factor: 5.115
Authors: Jan Frederick Cornelius; Philipp Jörg Slotty; Gabriele Stoffels; Norbert Galldiks; Karl Josef Langen; Hans Jakob Steiger Journal: J Neurol Surg B Skull Base Date: 2013-04-01
Authors: Ruimin Huang; Jelena Vider; Joy L Kovar; D Michael Olive; Ingo K Mellinghoff; Philipp Mayer-Kuckuk; Moritz F Kircher; Ronald G Blasberg Journal: Clin Cancer Res Date: 2012-08-22 Impact factor: 12.531