Journal of neuro-oncology
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Journal of neuro-oncology · Apr 2013
Comparative StudyRisk of subsequent cancer following a primary CNS tumor.
Improvements in survival among central nervous system (CNS) tumor patients has made the risk of developing a subsequent cancer an important survivorship issue. Such a risk is likely influenced by histological and treatment differences between CNS tumors. De-identified data for 41,159 patients with a primary CNS tumor diagnosis from 9 Surveillance, Epidemiology and End Results (SEER) registries were used to calculate potential risk for subsequent cancer development. ⋯ Glioblastoma multiforme patients who received radiotherapy were at lower risks for female breast and prostate cancers, though at an elevated risk for cancers of the thyroid and brain. Radiotherapy is associated with subsequent cancer development, particularly for sites within the field of radiation, though host susceptibility and post-treatment status underlie this risk. Variation in subsequent cancer risk among different CNS tumor histological subtypes indicate a complex interplay between risk factors in subsequent cancer development.
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Journal of neuro-oncology · Apr 2013
Comparative StudyThe value of temozolomide in combination with radiotherapy during standard treatment for newly diagnosed glioblastoma.
The current best standard care for glioblastoma still has limitations and unsatisfactory outcomes in patients with an unmethylated O-6-methylguanine-DNA methyltransferase (MGMT) promoter. Whether the effects of temozolomide are primarily due to its concomitant use with radiotherapy or are also mediated by their independent use in the adjuvant phase remain unclear. To validate the concomitant use of temozolomide in the standard protocol, we compared the overall survival of two prospective patient groups: one treated with radiotherapy alone followed by adjuvant temozolomide (RT → TMZ group) and the other treated with concomitant radiotherapy and temozolomide followed by adjuvant temozolomide (CCRT-TMZ group). ⋯ However, the OS and PFS did not differ between the CCRT-TMZ and the RT → TMZ groups in the patients without MGMT promoter methylation. Although this data is from a retrospective analysis using small number of patients, the study might indicate that concomitant use of temozolomide with radiotherapy is a crucial step in the standard treatment for glioblastoma patients with MGMT promoter methylation. And the use of temozolomide, either concurrently or by adjuvant after radiotherapy, remains a questionable value for those with an unmethylated MGMT promoter.
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Journal of neuro-oncology · Feb 2013
Combination of paclitaxel thermal gel depot with temozolomide and radiotherapy significantly prolongs survival in an experimental rodent glioma model.
OncoGel™ incorporates paclitaxel, a mitotic inhibitor, into ReGel™, a thermosensitive gel depot system to provide local delivery, enhance efficacy and limit systemic toxicity. In previous studies the alkylating agent temozolomide (TMZ) incorporated into a polymer, pCPP:SA, also for local delivery, and OncoGel were individually shown to increase efficacy in a rat glioma model. We investigated the effects of OncoGel with oral TMZ or locally delivered TMZ polymer, with and without radiotherapy (XRT) in rats with intracranial gliosarcoma. ⋯ All other combination groups [OncoGel/XRT], [TMZ polymer/XRT], [OncoGel/TMZ polymer], [OncoGel/TMZ polymer/XRT], and [OncoGel/oral TMZ/XRT] yielded greater than 50 % LTS (p < 0.0001 for each combination as compared to controls), therefore median survival was not reached. OncoGel/TMZ polymer and OncoGel/oral TMZ/XRT had 100 % LTS (p < 0.0001 and p = 0.0001 vs. oral TMZ/XRT, respectively). These results indicate that OncoGel given locally with oral or locally delivered TMZ and/or XRT significantly increased the number of LTS and improved median survival compared to oral TMZ and XRT given alone or in combination in a rodent intracranial gliosarcoma model.
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Journal of neuro-oncology · Jan 2013
Factors affecting peritumoral brain edema in meningioma: special histological subtypes with prominently extensive edema.
Various degrees of peritumoral brain edema (PTBE) are observed in patients with intracranial meningiomas. Factors affecting the occurrence of PTBE in intracranial meningioma were investigated. PTBE was investigated retrospectively for 110 patients with primary intracranial meningiomas. ⋯ WHO grade I uncommon type had obviously higher EI than WHO grade I common type, and WHO grade II and III types (P < 0.001). Seven cases with prominently high EI (EI ≥10) were all WHO grade I uncommon type, including angiomatous, microcystic, secretory, and lymphoplasmacyte-rich meningioma. Prominently extensive PTBE might indicate the presence of WHO grade I uncommon type meningioma.
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Journal of neuro-oncology · Nov 2012
Molecular genetics of adult grade II gliomas: towards a comprehensive tumor classification system.
Adult grade II low-grade gliomas (LGG) are classified according to the WHO as astrocytomas, oligodendrogliomas or mixed gliomas. TP53 mutations and 1p19q codeletion are the main molecular abnormalities recorded, respectively, in astrocytomas and oligodendrogliomas and in mixed gliomas. Although IDH mutations (IDH1 or IDH2) are recorded in up to 85 % of low-grade gliomas, IDH negative gliomas do occur. ⋯ The combined use of these three molecular markers allow for an accurate prediction of survival in LGG. These findings could significantly modify LGG classification and may represent a new tool to guide patient-tailored therapy. Moreover, immunohistochemical detection of p53, INA and mR132H IDH1 expression could represent an interesting prescreening test to be performed before 1p19q codeletion, IDH1 minor mutation and IDH2 mutation detection.