Journal of neuro-oncology
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Journal of neuro-oncology · Sep 2012
Temozolomide or bevacizumab for spinal cord high-grade gliomas.
High-grade gliomas of the spinal cord are rare tumors, traditionally managed with surgery and radiotherapy. Once patients fail standard treatment, many receive some chemotherapy, although the data supporting such is limited. We reviewed our experience treating high-grade gliomas of the spinal cord with standard intracranial regimens including temozolomide and bevacizumab. ⋯ The median time to progression was 20.7 months (range 3.3-29.9 months) and median overall survival was 22.8 months (range 3.3-31.8 months). This retrospective review suggests that temozolomide and bevacizumab may be beneficial in spinal cord high-grade gliomas. The compact architecture of the spinal cord makes bevacizumab a particularly appealing agent due to the drug's effect on peritumoral edema and mass effect.
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Journal of neuro-oncology · Sep 2012
Neurocognitive and sociodemographic functioning of glioblastoma long-term survivors.
An increasing number of patients with glioblastoma multiforme live longer than 3 years after diagnosis (long-term survivors). Even so, little is known about their everyday performance and quality of life. We studied 17 glioblastoma patients surviving for longer than 3 years. ⋯ Glioblastoma long-term survivors show moderate impairment in their cognitive functions and more often neurological symptoms. However, the majority of these patients are able to manage their daily routine independently. Nevertheless, future prospects remain poor and patients suffer from financial difficulties.
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Journal of neuro-oncology · Aug 2012
Bevacizumab therapy for adults with recurrent/progressive meningioma: a retrospective series.
Intracranial meningiomas are often indolent tumors which typically grow over years to decades. Nonetheless, meningiomas that progress after maximum safe resection and radiation therapy pose a significant therapeutic challenge and effective therapies have yet to be identified. Preclinical studies implicate angiogenesis in the pathophysiology of more aggressive meningiomas, suggesting that anti-angiogenic therapies may be of utility in this setting. ⋯ Most toxicities were mild however single patients developed CNS hemorrhage (grade 1) and intestinal perforation (grade 4), respectively. Bevacizumab can be administered safely to patients with meningioma and appears to be associated with encouraging anti-tumor effect when administered as either a single agent or in combination with chemotherapy. Phase II trials investigating bevacizumab in patients with progressive/recurrent meningioma are warranted.
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Atypical and anaplastic (WHO Grades II and III) meningiomas are aggressive tumors, and patients often progress despite surgery and radiation. There is no known effective chemotherapeutic option for these patients. Meningiomas have a high expression of vascular endothelial growth factor receptor (VEGFR). ⋯ Six month PFS rate was 43.8 % (95 % CI, 15.7-69.1 %). Bevacizumab was well-tolerated in our patients, and may be considered in patients who have exhausted radiation and surgical options. Prospective studies are required to define the safety and efficacy of bevacizumab in atypical and anaplastic meningiomas.
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Journal of neuro-oncology · Jul 2012
[18F]-Fluorodeoxyglucose positron emission tomography in children with neurofibromatosis type 1 and plexiform neurofibromas: correlation with malignant transformation.
The objective of this study was to investigate the predictive value of [18F]-fluorodeoxyglucose positron emission tomography (FDG-PET) in detecting malignant transformation of plexiform neurofibromas in children with neurofibromatosis type 1 (NF1). An electronic search of the medical records was performed to determine patients with NF1 who had undergone FDG-PET for plexiform neurofibroma between 2000 and 2011. All clinical, radiologic, pathology information and operative reports were reviewed. ⋯ SUV(max) of plexiform neurofibromas (including typical and atypical) was significantly different from MPNST (2.49 (SD = 1.50) vs. 7.63 (SD = 2.96), p < 0.001). A cutoff SUV(max) value of 4.0 had high sensitivity and specificity of 1.0 and 0.94 to distinguish between PN and MPNST. FDG-PET can be helpful in predicting malignant transformation in children with plexiform neurofibromas and determining the need for biopsy and/or surgical resection.