Introduction Meningiomas are generally considered “benign,” however, these tumors can demonstrate variability in behavior and a surprising aggressiveness with elevated rates of recurrence. The advancement of next-generation molecular technologies have led to the understanding of the genomic and epigenomic landscape of meningiomas and more recent correlations with clinical characteristics and behavior. Methods Based on a thorough review of recent peer-reviewed publications (PubMed) and edited texts, we provide a molecular overview of meningiomas with a focus on relevant clinical implications. Results The identification of specific somatic driver mutations has led to the classification of several major genomic subgroups, which account for more than 80% of sporadic meningiomas, and can be distinguished using noninvasive clinical variables to help guide management decisions. Other somatic genomic modifications, including non-coding alterations and copy number variations, have also been correlated with tumor characteristics. Furthermore, epigenomic modifications in meningiomas have recently been described, with DNA methylation being the most widely studied and potentially most clinically relevant. Based on these molecular insights, several clinical trials are currently underway in an effort to establish effective medical therapeutic options for meningioma. Conclusion As we enhance our multiomic understanding of meningiomas, our ability to care for patients with these tumors will continue to improve. Further biological insights will lead to additional progress in precision medicine for meningiomas.
Objective While adjuvant treatment regimens have been modified for older patients with glioblastoma (GBM), surgical strategies have not been tailored. Methods Clinical data of 48 consecutive patients aged 70 years or older, who underwent surgical resection for GBM with intraoperative ultrasonography (IoUS) alone or combination with intraoperative MRI (IoMRI) at Yale New Haven Hospital were retrospectively reviewed. Variables were analyzed, and comparative analyses were performed. Results The addition of IoMRI was not superior to IoUS alone in terms of overall survival (OS) (P = 0.306), Karnofsky Performance Score (KPS) at postoperative 6 weeks (P = 0.704) or extent of resection (P = 0.263). Length of surgery (LOSx), however, was significantly longer (P = 0.0002) in the IoMRI group. LOSx (P = 0.015) and hospital stay (P = 0.025) were predictors of postoperative complications. Increased EOR (GTR or NTR) (P = 0.030), postoperative adjuvant treatment (P < 0.0001) and postoperative complications (P = 0.006) were predictive for OS. Patients with relatively lower preoperative KPS scores (<70) showed significant improvement at postoperative 6 weeks (P<0.0001). Patients with complications (P = 0.038) were more likely to have lower KPS at postoperative 6 weeks. Conclusions Aggressive management with surgical resection should be considered in older patients with GBM, even those with relatively poor KPS. The use of ioMRI in this population does not appear to confer any measurable benefit over ioUS in experienced hands, but prolongs the length of surgery significantly, which is a preventable prognostic factor for impeding care.
Background Multiple meningiomas (MMs) rarely occur sporadically. It is unclear whether each individual tumor in a single patient behaves similarly. Moreover, the molecular mechanisms underlying the formation of sporadic MMs and clonal formation etiology of these tumors are poorly understood. Methods Patients with spatially separated MMs without prior radiation exposure or a family history who underwent surgical resection of at least two meningiomas were included. Unbiased, comprehensive next generation sequencing was performed, and relevant clinical data was analyzed. Results Fifteen meningiomas and one dural specimen from six patients were included. The majority of tumors (12/15) were WHO Grade I; one patient had bilateral MMs, one of which was Grade II, while the other was Grade I. We found 11/15 of our cohort specimens were of NF2-loss subtype. Meningiomas from 5/6 patients had a monoclonal origin, with the tumor from the remaining patient showing evidence for independent clonal formation. We identified a novel case of non-NF2 mutant MM with monoclonal etiology. MMs due to a monoclonal origin did not always display a homogenous genomic profile, but rather exhibited heterogeneity due to branching evolution. Conclusions Both NF2-loss and non-NF2 driven MMs can form due to monoclonal expansion and those tumors can acquire inter-tumoral heterogeneity through branched evolution. Grade I and II meningiomas can occur in the same patient. Thus, the molecular make-up and clinical behavior of one tumor in MMs, cannot reliably lend insight into that of the others and suggests the clinical management strategy for MMs should be tailored individually.
OBJECTIVE As sphenoid wing meningiomas (SWMs) are associated with varying degrees of bony involvement, we sought to understand potential relationships between genomic subgroup and this feature. METHODS Patients treated at Yale-New Haven Hospital for SWM were reviewed. Genomic subgroup was determined via whole exome sequencing, while the extent of bony involvement was radiographically classified as frank tumor invasion (TI), hyperostosis only (HOOs), or both (TI+HO). Among additional clinical variables collected, a subset of tumors was identified as spheno-orbital meningiomas (SOMs). Predictive logistic regression models were developed for genomic subgroups based on pre-operative clinical features. RESULTS Among 64 SWMs, 53% had HOO, 9% had TI, and 14% had TI+HO; nine SOMs were identified. Tumors with invasion (i.e., TI or TI+HO) were more likely to be WHO grade II (p: 0.028). Additionally, tumors with invasion were nearly 30 times more likely to harbor NF2 mutations (OR: 27.6; p: 0.004), while hyperostosis only (without frank tumor invasion) were over 4 times more likely to have a TRAF7 mutation (OR: 4.5; p: 0.023). SOMs were a significant predictor of underlying TRAF7 mutation (OR: 10.21; p: 0.004). CONCLUSIONS SWMs with invasion into bone tend to be higher grade and are more likely to be NF2 mutated, while SOMs and those with hyperostosis are associated with TRAF7 variants. Pre-operative prediction of molecular subtypes based on radiographic bony characteristics may have significant biological and clinical implications based on known recurrence patterns associated with genomic drivers.
INTRODUCTION Approximately 50% of sporadic meningiomas, which originate throughout the neuroaxis, harbor bi-alleic NF2 loss. We sought to determine whether NF2 mutant meningiomas originating from different intracranial locations relative to the tentorium differ with regards to their genomic profile and clinical behavior. METHODS Clinical and whole exome sequencing data (WES) for all patients who underwent resection of NF2 mutant meningiomas and consented to WES were reviewed and analyzed. RESULTS 258 NF2 mutant meningiomas were included and subdivided into supra- (sNF2) versus infra-tentorial (iNF2) groups (230 versus 28, respectively). Supratentorial location was significantly associated with genomically unstable tumors (percent genome altered median 12% vs. 1%, p< 0.001) and were more likely to harbor the more aggressive feature of chromosome 1p deletion (31.4% vs. 8.3%, p= 0.036). These malignant genomic features correlated with an increased incidence of high risk clinical features, including higher-grade (i.e. WHO Grade II/III) (48.9% vs. 7.14%, p < 0.001) and elevated Ki-67 (58.9% vs. 16.6%, p< 0.01), as well as larger volume (median 26.21 cm3 vs. 9.84 cm3, p< 0.001) and edema (65.8% vs. 25.9%, p= 0.001) in sNF2 meningiomas as compared with iNF2 tumors, respectively. Not surprisingly, although there was no difference in extent of resection between the groups (gross total resection (GTR), 96.26% vs. 96.15%, p= 0.45), patients with sNF2 tumors had more associated deaths (14.6% vs. 0%, p= 0.03) and a marginally shorter overall survival (p= 0.061). GTR was associated with longer progression-free survival (p= 0.037). CONCLUSION Within the homogeneous group of somatic NF2 mutated meningiomas, infratentorial tumors are seemingly more benign in their genomic make-up and clinical manifestation as compared to ones located in the supratentorial location. While GTR is useful to both groups in preventing recurrence, this benefit may be especially important in the clinically and genomically higher risk sNF2 tumors.
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