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result(s) for
"Meningioma"
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The ROAM/EORTC-1308 trial: Radiation versus Observation following surgical resection of Atypical Meningioma: study protocol for a randomised controlled trial
by
Jenkinson, Michael D.
,
Farrell, Michael
,
Preusser, Mattheus
in
Biomedicine
,
Brain cancer
,
Brain research
2015
Background
Atypical meningiomas are an intermediate grade brain tumour with a recurrence rate of 39–58 %. It is not known whether early adjuvant radiotherapy reduces the risk of tumour recurrence and whether the potential side-effects are justified. An alternative management strategy is to perform active monitoring with magnetic resonance imaging (MRI) and to treat at recurrence. There are no randomised controlled trials comparing these two approaches.
Methods/Design
A total of 190 patients will be recruited from neurosurgical/neuro-oncology centres across the United Kingdom, Ireland and mainland Europe. Adult patients undergoing gross total resection of intracranial atypical meningioma are eligible. Patients with multiple meningioma, optic nerve sheath meningioma, previous intracranial tumour, previous cranial radiotherapy and neurofibromatosis will be excluded. Informed consent will be obtained from patients. This is a two-stage trial (both stages will run in parallel):
Stage 1 (qualitative study) is designed to maximise patient and clinician acceptability, thereby optimising recruitment and retention. Patients wishing to continue will proceed to randomisation.
Stage 2 (randomisation) patients will be randomised to receive either early adjuvant radiotherapy for 6 weeks (60 Gy in 30 fractions) or active monitoring.
The primary outcome measure is time to MRI evidence of tumour recurrence (progression-free survival (PFS)). Secondary outcome measures include assessing the toxicity of the radiotherapy, the quality of life, neurocognitive function, time to second line treatment, time to death (overall survival (OS)) and incremental cost per quality-adjusted life year (QALY) gained.
Discussion
ROAM/EORTC-1308 is the first multi-centre randomised controlled trial designed to determine whether early adjuvant radiotherapy reduces the risk of tumour recurrence following complete surgical resection of atypical meningioma. The results of this study will be used to inform current neurosurgery and neuro-oncology practice worldwide.
Trial registration
ISRCTN71502099
on 19 May 2014.
Journal Article
A clinically applicable integrative molecular classification of meningiomas
2021
Meningiomas are the most common primary intracranial tumour in adults
1
. Patients with symptoms are generally treated with surgery as there are no effective medical therapies. The World Health Organization histopathological grade of the tumour and the extent of resection at surgery (Simpson grade) are associated with the recurrence of disease; however, they do not accurately reflect the clinical behaviour of all meningiomas
2
. Molecular classifications of meningioma that reliably reflect tumour behaviour and inform on therapies are required. Here we introduce four consensus molecular groups of meningioma by combining DNA somatic copy-number aberrations, DNA somatic point mutations, DNA methylation and messenger RNA abundance in a unified analysis. These molecular groups more accurately predicted clinical outcomes compared with existing classification schemes. Each molecular group showed distinctive and prototypical biology (immunogenic, benign
NF2
wild-type, hypermetabolic and proliferative) that informed therapeutic options. Proteogenomic characterization reinforced the robustness of the newly defined molecular groups and uncovered highly abundant and group-specific protein targets that we validated using immunohistochemistry. Single-cell RNA sequencing revealed inter-individual variations in meningioma as well as variations in intrinsic expression programs in neoplastic cells that mirrored the biology of the molecular groups identified.
Multi-omics datasets are integrated to generate a unified and clinically informed molecular classification of meningiomas.
Journal Article
Efficacy of adjuvant radiotherapy for atypical and anaplastic meningioma
2019
The effect of adjuvant radiotherapy in management for high‐grade meningiomas, especially atypical meningiomas, remains controversial. We aimed to explore the role of adjuvant radiotherapy in this population. A total of 162 adults with high‐grade meningiomas (99 atypical meningiomas and 63 anaplastic meningiomas) were treated from 2003 to 2008 at Huashan Hospital. One hundred and seventeen patients presented with primary and 45 with recurrent disease. One hundred and fifteen patients (70.9%) were treated with adjuvant radiotherapy after surgical resection. The median follow‐up was 76.5 months (range 1‐142 months). Kaplan‐Meier survival curve and Cox proportional hazards modeling were used for analyses. Adjuvant radiotherapy was associated with prolonged progression‐free survival (PFS) and overall survival (OS) in patients with newly diagnosed anaplastic meningiomas irrespective of extent of resection (PFS, P = .001; OS, P = .003). Gross total resection was the only independent prognostic factor for those with newly diagnosed atypical meningiomas (PFS, P < .001; OS, P = .012). A survival benefit for adjuvant radiation was also found in subgroup analysis of patients with high‐grade meningiomas who underwent subtotal resection (PFS, P = .023; OS, P = .013). Among recurrent high‐grade meningiomas, radiotherapy offered no statistically significant improvement in either PFS or OS. Adjuvant radiotherapy is associated with improved survival in patients with newly diagnosed anaplastic meningiomas and those high‐grade meningiomas following subtotal resection. However, there was no significant correlation identified between postoperative radiation and outcome for recurrent high‐grade meningiomas. Future prospective randomized trials may help clarify the optimal tailored treatment for patients with high‐grade meningioma. The article focuses on the prognostic value of postoperative radiation in patients with atypical or anaplastic meningioma. We demonstrate that adjuvant radiotherapy is associated with improved survival in patients with high‐grade meningiomas following subtotal resection. However, postoperative radiation was not associated with significant improvement in outcome for patients with recurrent high‐grade meningiomas. The article focuses on the prognostic value of postoperative radiation in patients with atypical or anaplastic meningioma. We demonstrate that adjuvant radiotherapy is associated with improved survival in patients with high‐grade meningiomas following subtotal resection. However, postoperative radiation was not associated with significant improvement in outcome for patients with recurrent high‐grade meningiomas.
Journal Article
An overview of meningiomas
2018
Meningiomas are the most common primary intracranial tumor. Important advances are occurring in meningioma research. These are expected to accelerate, potentially leading to impactful changes on the management of meningiomas in the near and medium term. This review will cover the histo- and molecular pathology of meningiomas, including recent 2016 updates to the WHO classification of CNS tumors. We will discuss clinical and radiographic presentation and therapeutic management. Surgery and radiotherapy, the two longstanding primary therapeutic modalities, will be discussed at length. In addition, data from prior and ongoing investigations of other treatment modalities, including systemic and targeted therapies, will be covered. This review will quickly update the reader on the contemporary management and future directions in meningiomas.
Journal Article
Familial Syndromes Involving Meningiomas Provide Mechanistic Insight Into Sporadic Disease
2018
Abstract
Currently, there is an incomplete understanding of the molecular pathogenesis of meningiomas, the most common primary brain tumor. Several familial syndromes are characterized by increased meningioma risk, and the genetics of these syndromes provides mechanistic insight into sporadic disease. The best defined of these syndromes is neurofibromatosis type 2, which is caused by a mutation in the NF2 gene and has a meningioma incidence of approximately 50%. This finding led to the subsequent discovery that NF2 loss-of-function occurs in up to 60% of sporadic tumors. Other important familial diseases with increased meningioma risk include nevoid basal cell carcinoma syndrome, multiple endocrine neoplasia 1 (MEN1), Cowden syndrome, Werner syndrome, BAP1 tumor predisposition syndrome, Rubinstein-Taybi syndrome, and familial meningiomatosis caused by germline mutations in the SMARCB1 and SMARCE1 genes. For each of these syndromes, the diagnostic criteria, incidence in the population, and frequency of meningioma are presented to review the relevant clinical information for these conditions. The genetic mutations, molecular pathway derangements, and relationship to sporadic disease for each syndrome are described in detail to identify targets for further investigation. Familial syndromes characterized by meningiomas often affect genes and pathways that are also implicated in a subset of sporadic cases, suggesting key molecular targets for therapeutic intervention. Further studies are needed to resolve the functional relevance of specific genes whose significance in sporadic disease remains to be elucidated.
Journal Article
Molecular classification to refine surgical and radiotherapeutic decision-making in meningioma
by
Wilson, Christopher
,
Barnholtz-Sloan, Jill S.
,
Kaloti, Ramneet
in
631/67/1922
,
692/308/575
,
Adult
2024
Treatment of the tumor and dural margin with surgery and sometimes radiation are cornerstones of therapy for meningioma. Molecular classifications have provided insights into the biology of disease; however, response to treatment remains heterogeneous. In this study, we used retrospective data on 2,824 meningiomas, including molecular data on 1,686 tumors and 100 prospective meningiomas, from the RTOG-0539 phase 2 trial to define molecular biomarkers of treatment response. Using propensity score matching, we found that gross tumor resection was associated with longer progression-free survival (PFS) across all molecular groups and longer overall survival in proliferative meningiomas. Dural margin treatment (Simpson grade 1/2) prolonged PFS compared to no treatment (Simpson grade 3). Molecular group classification predicted response to radiotherapy, including in the RTOG-0539 cohort. We subsequently developed a molecular model to predict response to radiotherapy that discriminates outcome better than standard-of-care classification. This study highlights the potential for molecular profiling to refine surgical and radiotherapy decision-making.
In a large, partially prospective cohort of patients with molecularly profiled and clinically annotated meningioma, the extent of surgical resection and radiotherapy (RT) response correlate with molecular classification, which can be used in a molecular model to predict clinical outcomes in response to RT.
Journal Article
Regorafenib versus local standard of care in patients with grade 2–3 meningioma no longer eligible for loco-regional treatments: a phase II randomized controlled trial (the MIRAGE study)
by
Polano, Maurizio
,
Corrà, Martina
,
Del Bianco, Paola
in
Antimitotic agents
,
Antineoplastic agents
,
Biomarkers
2025
Background
Regorafenib is an oral multi-tyrosine kinase (RTK) inhibitor. It exhibits high selectivity for VEGFR1/2/3, while also inhibiting PDGFRβ, FGFR1, and oncogenic signaling cascades involving c-RAF/RAF1 and BRAF. These pathways are highly expressed in meningiomas, particularly in high-grade meningiomas.
Methods
The MIRAGE trial (NCT06275919) is a multicenter, open-label, controlled, randomized phase 2 clinical trial evaluating grade 2/3 meningioma patients who have progressed following surgery and radiotherapy. A total of 94 participants are being randomized (1:1) to receive either regorafenib (160 mg orally for 3 weeks on, 1 week off) or local standard-of-care therapies (e.g., bevacizumab, hydroxyurea, somatostatin analogs). Major inclusion criteria include histological confirmation of grade 2 or grade 3 meningioma according to the WHO 2021 classification, radiologically documented progression according to RANO criteria with at least 1 measurable lesion (minimum 10 × 10 mm) on baseline MRI, ineligibility for further surgery and/or radiotherapy, and a WHO performance status of 0–1. The primary endpoint is 6-month progression-free survival (6m-PFS) and secondary endpoints include overall survival (OS), objective response rate (ORR), disease control rate (DCR), safety, and health-related quality of life. Exploratory analysis will also be performed. MIRAGE, initiated in September 2024, is an academic trial promoted by the Istituto Oncologico Veneto, IOV-IRCCS, and will recruit patients across 15 neuro-oncology centers in Italy with an estimated study duration of 18 months.
Discussion
MIRAGE is a phase 2 trial designed to determine the role of regorafenib in prolonging the PFS of grade 2–3 meningioma patients ineligible for further surgery and/or radiotherapy.
Trial registration
ClinicalTrials.gov NCT06275919. Registered before start of inclusion, 7 February 2024. EuCT no. 2024–510954-28.
Journal Article
Development and validation of a prognostic nomogram for overall survival in individuals with malignant meningiomas: a population-based study
2025
Malignant meningiomas are a rare type of central nervous system tumor. Therefore, little is known about the best methods for treating malignant meningiomas and their prognostic factors. The aim of this study was to identify risk factors and develop a prognostic model for patients with malignant meningiomas. First, 2360 cases of malignant meningiomas from the Surveillance, Epidemiology, and End Results database were randomly divided into the primary and validation cohorts. Next, multivariate Cox regression identified several independent predictors of survival in malignant meningioma patients. These included patient demographics (age, gender, race), tumor features (laterality, size, stage), treatment timing (months from diagnosis to treatment), treatment modality, and tumor history (counts of both in situ/malignant and benign/borderline tumors), as well as year of diagnosis. Third, a nomogram was used to represent the prediction model, which was built based on independent predictors and optimized using the Akaike information criterion. Finally, we evaluated the predictive performance using the concordance index and receiver operating characteristic curve and clinical value using decision curve analysis. Notably, the strong discrimination ability of the model was demonstrated by the concordance index of the nomogram and the area under the receiver operating characteristic curve, both of which were between 0.7 and 0.8. The calibration plots in both cohorts showed high agreement between actual observation and nomogram prediction, and decision curve analysis demonstrated the significant clinical value of the nomogram. In conclusion, the nomogram is a practical and useful tool for assessing prognosis and determining effective treatment approaches.
Journal Article
Spinal extradural meningioma mimicking lumbar disc herniation in a cat: a case report
2026
Background
Neoplasia affecting the feline spinal column is an uncommon clinical occurrence, with the most frequently documented types being lymphosarcoma, osteosarcoma, glial tumors, and meningioma. This report describes the first case of an extradural meningioma affecting the lumbar spinal cord of a cat.
Case presentation
An 8-year-old spayed female domestic shorthair cat presented with a two-day history of paresis, dyschezia, and reduced tail movement. Hematologic testing and thoracic radiographs revealed no abnormalities; however, lumbar radiography identified a radiopaque mass in the spinal canal at the L5-6 level. Magnetic resonance imaging demonstrated an extruded nucleus pulposus-like extradural mass with limited parenchymal enhancement, compressing the spinal cord at L5-6. A hemilaminectomy was performed, and an extradural soft tissue mass not attached to the dura mater was excised. Histopathology confirmed the diagnosis of a fibrous meningioma.
Conclusions
While spinal meningiomas typically present as intradural extramedullary lesions, their occurrence in the extradural space is exceptionally uncommon, especially when no dural connection is present. This case provides the first imaging description of an extradural fibrous meningioma without dural involvement in a cat. Clinically, this highlights the importance of considering atypical forms of meningioma in the differential diagnosis of extradural spinal masses with minimal contrast enhancement.
Journal Article