Meningioma grade [Neurosurgery Wiki]

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====== Meningioma grade ======

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[[World Health Organization grade 1 meningioma]].

[[World Health Organization grade 2 meningioma]].

[[World Health Organization grade 3 meningioma]].

The current [[system]] of [[grading]] has been shown to be unsatisfactory due to its poor [[reproducibility]] as well as the considerable [[variability]] within grades. With the increasing availability of genomic and epigenomic [[profiling]], several [[marker]]s have been suggested to correlate with the location, histological subtype, and clinical behavior of meningiomas. These developments have enabled the development of targeted therapy, as well as individualized use of currently available adjuvant methods. These include copy number alterations (CNAs), specific genetic abnormalities (germline and sporadic), and genome-wide [[methylation]] profiles
((Goyal-Honavar A, Jayachandran R, Chacko G. Meningiomas - transition from traditional histological grading to molecular profiling in WHO CNS5: A Review. Indian J Pathol Microbiol. 2022 May;65(Supplement):S83-S93. doi: 10.4103/ijpm.ijpm_1085_21. PMID: 35562138.)).

===== Cohort Studies =====

===== Chromosome 1p Loss and 1q Gain for Grading of Meningioma =====

**Type of study:** Cohort Study  
**Citation:** JAMA Oncol. 2025 Apr 3. doi: 10.1001/jamaoncol.2025.0329. Online ahead of print.

**Authors:** Alexander P. Landry et al.  
**PMID:** 40178835

==== Critical Review ====

This multicenter [[cohort_study|cohort study]] spanning institutions in Canada, the US, and Germany offers a compelling contribution to the evolving field of [[molecular]] [[neuropathology]] and meningioma grading. It critically addresses the limitations of the 2021 WHO CNS classification, which incorporated rare markers like homozygous deletion of [[CDKN2A]] an B and [[tert_promoter|TERT promoter mutations]], by proposing more broadly applicable cytogenetic criteria based on copy number alterations
((Landry AP, Wang JZ, Patil V, Liu J, Gui C, Ellenbogen Y, Ajisebutu A, Yefet L, Wei Q, Singh O, Sosa J, Mansouri S, Cohen-Gadol AA, Tabatabai G, Tatagiba M, Behling F, Barnholtz-Sloan JS, Sloan AE, Chotai S, Chambless LB, Mansouri A, Makarenko S, Yip S, Ehret F, Capper D, Tsang DS, Moliterno J, Gunel M, Wesseling P, Sahm F, Aldape K, Gao A, Zadeh G, Nassiri F. Chromosome 1p Loss and 1q Gain for Grading of Meningioma. JAMA Oncol. 2025 Apr 3. doi: 10.1001/jamaoncol.2025.0329. Epub ahead of print. PMID: 40178835.)).

**Key findings include:**

  * Loss of chromosome 1p in WHO grade 1 meningiomas correlates with significantly reduced [[progression_free_survival|progression-free survival]] (PFS), approximating outcomes of WHO grade 2 tumors.
  * Combined 1p loss and 1q gain predicted outcomes similar to WHO grade 3, regardless of histopathological grade.
  * These alterations show strong prognostic power, suggesting their inclusion could refine and personalize the current [[WHO]] [[CNS]] [[grading]] [[system]].

The study's strength lies in its **large sample size** (n = 1964), long follow-up, and **integration of genomic and clinical data**. Its statistical approach—mainly [[Cox regression]] [[analysis]]—was well-suited to evaluate prognostic factors across grades. The authors convincingly demonstrate that current grading overlooks key genomic drivers of progression and recurrence.

**Clinical implications:**

Incorporating 1p loss as a criterion for WHO grade 2 and 1q gain for WHO grade 3 would allow for a **more accurate risk stratification** and **better patient management**. This aligns with the current momentum in neuro-oncology to move beyond histology and adopt integrated molecular grading—already in place for entities like [[glioma|glioma]].

**Limitations:**

  * Although multicenter, some variability in [[pathology]] [[protocol]]s and treatment across sites could have introduced bias.
  * Radiation exposure was not uniformly reported, which could affect PFS independently of genetic markers.
  * The study does not explore the cost or feasibility of widespread cytogenetic screening, which is critical for real-world application.

**Conclusion:**

This paper is a significant step toward a more nuanced and **genomically-informed meningioma classification system**. The proposed inclusion of chromosome 1p loss and 1q gain into future WHO grading guidelines deserves serious consideration by the neuro-oncologic community and classification committees.

[[meningioma|Back to meningioma section]]