TY - JOUR
T1 - Beyond the WHO classification of meningioma
T2 - using molecular diagnostics to guide management
AU - Clynch, Abigail
AU - Richardson, George E
AU - Mustafa, Mohammad A
AU - Gillespie, Conor S
AU - Rathi, Nitika
AU - Bakhsh, Ali
AU - Zakaria, Rasheed
AU - Islim, Abdurrahman I
AU - Millward, Christopher P
AU - Jenkinson, Michael D
PY - 2023/8/8
Y1 - 2023/8/8
N2 - Meningioma are the most common primary brain tumour. Classically, meningioma are phenotypically grouped using the World Health Organisation (WHO) classification system. However, it is now understood that the WHO approach overfits tumours into three grades, resulting in similarly graded tumours displaying phenotypically distinct behaviour. There is a growing body of research investigating the molecular biology of these tumours, including genomic, transcriptomic, metabolomic, proteomic, and methylomic profiling. Such advancements in molecular profiling of meningioma are providing greater accuracy in prognostication of tumours. Furthermore, a clearer understanding of tumour molecular biology highlights potential targets for pharmacotherapies. Currently, the routine application of in-depth tumour molecular analysis is limited, however as it becomes more widely available it will likely result in improved patient care. This review seeks to explore the important developments in meningioma molecular biology, discussed in the context of their clinical importance.
AB - Meningioma are the most common primary brain tumour. Classically, meningioma are phenotypically grouped using the World Health Organisation (WHO) classification system. However, it is now understood that the WHO approach overfits tumours into three grades, resulting in similarly graded tumours displaying phenotypically distinct behaviour. There is a growing body of research investigating the molecular biology of these tumours, including genomic, transcriptomic, metabolomic, proteomic, and methylomic profiling. Such advancements in molecular profiling of meningioma are providing greater accuracy in prognostication of tumours. Furthermore, a clearer understanding of tumour molecular biology highlights potential targets for pharmacotherapies. Currently, the routine application of in-depth tumour molecular analysis is limited, however as it becomes more widely available it will likely result in improved patient care. This review seeks to explore the important developments in meningioma molecular biology, discussed in the context of their clinical importance.
U2 - 10.47795/WVJZ9783
DO - 10.47795/WVJZ9783
M3 - Article
C2 - 37860270
SN - 1473-9348
VL - 22
SP - WVJZ9783
JO - Advances in Clinical Neuroscience & Rehabilitation
JF - Advances in Clinical Neuroscience & Rehabilitation
IS - 2
ER -