Modelling Meningioma Using Organoids: A Review of Methodologies and Applications

Organoids Pub Date : 2023-12-04 DOI:10.3390/organoids2040017

Clara Elena López Vásquez, Clint Gray, Claire Henry, Matthew J. Munro

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Abstract

Meningiomas are the most common tumours of the central nervous system. According to the World Health Organization (WHO), this disease is classified into three different grades: 80% of meningioma patients present with benign grade I tumours, while less than 2% present with malignant grade III meningiomas. Despite affecting thousands of people worldwide, much remains unknown about this disease, and the development of systemic treatments is still far behind in comparison to other types of tumours. Therefore, forming 3D structures (spheroids and organoids) could facilitate research on the mechanisms of formation, proliferation, migration, and invasion of these, for the most part, benign tumours, while also helping in the process of drug development. To date, there are three published methods for the formation of meningioma organoids primarily derived from patient tissue samples. Organoids offer many advantages in the development of treatments because they recapitulate the cellular complexity within tumours. These new methodological advances could open a substantial number of possibilities for the further characterisation and treatment of meningiomas. This review includes an overview of the disease and a description and comparison of established protocols for meningioma organoid formation.

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使用有机体模拟脑膜瘤：方法与应用综述

脑膜瘤是中枢神经系统最常见的肿瘤。根据世界卫生组织(WHO)，这种疾病分为三个不同的级别:80%的脑膜瘤患者表现为良性I级肿瘤，而不到2%的患者表现为恶性III级脑膜瘤。尽管影响着全世界成千上万的人，但对这种疾病仍有许多未知之处，与其他类型的肿瘤相比，全身治疗的发展仍然远远落后。因此，形成三维结构(球体和类器官)可以促进这些主要是良性肿瘤的形成、增殖、迁移和侵袭机制的研究，同时也有助于药物开发过程。迄今为止，有三种已发表的方法主要来源于患者组织样本形成脑膜瘤类器官。类器官在治疗的发展中提供了许多优势，因为它们概括了肿瘤内的细胞复杂性。这些新的方法学进展为脑膜瘤的进一步表征和治疗开辟了大量的可能性。这篇综述包括疾病的概述和脑膜瘤类器官形成的既定方案的描述和比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Organoids

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