患有和未患有1型神经纤维瘤病的儿童的小儿低级别胶质瘤的力学特性

Mechanical properties of pediatric low-grade gliomas in children with and without neurofibromatosis type 1.

作者信息

McIlvain Grace, Hayes Laura L, Walter Andrew W, Averill Lauren W, Kandula Vinay, Johnson Curtis L, Nikam Rahul M

机构信息

Department of Biomedical Engineering, Columbia University, New York, NY, USA.

Department of Radiology, Columbia University, New York, NY, USA.

出版信息

Neuroradiology. 2024 Dec;66(12):2301-2311. doi: 10.1007/s00234-024-03491-z. Epub 2024 Oct 21.

DOI:10.1007/s00234-024-03491-z

PMID:39432071

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11611943/

Abstract

INTRODUCTION

Prognoses for pediatric brain tumors are suboptimal, as even in low-grade tumors, management techniques can lead to damage in the developing brain. Therefore, advanced neuroimaging methods are critical for developing optimal management plans and improving patient care. Magnetic resonance elastography (MRE) has allowed for the characterization of adult gliomas by their mechanical properties, which are uniquely sensitive to the complex interplay of cellularity, vasculature, and interstitium. However, pediatric tumors differ in behavior and cytoarchitecture, and their mechanical properties have never been assessed.

METHODS

Here, we conduct the first study of pediatric brain tumor mechanical properties by using MRE to measure tissue stiffness and damping ratio in low grade gliomas (LGGs). We additionally measure the mechanical properties of non-neoplastic focal abnormal signal intensities (FASIs) in children with neurofibromatosis type 1 (NF1).

RESULTS

23 patients age 4-17 years who had MR imaging results consistent with a primary LGG or with NF1 were included in this study. We found that pediatric gliomas are on an average 10.9% softer (p = 0.010) with a 17.3% lower (p = 0.009) viscosity than reference tissue. Softness of tumors appeared consistent across tumor subtypes and unrelated to tumor size or contrast-enhancement. In NF1 we found that, unlike gliomas, FASIs are stiffer, though not significantly, than reference tissue by an average of 10.4% and have a 16.7% lower damping ratio.

CONCLUSIONS

Measuring tumor mechanical properties patterning and heterogeneity has potential to aid in prediction of biological behavior and inform management strategies for pediatric patients.

摘要

引言

小儿脑肿瘤的预后并不理想，因为即使是低级别肿瘤，治疗技术也可能对发育中的大脑造成损伤。因此，先进的神经成像方法对于制定最佳治疗方案和改善患者护理至关重要。磁共振弹性成像（MRE）已能够根据其力学特性对成人胶质瘤进行表征，这些特性对细胞密度、血管系统和间质的复杂相互作用具有独特的敏感性。然而，小儿肿瘤在行为和细胞结构上有所不同，其力学特性从未被评估过。

方法

在此，我们通过使用MRE测量低级别胶质瘤（LGG）的组织硬度和阻尼比，首次对小儿脑肿瘤的力学特性进行研究。我们还测量了1型神经纤维瘤病（NF1）患儿非肿瘤性局灶性异常信号强度（FASI）的力学特性。

结果

本研究纳入了23例年龄在4至17岁之间、磁共振成像结果与原发性LGG或NF1一致的患者。我们发现，小儿胶质瘤平均比对照组织软10.9%（p = 0.010），黏度低17.3%（p = 0.009）。肿瘤的柔软度在各肿瘤亚型中表现一致，与肿瘤大小或强化程度无关。在NF1中，我们发现，与胶质瘤不同，FASI比对照组织硬，平均硬10.4%，但无统计学意义，且阻尼比低16.7%。

结论

测量肿瘤力学特性的模式和异质性有助于预测小儿患者的生物学行为并为管理策略提供依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d04a/11611943/b4141fc71a11/234_2024_3491_Fig1_HTML.jpg

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患有和未患有1型神经纤维瘤病的儿童的小儿低级别胶质瘤的力学特性

Mechanical properties of pediatric low-grade gliomas in children with and without neurofibromatosis type 1.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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