肿瘤治疗野治疗期间瘤周水肿的影响：一项计算建模研究

Impact of Peritumoral Edema During Tumor Treatment Field Therapy: A Computational Modelling Study.

作者信息

Lang Stefan T, Gan Liu Shi, McLennan Cael, Monchi Oury, Kelly John J P

出版信息

IEEE Trans Biomed Eng. 2020 Dec;67(12):3327-3338. doi: 10.1109/TBME.2020.2983653. Epub 2020 Nov 19.

DOI:10.1109/TBME.2020.2983653

PMID:32286953

Abstract

BACKGROUND

Tumor treatment fields (TTFie-lds) are an approved adjuvant therapy for glioblastoma (GBM). The magnitude of applied electrical field has been shown to be related to the anti-tumoral response. However, peritumoral edema may result in shunting of electrical current around the tumor, thereby reducing the intra-tumoral electric field. In this study, we systematically address this issue with computational simulations.

METHODS

Finite element models are created of a human head with varying amounts of peritumoral edema surrounding a virtual tumor. The electric field distribution was simulated using the standard TTFields electrode montage. Electric field magnitude was extracted from the tumor and related to edema thickness. Two patient specific models were created to confirm these results.

RESULTS

The inclusion of peritumoral edema decreased the average magnitude of the electric field within the tumor. In the model considering a frontal tumor and an anterior-posterior electrode configuration, ≥6 mm of peritumoral edema decreased the electric field by 52%. In the patient specific models, peritumoral edema decreased the electric field magnitude within the tumor by an average of 26%. The effect of peritumoral edema on the electric field distribution was spatially heterogenous, being most significant at the tissue interface between edema and tumor.

CONCLUSIONS

The inclusion of peritumoral edema during TTFields modelling may have a dramatic effect on the predicted electric field magnitude within the tumor. Given the importance of electric field magnitude for the anti-tumoral effects of TTFields, the presence of edema should be considered both in future modelling studies and when planning TTField therapy.

摘要

背景

肿瘤治疗电场（TTFields）是一种已获批准的胶质母细胞瘤（GBM）辅助治疗方法。已表明施加电场的强度与抗肿瘤反应有关。然而，瘤周水肿可能导致电流在肿瘤周围分流，从而降低肿瘤内电场。在本研究中，我们通过计算模拟系统地解决了这个问题。

方法

创建包含围绕虚拟肿瘤的不同量瘤周水肿的人头有限元模型。使用标准TTFields电极阵列模拟电场分布。从肿瘤中提取电场强度并与水肿厚度相关联。创建了两个患者特异性模型以证实这些结果。

结果

包含瘤周水肿会降低肿瘤内电场的平均强度。在考虑额叶肿瘤和前后电极配置的模型中，≥6 mm的瘤周水肿使电场降低了52%。在患者特异性模型中，瘤周水肿使肿瘤内电场强度平均降低了26%。瘤周水肿对电场分布的影响在空间上是异质性的，在水肿与肿瘤之间的组织界面处最为显著。

结论

在TTFields建模过程中纳入瘤周水肿可能会对肿瘤内预测的电场强度产生显著影响。鉴于电场强度对TTFields抗肿瘤作用的重要性，在未来的建模研究和规划TTFields治疗时都应考虑水肿的存在。

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肿瘤治疗野治疗期间瘤周水肿的影响：一项计算建模研究

Impact of Peritumoral Edema During Tumor Treatment Field Therapy: A Computational Modelling Study.

作者信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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