电动力药物给药（EMDA）作用机制的研究。

Investigation of the mechanisms of action behind Electromotive Drug Administration (EMDA).

作者信息

Kos Bor, Vásquez Juan Luis, Miklavčič Damijan, Hermann Gregers G G, Gehl Julie

机构信息

Faculty of Electrical Engineering, University of Ljubljana , Ljubljana , Slovenia.

Department of Oncology, Copenhagen University Hospital Herlev , Copenhagen , Denmark.

出版信息

PeerJ. 2016 Aug 24;4:e2309. doi: 10.7717/peerj.2309. eCollection 2016.

DOI:10.7717/peerj.2309

PMID:27635313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5012313/

Abstract

OBJECTIVE

Bladder cancer is a cause of considerable morbidity worldwide. Electromotive Drug Administration is a method that combines intravesical chemotherapy with local electric field application. Electroporation has been suggested among other mechanisms as having a possible role in the therapy, so the goal of the present study was to investigate the electric fields present in the bladder wall during the treatment to determine which mechanisms might be involved.

MATERIAL AND METHODS

Electromotive Drug Administration involves applying intravesical mitomycin C with direct current of 20 mA delivered through a catheter electrode for 30 min. For numerical electric field computation we built a 3-D nonhomogeneous patient specific model based on CT images and used finite element method simulations to determine the electric fields in the whole body.

RESULTS

Results indicate that highest electric field in the bladder wall was 37.7 V/m. The mean electric field magnitude in the bladder wall was 3.03 V/m. The mean magnitude of the current density in the bladder wall was 0.61 A/m(2).

CONCLUSIONS

The present study shows that electroporation is not the mechanism of action in EMDA. A more likely explanation of the mechanism of action is iontophoretic forces increasing the mitomycin C concentration in the bladder wall.

摘要

目的

膀胱癌在全球范围内是导致相当高发病率的原因。电动药物给药是一种将膀胱内化疗与局部电场应用相结合的方法。除其他机制外，有人提出电穿孔在该治疗中可能起作用，因此本研究的目的是研究治疗期间膀胱壁中存在的电场，以确定可能涉及哪些机制。

材料与方法

电动药物给药包括通过导管电极施加20 mA直流电30分钟，同时膀胱内注入丝裂霉素C。为了进行数值电场计算，我们基于CT图像构建了一个三维非均匀患者特异性模型，并使用有限元方法模拟来确定全身的电场。

结果

结果表明，膀胱壁中的最高电场为37.7 V/m。膀胱壁中的平均电场强度为3.03 V/m。膀胱壁中电流密度的平均大小为0.61 A/m²。

结论

本研究表明，电穿孔不是电动药物给药的作用机制。对作用机制更可能的解释是离子导入力增加了膀胱壁中丝裂霉素C的浓度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8eb1/5012313/40cc342d4047/peerj-04-2309-g001.jpg

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电动力药物给药（EMDA）作用机制的研究。

Investigation of the mechanisms of action behind Electromotive Drug Administration (EMDA).

作者信息

机构信息

出版信息

OBJECTIVE

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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