The Effect of Cranial Sutures Should Be Considered in Transcranial Electrical Stimulation.

IF 1.8 4区医学 Q3 BEHAVIORAL SCIENCES

Journal of Ect Pub Date : 2024-12-10 DOI:10.1097/YCT.0000000000001079

Alistair Carroll, Caroline D Rae, Donel Martin, Socrates Dokos, Colleen Loo

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引用次数: 0

Abstract

Background: Computational modeling is used to optimize transcranial electrical stimulation (tES) approaches, and the precision of these models is dependent on their anatomical accuracy. We are unaware of any computational modeling of tES that has included cranial sutures.

Objectives: The aims of the study were to review the literature on the timing of closure of the coronal and squamous sutures, which are situated under electrode placements used in tES; to review the literature regarding differences in skull and suture conductivity and to determine a more accurate conductivity for sutures; and to identify magnetic resonance image (MRI) techniques that could be used to detect cranial sutures.

Methods: A scoping review of medical literature was conducted. We conducted computational modeling of a cranial bone plug using COMSOL Multiphysics finite element software, utilizing methodology and results from a previous study. We assessed use of the "3D Slicer" software to identify sutures in routine T1-weighted MRI scans.

Results: Reports from forensic examinations and computed tomography (CT) scans showed suture closure does not correlate with age. Our computational modeling determined a cranial suture conductivity of 0.32 S/m, which is much higher than for skull (compact skull 0.004 S/m, standard trilayer 0.013 S/m). 3D slicer enabled rapid and precise identification of the anatomy and location of cranial sutures.

Conclusions: Cranial sutures persist throughout the lifespan and have a far higher conductivity than skull bone. Cranial sutures can be localized quickly and precisely using a combination of MRI and readily available modeling software. Sutures should be included in tES computational modeling and electroencephalography source imaging to improve the accuracy of results.

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经颅电刺激应考虑颅缝的影响。

背景：计算建模用于优化经颅电刺激（tES）方法，这些模型的精度取决于它们的解剖精度。我们不知道有任何tES的计算模型包括颅缝。目的：本研究的目的是回顾关于闭合冠状和鳞状缝合线的时间的文献，这些缝合线位于tES中使用的电极放置下；回顾有关颅骨和缝线导电性差异的文献，并确定更准确的缝线导电性；并确定可用于检测颅缝的磁共振成像（MRI）技术。方法：对医学文献进行范围复习。我们利用COMSOL Multiphysics有限元软件，利用先前研究的方法和结果，对颅骨塞进行了计算建模。我们评估了在常规t1加权MRI扫描中使用“3D切片器”软件识别缝合线的情况。结果：法医检查和计算机断层扫描报告显示缝合线闭合与年龄无关。我们的计算模型确定颅骨缝合电导率为0.32 S/m，远高于颅骨（紧凑颅骨0.004 S/m，标准三层颅骨0.013 S/m）。3D切片机能够快速准确地识别颅骨缝合线的解剖结构和位置。结论：颅骨缝合线在整个生命周期中持续存在，其导电性远高于颅骨。使用MRI和现成的建模软件可以快速准确地定位颅骨缝合线。缝线应纳入tES计算建模和脑电图源成像，以提高结果的准确性。

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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来源期刊

Journal of Ect 医学-行为科学

CiteScore

3.70

自引率

20.00%

发文量

154

审稿时长

6-12 weeks

期刊介绍： The Journal of ECT covers all aspects of contemporary electroconvulsive therapy, reporting on major clinical and research developments worldwide. Leading clinicians and researchers examine the effects of induced seizures on behavior and on organ systems; review important research results on the mode of induction, occurrence, and propagation of seizures; and explore the difficult sociological, ethical, and legal issues concerning the use of ECT.