The Impact of Scalp's Temperature on the Choice of the Best Layout for TTFields Treatment

IF 5.6 4区 医学 Q1 ENGINEERING, BIOMEDICAL
Irbm Pub Date : 2023-06-01 DOI:10.1016/j.irbm.2023.100768
N. Gentilal , A. Naveh , T. Marciano , P.C. Miranda
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引用次数: 1

Abstract

Background and Objectives

Tumor Treating Fields (TTFields) is an FDA-approved technique used in the treatment of glioblastoma. It consists in applying an electric field (EF) with a frequency of 200 kHz using two pairs of transducer arrays. During treatment planning, the NovoTAL system is used to strategically place the arrays on the head in regions that maximize the EF at the tumor. Current should be injected at least 18 hours/day and induce a minimum EF of 1 V/cm at the tumor. To avoid any thermal harm to the patient, the temperature of the scalp is kept around 39.5 °C by changing the injected current. The goal of this study was to investigate how accounting for the temperature of the scalp during treatment planning might affect the choice of the best layout suggested by NovoTAL. Furthermore, we also studied the sensitivity of the results to the metric used to evaluate the layouts.

Methods

We used a realistic head model with a virtual glioblastoma in our studies. Through the NovoTAL system we obtained five realistic array layouts and we predicted the best one for our model based on the approach currently implemented in this system. We then repeated the same type of analysis, but also accounting for the temperature during planning. In both cases we ranked the layouts based on three different criteria: the LMiPD and the LAPD (local minimum and local average power densities, respectively) in the tumor and the SAR (specific absorption rate) in the head

Results

Accounting for the temperature does not significantly affect the choice of the best layout provided that the arrays are at least 1 cm apart from each other. Otherwise, a common temperature hotspot occurs in the scalp between the closest transducers of the adjacent arrays, which limits how much current can be injected and consequently treatment effectiveness. Also, the choice of the best layout depends on the criterion used.

Conclusions

Accounting for the temperature might led to significant variations in the current injected. The LMiPD might be used as a first criterion to choose the best treatment layout, followed by the LAPD and then the SAR.

Abstract Image

头皮温度对TTFields治疗最佳布局选择的影响
背景与目的肿瘤治疗场(TTFields)是fda批准的用于胶质母细胞瘤治疗的技术。它包括使用两对换能器阵列施加频率为200 kHz的电场(EF)。在治疗计划期间,NovoTAL系统被用于有策略地将阵列放置在头部肿瘤的最大EF区域。电流应注射至少18小时/天,并在肿瘤处诱导至少1 V/cm的EF。为了避免对患者造成热伤害,通过改变注射电流将头皮温度保持在39.5°C左右。本研究的目的是调查在治疗计划中考虑头皮温度如何影响NovoTAL建议的最佳布局的选择。此外,我们还研究了结果对用于评估布局的度量的敏感性。方法采用真实的头部模型和虚拟的胶质母细胞瘤。通过NovoTAL系统,我们得到了五种真实的阵列布局,并根据该系统目前实现的方法预测了我们模型的最佳布局。然后我们重复了相同类型的分析,但也考虑了计划期间的温度。在这两种情况下,我们根据三个不同的标准对布局进行排名:肿瘤中的LMiPD和LAPD(分别为局部最小和局部平均功率密度)和头部的SAR(比吸收率)。结果考虑温度不会显著影响最佳布局的选择,只要阵列彼此之间至少相距1cm。否则,在相邻阵列的最接近的换能器之间的头皮上会出现一个常见的温度热点,这限制了可以注入的电流的大小,从而限制了治疗效果。此外,最佳布局的选择取决于所使用的标准。结论考虑温度可能会导致注射电流的显著变化。LMiPD可作为选择最佳治疗方案的第一标准,其次是LAPD,最后是SAR。
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来源期刊
Irbm
Irbm ENGINEERING, BIOMEDICAL-
CiteScore
10.30
自引率
4.20%
发文量
81
审稿时长
57 days
期刊介绍: IRBM is the journal of the AGBM (Alliance for engineering in Biology an Medicine / Alliance pour le génie biologique et médical) and the SFGBM (BioMedical Engineering French Society / Société française de génie biologique médical) and the AFIB (French Association of Biomedical Engineers / Association française des ingénieurs biomédicaux). As a vehicle of information and knowledge in the field of biomedical technologies, IRBM is devoted to fundamental as well as clinical research. Biomedical engineering and use of new technologies are the cornerstones of IRBM, providing authors and users with the latest information. Its six issues per year propose reviews (state-of-the-art and current knowledge), original articles directed at fundamental research and articles focusing on biomedical engineering. All articles are submitted to peer reviewers acting as guarantors for IRBM''s scientific and medical content. The field covered by IRBM includes all the discipline of Biomedical engineering. Thereby, the type of papers published include those that cover the technological and methodological development in: -Physiological and Biological Signal processing (EEG, MEG, ECG…)- Medical Image processing- Biomechanics- Biomaterials- Medical Physics- Biophysics- Physiological and Biological Sensors- Information technologies in healthcare- Disability research- Computational physiology- …
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