曲线天线治疗阿尔茨海默病的数值模拟与计算机仿真,可行性研究。

Felipe P Perez, Maryam Rahmani, Jorge Morisaki, Farhan Amran, Syazwani Bakri, Akmal Halim, Alston Dsouza, Nurafifi Mohd Yusuff, Amran Farhan, James Maulucci, Maher Rizkalla
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引用次数: 0

摘要

阿尔茨海默病(AD)是一种脑部疾病,最终会导致记忆丧失和执行简单认知功能的能力;药物和其他医学治疗方面的研究对这种疾病的影响微乎其微。我们的初步生物学研究表明,重复电磁场刺激(REFMS)的EM频率为64 MHz,比吸收率(SAR)为0.4 - 0.9 W/kg,可降低淀粉样蛋白-β肽(a β)的水平,这是AD最可能的病因。该研究强调均匀的E/H场和SAR分布,并在低输入功率驱动下充分穿透穿透多个人体头部层,以进行安全处理。在这项工作中,我们对便携式弯曲线天线(MLA)进行了数值模拟和计算机模拟,以获得治疗AD所需的EMF参数。MLA设备具有成本低、体积小、带宽宽以及集成到便携式系统中的能力。本研究利用高频模拟系统(HFSS)设计了具有适合人类AD治疗所需特性的MLA。该团队设计了一个长60厘米、宽25厘米的24转天线,达到了所需的64mhz谐振频率。在这里,我们使用两个数字人头模型来测试天线,MIDA和球形头模型分别具有6和7个组织层。在模拟脑组织层中心,天线的输入源为50瓦,以获得0.6 W/kg的SAR要求。研究发现,产生的E/H场和SAR分布不均匀;在天线发射机附近存在高SAR值区域,在远离天线的地方也存在低SAR值区域。详细介绍了天线参数、散射参数响应、效率响应以及E场和H场分布;我们给出了计算机模拟结果,并讨论了实际模型的下一步工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Numerical Modeling and Computer Simulation of a Meander Line Antenna for Alzheimer's Disease Treatment, a Feasibility Study.

Numerical Modeling and Computer Simulation of a Meander Line Antenna for Alzheimer's Disease Treatment, a Feasibility Study.

Numerical Modeling and Computer Simulation of a Meander Line Antenna for Alzheimer's Disease Treatment, a Feasibility Study.

Numerical Modeling and Computer Simulation of a Meander Line Antenna for Alzheimer's Disease Treatment, a Feasibility Study.

Alzheimer's disease (AD) is a brain disorder that eventually causes memory loss and the ability to perform simple cognitive functions; research efforts within pharmaceuticals and other medical treatments have minimal impact on the disease. Our preliminary biological studies showed that Repeated Electromagnetic Field Stimulation (REFMS) applying an EM frequency of 64 MHz and a specific absorption rate (SAR) of 0.4 - 0.9 W/kg decrease the level of amyloid-β peptides (Aβ), which is the most likely etiology of AD. This study emphasizes uniform E/H field and SAR distribution with adequate penetration depth penetration through multiple human head layers driven with low input power for safety treatments. In this work, we performed numerical modeling and computer simulations of a portable Meander Line antenna (MLA) to achieve the required EMF parameters to treat AD. The MLA device features a low cost, small size, wide bandwidth, and the ability to integrate into a portable system. This study utilized a High-Frequency Simulation System (HFSS) in the design of the MLA with the desired characteristics suited for AD treatment in humans. The team designed a 24-turn antenna with a 60 cm length and 25 cm width and achieved the required resonant frequency of 64 MHz. Here we used two numerical human head phantoms to test the antenna, the MIDA and spherical head phantom with six and seven tissue layers, respectively. The antenna was fed from a 50-Watt input source to obtain the SAR of 0.6 W/kg requirement in the center of the simulated brain tissue layer. We found that the E/H field and SAR distribution produced was not homogeneous; there were areas of high SAR values close to the antenna transmitter, also areas of low SAR value far away from the antenna. This paper details the antenna parameters, the scattering parameters response, the efficiency response, and the E and H field distribution; we presented the computer simulation results and discussed future work for a practical model.

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