Murine Skin Dosimetry Under Millimeter Wave Exposure

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE journal of microwaves Pub Date : 2024-01-05 DOI:10.1109/JMW.2023.3345133

Serafeim Iakovidis;Simona Leonardi;Emiliano Fratini;Simonetta Pazzaglia;Mariateresa Mancuso;Theodoros Samaras

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Abstract

The upper part of the frequency spectrum (millimeter waves, MMW) applied by modern communications technologies (5G and beyond), makes skin the dominantly exposed tissue to electromagnetic fields. In this work, a methodology for murine skin dosimetry evaluation is presented, intended to contribute to animal studies with mice exposed to MMW radiation, in particular 27.5 GHz. A stratified skin model is proposed and the variations of the skin layers’ thicknesses during a hair cycle are measured in mice. The variations of skin layers’ dielectric properties due to age, based on the changes of total body water, are also evaluated. The impact of these variations in dosimetric metrics (i.e., mean absorbed power density, APD, and power loss) within each layer is assessed and found to be significant. Changes in the skin layers’ thicknesses throughout a hair cycle considerably affect the APD, resulting in a two-fold increase, compared to changes in the dielectric properties due to aging or due to hair presence inside the skin.

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毫米波照射下的小鼠皮肤剂量测定

现代通信技术（5G 及以后）所应用的频谱（毫米波，MMW）的上半部分使皮肤成为暴露于电磁场的主要组织。在这项工作中，介绍了一种小鼠皮肤剂量测定评估方法，旨在为暴露于毫米波辐射（尤其是 27.5 GHz）的小鼠动物研究做出贡献。我们提出了一种分层皮肤模型，并测量了小鼠在毛发周期中皮肤层厚度的变化。此外，还根据小鼠体内总水分的变化，评估了皮肤层的介电性能随年龄的变化。评估了这些变化对每层皮肤内剂量测定指标（即平均吸收功率密度、APD 和功率损耗）的影响，发现这些影响是显著的。在整个毛发周期中，皮肤层厚度的变化对 APD 有很大影响，与老化或皮肤内毛发导致的介电特性变化相比，APD 增加了两倍。

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来源期刊

IEEE journal of microwaves

CiteScore

10.70

自引率

0.00%

发文量

审稿时长

8 weeks