骨质疏松症的微波诊断

I. Vendik, V. Pleskachev, V. Yakovlev, Svetlana Tamilova
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引用次数: 2

摘要

生物物体被认为是具有损耗的复杂介电结构。特别是,人体骨骼的介电特性取决于其状态(正常或患病)。骨质疏松症的特点是骨小梁结构恶化改变骨密度和介电常数。我们模拟了电磁波通过人体手腕的传播,将其视为由骨骼、肌肉、脂肪等组成的多层结构。腕骨的电磁特性影响电磁波的传播。本研究的目的是探讨波的传播特性与骨质疏松严重程度的关系,骨质疏松严重程度表现为手腕骨介电常数的变化,这可能有助于骨质疏松的诊断。对不同骨质疏松严重程度的全波腕关节模型模拟结果进行了介绍和讨论。
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Microwave diagnostics of osteoporosis
A biological object is considered as a complicated dielectric structure with losses. Particularly, the dielectric properties of human bones depend on their state (normal or diseased). Osteoporosis is characterized by a trabecular bone structure deterioration changing the bone density and dielectric permittivity. We modeled the electromagnetic (EM) wave propagation trough the human wrist considered as a multilayer structure comprising bone, muscle, fat etc. EM properties of the wrist bone affect the propagating EM wave. The aim of this study is to investigate the dependence of wave propagation characteristics on the osteoporosis severity, expressed as a change of dielectric permittivity of the wrist bone, which may be useful for osteoporosis diagnostic. Results of the full wave wrist model simulations with different degrees of the osteoporosis severity are presented and discussed.
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