使用 PVDF 传感器测量和分析不同介质中弹道冲击波治疗仪产生的脉冲源

IF 1.6 4区 医学 Q4 ENGINEERING, BIOMEDICAL
Fan Fan, Liansheng Xu, Qiong Wu, Fei Shen, Li Wang, Fengji Li, Yubo Fan, Haijun Niu
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引用次数: 0

摘要

目的径向体外冲击波疗法(rESWT)已被用于临床和康复领域。然而,由于对冲击波源的了解有限,制约了相关临床治疗方案的制定及其治疗功效的充分发挥。方法利用柔性聚偏二氟乙烯(PVDF)传感器测量 rESWT 设备在不同介质(软组织模拟象、水和空气)界面产生的冲击波。分析了冲击波源的时间和频谱特性。结果在相同的冲击压力下,幽灵界面产生的冲击波与水界面产生的冲击波相似,两者与空气界面产生的冲击波有很大不同,空气界面的峰值压力绝对值明显降低。在不同介质中产生的冲击波的频谱特性相似,具有不同的峰值频率,在幻影(12.2 kHz)、水(8.5 kHz)和空气(7.2 kHz)中的调制频率各不相同,而载波频率则相对恒定(介于 82 和 83 kHz 之间)。在不同的冲击压力下,同一介质界面的峰值频率没有变化,这表明冲击压力主要影响冲击波的振幅,而不是峰值频率。因此,在生物软组织中的测量结果不能简单地用在空气或水中的测量结果来代替。本研究的结果有望为评估 rESWT 设备和优化临床冲击波治疗方案提供重要信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Measurement and Analysis of Impulse Source Produced by Ballistic Shock Wave Therapy Device in Different Medium Using PVDF Sensor

Measurement and Analysis of Impulse Source Produced by Ballistic Shock Wave Therapy Device in Different Medium Using PVDF Sensor

Purpose

Radial extracorporeal shock wave therapy (rESWT) has been used in clinical and rehabilitation fields. However, the formulation of related clinical treatment protocols and the full potential of its therapeutic efficacy are constrained due to limited understanding of shock wave sources. This study aimed to further clarify the characteristics of shock wave sources generated at different medium interfaces.

Methods

Shock wave generated by rESWT device at the interface of different media (soft tissue-mimicking-phantom, water and air) was measured based on flexible polyvinylidene fluoride (PVDF) sensors. The temporal and spectral characteristics of the shock wave source were analyzed.

Results

The wave generated at the phantom interface was similar to that at the water interface under the same impact pressure, both being largely different from that at the air interface, where the absolute value of the peak pressure was significantly reduced. The spectral properties of the shock wave generated in different media were similar, with distinct peak frequencies, varying modulation frequencies in phantom (12.2 kHz), water (8.5 kHz), and air (7.2 kHz), and a relatively constant carrier frequency (between 82 and 83 kHz). Under the different impact pressures, there were no variations in the peak frequency at the same medium interface, indicating that the impact pressure mainly impacts the shock wave amplitude, but not the peak frequency.

Conclusion

The shock waves generated at different medium interfaces exhibited temporal and spectral differences. Therefore, measurement results in biological soft tissues cannot be simply replaced by the measurement results in air or water. The results of this study are expected to provide important information for evaluating rESWT devices and optimizing clinical shock wave treatment protocols.

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来源期刊
CiteScore
4.30
自引率
5.00%
发文量
81
审稿时长
3 months
期刊介绍: The purpose of Journal of Medical and Biological Engineering, JMBE, is committed to encouraging and providing the standard of biomedical engineering. The journal is devoted to publishing papers related to clinical engineering, biomedical signals, medical imaging, bio-informatics, tissue engineering, and so on. Other than the above articles, any contributions regarding hot issues and technological developments that help reach the purpose are also included.
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