声学透明氧化铝颅骨植入物通过机械-声学共振组合效应增强超声波传输能力

Mario Ibrahin Gutierrez, Pathikumar Sellappan, Elias H Penilla, Irais Poblete-Naredo, Arturo Vera, Lorenzo Leija and Javier E Garay
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摘要

近年来,用于脑部刺激的治疗性超声波越来越多。这种能量在治疗阿尔茨海默氏症、帕金森氏症和脑外伤等疾病方面取得了可喜的成果。然而,在大脑中应用超声波必须穿越天然但高度衰减和扭曲的屏障--颅骨。可植入陶瓷材料可用于替代部分颅骨,作为增强超声波传输的替代方法。这项研究介绍了氧化铝陶瓷盘的声学特性,这种陶瓷盘可用作颅骨植入物,作为通向大脑的声学窗口。氧化铝样品采用电流激活压力辅助致密化技术制备,并进行了声学表征。对不同孔隙率的样品的声阻抗和衰减进行了测定。此外,还展示了测量和建模的声场,并根据通过陶瓷传输的总超声波进行了分析。结果表明,当厚度与超声波的半波长相对应时,氧化铝盘会产生共振行为;这种共振允许总计 95.4% 的超声波传输;当厚度不在共振区内时,传输率为 53.0%。事实证明,氧化铝是一种极佳的超声波传输介质,结合其机械和光学特性,可用于混合光声应用中的颅骨置换。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Acoustically transparent alumina-based cranial implants enhance ultrasound transmission through a combined mechano-acoustic resonant effect
Therapeutic ultrasound for brain stimulation has increased in the last years. This energy has shown promising results for treating Alzheimer’s disease, Parkinson’s disease and traumatic brain injury, among other conditions. However, the application of ultrasound in the brain should trespass a natural but highly attenuating and distorting barrier, the cranium. Implantable ceramic materials can be used to replace part of the cranium as an alternate method to enhance ultrasound transmission. In this work, it is presented the acoustic characterization of alumina ceramic disks that can be employed as cranial implants for acoustic windows-to-the-brain. Alumina samples were prepared using current-activated pressure-assisted densification and were acoustically characterized. Acoustic impedance and attenuation of the samples were determined for different porosities. Additionally, measured and modeled acoustic fields are presented and analyzed in terms of the total ultrasound transmitted through the ceramics. Results indicate a resonant behavior in the alumina disks when the thickness corresponds to a half-wavelength of ultrasound; this resonance permits a total of 95.4% of ultrasound transmission; for thicknesses out of the resonant zone, transmission is 53.0%. Alumina proves to be an excellent medium for ultrasound transmission that, in conjunction with its mechanical and optical properties, can be useful for cranium replacement in mixed opto-acoustic applications.
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