Steerable ultrasonic propulsion of rigid objects based on circular pressure modulation of a focused sectorial transducer array

IF 3.8 2区 物理与天体物理 Q1 ACOUSTICS Ultrasonics Pub Date : 2024-09-14 DOI:10.1016/j.ultras.2024.107475
Wenyi Li , Tingzhen Feng , Tinghui Meng , Gepu Guo , Juan Tu , Dong Zhang , Qingyu Ma
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Abstract

As a common disease of human urinary system, the high prevalence and incidence rate of renal calculus have brought heavy burden to society. Traditional ultrasonic lithotripsy struggles with the comprehensive elimination of residual fragments and may inadvertently inflict renal damage. Although focused ultrasound can propel stones by the acoustic radiation force (ARF) with minimal tissue damage and enhanced passage rate, it is still lack of the accurate control for calculi at different locations. A circular pressure modulation approach for steerable ultrasonic propulsion of rigid objects is developed based on a sector-array of focused transducers. The ARF exerted on on-axis rigid spheres (stones) is derived based on acoustic scattering. It is proved that the ARF of focused fields exhibits an axial distribution of increasing followed by decreasing with the peak slightly beyond the focus. As the sphere radius increases, the ARF exerted on spheres at the focus increases accordingly with a decreasing growth rate. Inclined propulsion can be realized by the circular binary pressure modulation with the deflection increased by expanding the angle of power-off sector sources. The maximum deflection angle approaching 60° is determined by the F-number and element number of the sector-array. Experimental propulsions of steel balls are conducted using an 8-element sector-array with motion trajectories captured by a high-speed camera. Distributions of the motion speed and acceleration for steel balls of different radii are calculated through image processing. The ARF of mN level and the deflection angle of 12° are demonstrated by the successful propulsion of steel balls. This research provides an effective and flexible approach of steerable stone propulsion using an ultrasonic power supply without the complex control in amplitude or phase and the high-precision motion of the sector-array, hence promoting the practical application in non-invasive treatment of stones.

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基于聚焦扇形换能器阵列的环形压力调制的刚性物体可转向超声波推进器
作为人类泌尿系统的常见疾病,肾结石的高患病率和发病率给社会带来了沉重的负担。传统的超声波碎石难以全面清除残留碎石,并可能在不经意间对肾脏造成损伤。虽然聚焦超声能通过声辐射力(ARF)推动结石,对组织损伤小,通过率高,但仍缺乏对不同位置结石的精确控制。基于聚焦换能器的扇形阵列,我们开发了一种用于刚性物体可转向超声波推进的环形压力调制方法。根据声散射推导出施加在轴向刚性球体(石头)上的 ARF。研究证明,聚焦场的 ARF 呈先增后减的轴向分布,峰值略高于焦点。随着球体半径的增加,焦点处施加在球体上的 ARF 也会相应增加,但增长率会降低。倾斜推进可以通过圆形二元压力调制来实现,通过扩大断电扇形源的角度来增加偏转。接近 60° 的最大偏转角由扇形阵列的 F 数和元素数决定。使用 8 元扇形阵列进行了钢球推进实验,高速摄像机捕捉了运动轨迹。通过图像处理计算了不同半径钢球的运动速度和加速度分布。通过成功推进钢球,证明了 mN 级的 ARF 和 12° 的偏转角。这项研究提供了一种有效而灵活的方法,即利用超声波电源进行可转向的结石推进,而无需复杂的振幅或相位控制以及扇形阵列的高精度运动,从而促进了结石无创治疗的实际应用。
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来源期刊
Ultrasonics
Ultrasonics 医学-核医学
CiteScore
7.60
自引率
19.00%
发文量
186
审稿时长
3.9 months
期刊介绍: Ultrasonics is the only internationally established journal which covers the entire field of ultrasound research and technology and all its many applications. Ultrasonics contains a variety of sections to keep readers fully informed and up-to-date on the whole spectrum of research and development throughout the world. Ultrasonics publishes papers of exceptional quality and of relevance to both academia and industry. Manuscripts in which ultrasonics is a central issue and not simply an incidental tool or minor issue, are welcomed. As well as top quality original research papers and review articles by world renowned experts, Ultrasonics also regularly features short communications, a calendar of forthcoming events and special issues dedicated to topical subjects.
期刊最新文献
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