Journal
PHARMACEUTICS
Volume 14, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/pharmaceutics14071490
Keywords
acoustic manipulation; acoustic tweezers; nanocarrier clusters
Categories
Funding
- Korea Health Technology R&D Project through the Korea Health Industry Development Institute (KHIDI) - Ministry of Health andWelfare, Korea [HI19C0642]
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Acoustic tweezers have unique capabilities in medical applications for contactless manipulation of small objects. This study presents a five-degree-of-freedom acoustic system that uses ultrasound transducers to control the position and orientation of nanocarrier clusters in water. The method employs phase modulation and switching power supply to achieve translation and rotation of the nanocarrier clusters.
Acoustic tweezers provide unique capabilities in medical applications, such as contactless manipulation of small objects (e.g., cells, compounds or living things), from nanometer-sized extracellular vesicles to centimeter-scale structures. Additionally, they are capable of being transmitted through the skin to trap and manipulate drug carriers in various media. However, these capabilities are hindered by the limitation of controllable degrees of freedom (DoFs) or are limited maneuverability. In this study, we explore the potential application of acoustical tweezers by presenting a five-DoF contactless manipulation acoustic system (AcoMan). The system has 30 ultrasound transducers (UTs) with single-side arrangement that generates active traveling waves to control the position and orientation of a fully untethered nanocarrier clusters (NCs) in a spherical workspace in water capable of three DoFs translation and two DoFs rotation. In this method, we use a phase modulation algorithm to independently control the phase signal for 30 UTs and manipulate the NCs' positions. Phase modulation and switching power supply for each UT are employed to rotate the NCs in the horizontal plane and control the amplitude of power supply to each UT to rotate the NCs in the vertical plane. The feasibility of the method is demonstrated by in vitro and ex vivo experiments using porcine ribs. A significant portion of this study could advance the therapeutic application such a system as targeted drug delivery.
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