7 December 2013 Surface acoustic streaming in microfluidic system for rapid multicellular tumor spheroids generation
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Abstract
In this study, we developed a novel and rapid method to generate in vitro three-dimensional (3D) multicellular tumor spheroids using a surface acoustic wave (SAW) device. A SAW device with single-phase unidirectional transducer electrodes (SPUTD) on lithium niobate substrate was fabricated using standing UV photolithography and wet-etching techniques. To generate spheroids, the SAW device was loaded with medium containing human breast carcinoma (BT474) cells, an oscillating electrical signal at resonant frequency was supplied to the SPUDT to generate acoustic radiation in the medium. Spheroids with uniform size and shape can be obtained using this method in less than 1 minute, and the size of the spheroids can be controlled through adjusting the seeding density. The resulting spheroids were used for further cultivation and were monitored using an optical microscope in real time. The viability and actin organization of the spheroids were assessed using live/dead viability staining and actin cytoskeleton staining, respectively. Compared to spheroids generated using the liquid overlay method, the SAW generated spheroids exhibited higher circularity and higher viability. The F-actin filaments of spheroids appear to aggregate compared to that of untreated cells, indicating that mature spheroids can be obtained using this method. This spheroid generating method can be useful for a variety of biological studies and clinical applications.
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Layla AlHasan, Layla AlHasan, Aisha Qi, Aisha Qi, Aswan Al-Aboodi, Aswan Al-Aboodi, Amged Rezk, Amged Rezk, Richie R. Shilton, Richie R. Shilton, Peggy P. Y. Chan, Peggy P. Y. Chan, James Friend, James Friend, Leslie Yeo, Leslie Yeo, "Surface acoustic streaming in microfluidic system for rapid multicellular tumor spheroids generation", Proc. SPIE 8923, Micro/Nano Materials, Devices, and Systems, 89235C (7 December 2013); doi: 10.1117/12.2034050; https://doi.org/10.1117/12.2034050
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