The assembly of cell-encapsulating microscale hydrogels using acoustic waves.

Abstract

Microscale hydrogels find widespread applications in medicine and biology, e.g., as building blocks for tissue engineering and regenerative medicine. In these applications, these microgels are assembled to fabricate large complex 3D constructs. The success of this approach requires non-destructive and high throughput assembly of the microgels. Although various assembly methods have been developed based on modifying interfaces, and using microfluidics, so far, none of the available assembly technologies have shown the ability to assemble microgels using non-invasive fields rapidly within seconds in an efficient way. Acoustics has been widely used in biomedical arena to manipulate droplets, cells and biomolecules. In this study, we developed a simple, non-invasive acoustic assembler for cell-encapsulating microgels with maintained cell viability (>93%). We assessed the assembler for both microbeads (with diameter of 50 μm and 100 μm) and microgels of different sizes and shapes (e.g., cubes, lock-and-key shapes, tetris, saw) in microdroplets (with volume of 10 μL, 20 μL, 40 μL, 80 μL). The microgels were assembled in seconds in a non-invasive manner. These results indicate that the developed acoustic approach could become an enabling biotechnology tool for tissue engineering, regenerative medicine, pharmacology studies and high throughput screening applications.

DOI: 10.1016/j.biomaterials.2011.07.010

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@article{Xu2011TheAO, title={The assembly of cell-encapsulating microscale hydrogels using acoustic waves.}, author={Feng Xu and Thomas Dylan Finley and Muge Turkaydin and Yuree Sung and Umut A. Gurkan and Ahmet Sinan Yavuz and Rasim Guldiken and Utkan Demirci}, journal={Biomaterials}, year={2011}, volume={32 31}, pages={7847-55} }