Sound-based assembly of three-dimensional cellularized and acellularized constructs
Publication date
2023-10
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Abstract
Herein we show an accessible technique based on Faraday waves that assist the rapid assembly of osteoinductive β-Tricalcium phosphate (β-TCP) particles as well as human osteoblast pre-assembled in spheroids. The hydrodynamic forces originating at ‘seabed’ of the assembly chamber can be used to tightly aggregate inorganic and biological entities at packing densities that resemble those of native tissues. Additionally, following a layer-by-layer assembly procedure, centimeter scaled osteoinductive three-dimensional and cellularized constructs have been fabricated. We showed that the intimate connection between biological building blocks is essential in engineering living system able of localized mineral deposition. Our results demonstrate, for the first time, the possibility to obtain three-dimensional cellularized and acellularized anisotropic constructs using Faraday waves.
Keywords
Acoustic, Biofabrication, Sound-based assembly, Biotechnology, Bioengineering, Biomaterials, Biomedical Engineering, Molecular Biology, Cell Biology
Citation
Tognato, R, Parolini, R, Jahangir, S, Ma, J, Florczak, S, Richards, R G, Levato, R, Alini, M & Serra, T 2023, 'Sound-based assembly of three-dimensional cellularized and acellularized constructs', Materials today bio, vol. 22, 100775. https://doi.org/10.1016/j.mtbio.2023.100775