Continuous Production of Acoustically Patterned Cells Within Hydrogel Fibers for Musculoskeletal Tissue Engineering
- Deshmukh, Dhananjay V.
- Reichert, Peter
- Zvick, Joel
- Labouesse, Celine
- Künzli, Valentin
- Dudaryeva, Oksana
- Bar-Nur, Ori
- Tibbitt, Mark
- Dual, Jürg
DOIAbstract
Many mammalian tissues have a specific cellular arrangement that enables their unique function. For example, parallel alignment of myofibers enables uniaxial muscle contraction. To engineer structured tissues ex vivo, it is critical to recapitulate this cellular arrangement. Conventional 3D encapsulation often fails to recapitulate this complexity, motivating the need for advanced patterning approaches. In this work, an acoustofluidic device to continuously pattern mammalian cells within hydrogel fibers is engineered. Contactless acoustofluidic forces are used to control the spacing between parallel lines of cells. To enable continuous extrusion of cell-laden hydrogel fibers, a low friction Teflon tube is integrated into the device. A photo...
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