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BRIDGE seeks to advance 3D bioprinting by integrating microfluidics for better control over cell and biomaterial density in human skeletal tissue models. This approach aims to replicate complex tissue structures and improve understanding of biological processes like mineralization.
BRIDGE (Bioprinting with Real-time Imaging and cell-biomaterial Density for Growth Enhancement) wants to elevate 3D bioprinting with an unprecedented microfluidic-assisted approach for developing human skeletal tissue models, addressing gaps in control of the biofabrication deposition process, specifically cell-biomaterial density generation.
Human tissues, such as bones, rely on graded cellular arrangements for physiological functions, yet mechanisms like mineralisation remain unclear due to in…
UNIVERSITA DEGLI STUDI DI ROMA LA SAPIENZA
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