In vitro human tissues via multi-material 3-D bioprinting.
DB Kolesky, KA Homan, M Skylar-Scott, JA Lewis - Alternatives to laboratory animals …, 2018
This paper highlights the foundational research on multi-material 3-D bioprinting of
human tissues, for which the Lewis Bioprinting team at Harvard University was
awarded the 2017 Lush Science Prize. The team's bioprinting platform enables the …
human tissues, for which the Lewis Bioprinting team at Harvard University was
awarded the 2017 Lush Science Prize. The team's bioprinting platform enables the …
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Three-dimensional Bioprinting for Bone and Cartilage Restoration in Orthopaedic Surgery
A Dhawan, PM Kennedy, EB Rizk, IT Ozbolat - … -Journal of the American Academy of …, 2018
Notable shortcomings exist in the currently available surgical options for
reconstruction of bone and articular cartilage defects. Three-dimensional (3D)
printing incorporating viable cells and extracellular matrix, or 3D bioprinting, is an …
reconstruction of bone and articular cartilage defects. Three-dimensional (3D)
printing incorporating viable cells and extracellular matrix, or 3D bioprinting, is an …
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COMMERCIALLY AVAILABLE MICROGELS FOR 3D BIOPRINTING
CS O'Bryan, T Bhattacharjee, SL Marshall, WG Sawyer… - Bioprinting, 2018
One of the major limitations in 3D bio-printing technology is the lack of materials
capable of providing stable mechanical support to extremely soft and delicate
structures; cells and biopolymers deform, disperse, and behave unpredictably …
capable of providing stable mechanical support to extremely soft and delicate
structures; cells and biopolymers deform, disperse, and behave unpredictably …
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