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  • A sequential 3D bioprinting and orthogonal bioconjugation approach for precision tissue engineering.

A sequential 3D bioprinting and orthogonal bioconjugation approach for precision tissue engineering.

Biomaterials (2020-08-18)
Claire Yu, Kathleen L Miller, Jacob Schimelman, Pengrui Wang, Wei Zhu, Xuanyi Ma, Min Tang, Shangting You, Deepak Lakshmipathy, Frank He, Shaochen Chen
ZUSAMMENFASSUNG

Recent advances in 3D bioprinting have transformed the tissue engineering landscape by enabling the controlled placement of cells, biomaterials, and bioactive agents for the biofabrication of living tissues and organs. However, the application of 3D bioprinting is limited by the availability of cytocompatible and printable biomaterials that recapitulate properties of native tissues. Here, we developed an integrated 3D projection bioprinting and orthogonal photoconjugation platform for precision tissue engineering of tailored microenvironments. By using a photoreactive thiol-ene gelatin bioink, soft hydrogels can be bioprinted into complex geometries and photopatterned with bioactive moieties in a rapid and scalable manner via digital light projection (DLP) technology. This enables localized modulation of biophysical properties such as stiffness and microarchitecture as well as precise control over spatial distribution and concentration of immobilized functional groups. As such, well-defined properties can be directly incorporated using a single platform to produce desired tissue-specific functions within bioprinted constructs. We demonstrated high viability of encapsulated endothelial cells and human cardiomyocytes using our dual process and fabricated tissue constructs functionalized with VEGF peptide mimics to induce guided endothelial cell growth for programmable vascularization. This work represents a pivotal step in engineering multifunctional constructs with unprecedented control, precision, and versatility for the rational design of biomimetic tissues.

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Deuteriumoxid, 99.9 atom % D
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Lithiumbromid, ReagentPlus®, ≥99%
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Gelatine aus Schweinehaut, gel strength 300, Type A
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N-Hydroxysulfosuccinimid Natriumsalz, ≥98% (HPLC)
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Collagenase aus Clostridium histolyticum, Type IA, 0.5-5.0 FALGPA units/mg solid, ≥125 CDU/mg solid, For general use
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N-(3-Dimethylaminopropyl)-N′-ethylcarbodiimid -hydrochlorid, commercial grade, powder
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cis-endo-Bicyclo[2.2.1]hept-5-en-2,3-dicarbonsäureanhydrid, 99%
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2,4,6-Trimethylbenzoylchlorid, 97%
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INVIVO-GEL VEGF bioink, suitable for 3D bioprinting applications