Mechanobiology in Stem Cell-Based Bioprinting. [PDF]
Cell ProlifDing S, Liu T, Yao R.
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Nano-Based 3D Printed Scaffold for Bone Tissue Engineering. [PDF]
Bioengineering (Basel)Shi X, Liu K, Li W, Zhao R, Wang W.
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A toolbox for microvalve-based bioprinting. [PDF]
BiofabricationDerman ID +6 more
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Advances and Challenges in 3D Bioprinting of Cartilage Organoids: From Material Innovation to Functional Regeneration. [PDF]
Int J NanomedicineHan Z, Huang J, Qiu X.
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Dual-Stage Crosslinking of Gelatin-Alginate Bioink Supplemented with Wharton's Jelly to Generate 3D Bioprinted Scaffolds for Wound Healing Application. [PDF]
Polymers (Basel)Phan NTH +3 more
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High-yield cell-derived extracellular matrix bioink via macromolecular crowding for versatile 3D bioprinting. [PDF]
Mater Today BioUtami SS +9 more
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3D-Printed Mucoadhesive Hydrogel Buccal Films Based on HPMC and Carbopol Bioinks Incorporating Cyclodextrin-Cannabinoid Complexes and Terpenes. [PDF]
GelsNagaraj A, Seyfoddin A.
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Prospects and Limitations of Bioprinting in Studying Human Cells' Responses to Extreme Environments. [PDF]
Bioengineering (Basel)Rahman TT, Pei Z, Qin H, Parsaei HR.
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Bioink characterisation results
D2.2. Bioinks physical, chemical and biological characterisation results (M18) (CELLINK, SEQ, NUI, INL, i3S, EVCYT). This deliverable relates to the second subtask of the Task T2.1 comprising results of characterized properties of the bioinks, relevant for bioprinting (flowability, construct rigidisation, viscosity, shear properties, nozzle ...
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Integrating 3D bioprinting and neural stem cell therapy for central nervous system repair: implications for regenerative neurosurgery. [PDF]
Front Bioeng BiotechnolGuo Y, Dong X, Liu M, Liu D, Wang J.
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