2021
DOI: 10.3390/ma14133528
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Cartilage Tissue Engineering by Extrusion Bioprinting: Process Analysis, Risk Evaluation, and Mitigation Strategies

Abstract: Extrusion bioprinting is considered promising in cartilage tissue engineering since it allows the fabrication of complex, customized, and living constructs potentially suitable for clinical applications. However, clinical translation is often complicated by the variability and unknown/unsolved issues related to this technology. The aim of this study was to perform a risk analysis on a research process, consisting in the bioprinting of a stem cell-laden collagen bioink to fabricate constructs with cartilage-lik… Show more

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Cited by 9 publications
(6 citation statements)
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“…Cell viabilities are subjected to range of properties such as shear stress, rheological properties of bioink, needle gauge, shape of extrusion nozzle, and extrusion mechanism during extrusion bioprinting. In a recent study, chondrogenesis was impeded in extrusion based bioprinting system above a particular shear stress threshold with viscous hydrogels 50 . In this study, SilMA‐PEGDA based bioink was extruded through a nozzle, however; higher chondrocytes viability (>95%) was observed with preservation of chondrocytes phenotype and cartilage matrix deposition.…”
Section: Discussionmentioning
confidence: 81%
See 1 more Smart Citation
“…Cell viabilities are subjected to range of properties such as shear stress, rheological properties of bioink, needle gauge, shape of extrusion nozzle, and extrusion mechanism during extrusion bioprinting. In a recent study, chondrogenesis was impeded in extrusion based bioprinting system above a particular shear stress threshold with viscous hydrogels 50 . In this study, SilMA‐PEGDA based bioink was extruded through a nozzle, however; higher chondrocytes viability (>95%) was observed with preservation of chondrocytes phenotype and cartilage matrix deposition.…”
Section: Discussionmentioning
confidence: 81%
“…In a recent study, chondrogenesis was impeded in extrusion based bioprinting system above a particular shear stress threshold with viscous hydrogels. 50 In this study, SilMA-PEGDA based bioink was extruded through a nozzle, however; higher chondrocytes viability (>95%) was…”
Section: Immunohistochemical and Histological Evaluation Of Constructsmentioning
confidence: 90%
“…Therefore, by properly tuning the polymerization parameters, we can change the mechanical properties of the scaffolds. In addition, in the design of the pore size, the physical hydrogel long-term swelling behavior and the need for higher porosity values should be considered to guarantee proper nutrient transport properties during culture conditions [ 32 ].…”
Section: Discussionmentioning
confidence: 99%
“…Among all AM methods, extrusion-based techniques are the best option. This method, which drives biomaterial inks out of a nozzle by applying controlled pressure onto a stage, is considered a promising approach for cartilage tissue engineering applications owing to providing the fabrication of complex, customized, and living substrates with potentially proper aspects for clinical applications [20] [21]. In addition, using the liquid phase extrusion 3D printing method compared to melt extrusion methods did not damage the polymer structure and made it possible to print 4 polymer components.…”
Section: Introductionmentioning
confidence: 99%