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W4313379635 endingPage "653" @default.
W4313379635 startingPage "636" @default.
W4313379635 abstract "Polymer-based composite scaffolds are an attractive class of biomaterials due to their suitable physical and mechanical performance as well as appropriate biological properties. When such composites contain osteoinductive ceramic nanopowders, it is possible, in principle, to stimulate the seeded cells to differentiate into osteoblasts. However, reproducibly fabricating and developing an appropriate niche for cells' activities in three-dimensional (3D) scaffolds remains a challenge using conventional fabrication techniques. Additive manufacturing provides a new strategy for the fabrication of complex 3D structures. Here, an extrusion-based 3D printing method was used to fabricate the Alginate (Alg)/Tri-calcium silicate (C3S) bone scaffolds. To improve physical and biological attributes, scaffolds were coated with gelatin methacryloyl (GelMA), a biocompatible viscose hydrogel. Conducting a combination of experimental techniques and molecular dynamics simulations, it is found that the composition ratio of Alg/C3S governs intermolecular interactions among the polymer and ceramic, affecting the product performance. Investigating the effects of various C3S amounts in the bioinks, the 90/10 composition ratio of Alg/C3S is known as the optimum content in developed bioinks. Accordingly, the printability of high-viscosity inks is boosted by improved hierarchical interactions among assemblies, which in turn leads to better nanoscale alignment in extruded macroscopic filaments. Conducting multiple tests on specimens, the GelMA-coated Alg/C3S scaffolds (with a composition ratio of 90/10) were shown to have improved mechanical qualities and cell adhesion, spreading, proliferation, and osteogenic differentiation, compared to the bare scaffolds, making them better candidates for further future research. Overall, the in-silico and in vitro studies of GelMA-coated 3D-printed Alg/C3S scaffolds open new aspects for biomaterials aimed at the regeneration of large- and complicated-bone defects through modifying the extrusion-based 3D-printed constructs." @default.
W4313379635 created "2023-01-06" @default.
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W4313379635 date "2023-02-01" @default.
W4313379635 modified "2023-09-30" @default.
W4313379635 title "3D printing of complicated GelMA-coated Alginate/Tri-calcium silicate scaffold for accelerated bone regeneration" @default.
W4313379635 cites W1031578623 @default.
W4313379635 cites W1501844464 @default.
W4313379635 cites W1829740344 @default.
W4313379635 cites W1965842966 @default.
W4313379635 cites W1966431056 @default.
W4313379635 cites W1982457774 @default.
W4313379635 cites W1986418220 @default.
W4313379635 cites W1987190449 @default.
W4313379635 cites W1987251043 @default.
W4313379635 cites W1990199907 @default.
W4313379635 cites W1991889839 @default.
W4313379635 cites W2003006737 @default.
W4313379635 cites W2018593634 @default.
W4313379635 cites W2020179999 @default.
W4313379635 cites W2021520922 @default.
W4313379635 cites W2029814263 @default.
W4313379635 cites W2041897038 @default.
W4313379635 cites W2049475242 @default.
W4313379635 cites W2081693079 @default.
W4313379635 cites W2083832847 @default.
W4313379635 cites W2086699454 @default.
W4313379635 cites W2095361047 @default.
W4313379635 cites W2105958725 @default.
W4313379635 cites W2109197316 @default.
W4313379635 cites W2114099446 @default.
W4313379635 cites W2128572087 @default.
W4313379635 cites W2301845707 @default.
W4313379635 cites W2326819865 @default.
W4313379635 cites W2348348399 @default.
W4313379635 cites W2509454389 @default.
W4313379635 cites W2525041547 @default.
W4313379635 cites W2542686559 @default.
W4313379635 cites W2582524149 @default.
W4313379635 cites W2611648844 @default.
W4313379635 cites W2753718774 @default.
W4313379635 cites W2792840711 @default.
W4313379635 cites W2896088050 @default.
W4313379635 cites W2918526751 @default.
W4313379635 cites W2919076369 @default.
W4313379635 cites W2919393512 @default.
W4313379635 cites W2943185211 @default.
W4313379635 cites W2984077496 @default.
W4313379635 cites W3019545004 @default.
W4313379635 cites W3027698474 @default.
W4313379635 cites W3080745626 @default.
W4313379635 cites W3152841880 @default.
W4313379635 cites W3154915396 @default.
W4313379635 cites W3157353361 @default.
W4313379635 cites W3174809131 @default.
W4313379635 cites W3175388092 @default.
W4313379635 cites W3197595164 @default.
W4313379635 cites W3200387360 @default.
W4313379635 cites W3200418190 @default.
W4313379635 cites W3208370587 @default.
W4313379635 cites W3210267794 @default.
W4313379635 cites W3215550935 @default.
W4313379635 cites W4200265664 @default.
W4313379635 cites W4205175211 @default.
W4313379635 cites W4206703625 @default.
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W4313379635 cites W4220969860 @default.
W4313379635 cites W4223505291 @default.
W4313379635 cites W4281908431 @default.
W4313379635 cites W4285810199 @default.
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W4313379635 doi "https://doi.org/10.1016/j.ijbiomac.2022.12.267" @default.
W4313379635 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36586652" @default.
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