2020
DOI: 10.1016/j.jbiomech.2020.109764
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Experimental and numerical study on the performance of printed alginate/hyaluronic acid/halloysite nanotube/polyvinylidene fluoride bio-scaffolds

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Cited by 11 publications
(11 citation statements)
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“…Among these research studies, only seven papers focused on alginate hydrogel-based inks that contained clay; six of them referred to 3D composite constructs envisaged for tissue engineering. Thus, alginate was studied in combination with methylcellulose [ 17 , 26 ], PEGDA/gelatin [ 37 ], methylcellulose/polyvinylidene fluoride [ 38 ] or hyaluronic acid/polyvinylidene fluoride [ 39 ]. Four studies used disc-shaped, synthetic clay-Laponite [ 17 , 25 , 26 , 39 ], while two studies used halloysite nanotubes as the inorganic components embedded in the printing formulations [ 38 , 39 ].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Among these research studies, only seven papers focused on alginate hydrogel-based inks that contained clay; six of them referred to 3D composite constructs envisaged for tissue engineering. Thus, alginate was studied in combination with methylcellulose [ 17 , 26 ], PEGDA/gelatin [ 37 ], methylcellulose/polyvinylidene fluoride [ 38 ] or hyaluronic acid/polyvinylidene fluoride [ 39 ]. Four studies used disc-shaped, synthetic clay-Laponite [ 17 , 25 , 26 , 39 ], while two studies used halloysite nanotubes as the inorganic components embedded in the printing formulations [ 38 , 39 ].…”
Section: Introductionmentioning
confidence: 99%
“…Thus, alginate was studied in combination with methylcellulose [ 17 , 26 ], PEGDA/gelatin [ 37 ], methylcellulose/polyvinylidene fluoride [ 38 ] or hyaluronic acid/polyvinylidene fluoride [ 39 ]. Four studies used disc-shaped, synthetic clay-Laponite [ 17 , 25 , 26 , 39 ], while two studies used halloysite nanotubes as the inorganic components embedded in the printing formulations [ 38 , 39 ]. Only one study used natural clay, namely, Cloisite 20A, but the 3D-printed constructs were not used for developing scaffolds for tissue engineering but for removing heavy metal ions from wastewaters [ 40 ].…”
Section: Introductionmentioning
confidence: 99%
“…Within the last 5 years, several articles have been published that show that it is still of interest within scientific groups to research the blends of hyaluronic acid with other biopolymers [85,[94][95][96][97][98][99][100][101][102]. For example, new materials were prepared based on the mixtures of hyaluronic acid and carboxymethyl cellulose [94].…”
Section: Possible Application Of New Materials Based On the Blends Of Hyaluronic Acid With Other Natural Polymersmentioning
confidence: 99%
“…Ternary blends of silk fibroin, hyaluronic acid, and heparin were also studied for potential soft-tissue engineering [99]. A novel biomaterial made of alginate, hyaluronic acid, halloysite nanotube, and polyvinylidene fluoride has been proposed for printing cartilage scaffolds [100]. The hydrogel composed of hyaluronic acid and alginate as a potential bio-ink for 3D bioprinting of articular cartilage engineering constructs has been also proposed [101].…”
Section: Possible Application Of New Materials Based On the Blends Of Hyaluronic Acid With Other Natural Polymersmentioning
confidence: 99%
“…[ 25–30 ] More importantly, it is urged to pursue new 3D printing materials to promote the development of bio‐scaffolds in the tissue engineering field with sustainable and environmentally friendly substance. [ 31–36 ] In addition to the diversity of IL monomer itself, it also has the characteristics of cross‐linking with different compounds, thus enriching the types and function of PILs. [ 37 ] PILs have been used to prepare antibacterial membrane, but only few studies used PILs for preparation of bio‐scaffolds.…”
Section: Introductionmentioning
confidence: 99%