2020
DOI: 10.3389/fchem.2020.00524
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Design and Synthesis of Chitosan—Gelatin Hybrid Hydrogels for 3D Printable in vitro Models

Abstract: The development of 3D printable hydrogels based on the crosslinking between chitosan and gelatin is proposed. Chitosan and gelatin were both functionalized with methyl furan groups. Chemical modification was performed by reductive amination with methyl furfural involving the lysine residues of gelatin and the amino groups of chitosan to generate hydrogels with tailored properties. The methyl furan residues present in both polymers were exploited for efficient crosslinking via Diels-Alder ligation with PEG-Star… Show more

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Cited by 46 publications
(33 citation statements)
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“…Type A gelatin from skin porcine and water-soluble chitosan were employed as starting biopolymers [ 41 , 42 , 43 , 44 ]. These biopolymers were previously investigated in our group for the development of 3D bioprintable GelChiDA hydrogels for 3D cell cultures and tissue engineering purposes [ 15 ]. Briefly, both gelatin and chitosan were functionalized with methylfuran (MF), exploiting, respectively, the amino group of lysine residues of gelatin and the amino group of chitosan by reductive amination.…”
Section: Resultsmentioning
confidence: 99%
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“…Type A gelatin from skin porcine and water-soluble chitosan were employed as starting biopolymers [ 41 , 42 , 43 , 44 ]. These biopolymers were previously investigated in our group for the development of 3D bioprintable GelChiDA hydrogels for 3D cell cultures and tissue engineering purposes [ 15 ]. Briefly, both gelatin and chitosan were functionalized with methylfuran (MF), exploiting, respectively, the amino group of lysine residues of gelatin and the amino group of chitosan by reductive amination.…”
Section: Resultsmentioning
confidence: 99%
“…Functionalization of Gelatin and Chitosan with methylfuran. Gelatin and chitosan were functionalized with methylfuran as already reported [ 15 ]. Briefly, both polymers were reacted with 5-methylfurfural and NaBH 3 CN performing a reductive amination.…”
Section: Methodsmentioning
confidence: 99%
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“…Appropriate materials should be carefully chosen for the desired purpose, since each material for the hydrogel bioink has intrinsic characteristics. Blended polymers have been used to complement the characteristics of each polymer material to improve printability and mechanical, physicochemical, and biological properties of the bioink [55]. In particular, photo-cross-linkable polymers (e.g., PEGDA (poly(ethylene glycol) diacrylate) and GELMA (gelatin methacrylate)) are broadly used as solidifiers, and contribute to the solidification of blended bioinks using UV light [56,57].…”
Section: Technologies For Bioinksmentioning
confidence: 99%
“…A hybrid hydrogel, based on gelatin and chitosan to mimic respectively proteic and polysaccharidic components of ECM, was developed and formulated with different methodologies, including 3D bioprinting, to generate 3D scaffolds. [ 42 ] Methyl furan functional groups was introduced on gelatin and chitosan backbones via reductive amination. The obtained methyl furan derivatives were employed in combination with star‐PEG‐maleimideto to fabricate 3D in vitro tumoral brain models.…”
Section: Diels–alder Applications In Nanomedicinementioning
confidence: 99%