2018
DOI: 10.1016/j.ijbiomac.2018.05.102
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Chitin/silk fibroin/TiO2 bio-nanocomposite as a biocompatible wound dressing bandage with strong antimicrobial activity

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Cited by 128 publications
(55 citation statements)
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“…Alternatively, chitin itself, which has a high tensile strength and modulus, can be used to reinforce chitosan, with both chitin nanofibers [132] and nanocrystals [3] improving the tensile strength of chitosan-based wound dressings. Combinations of chitin and silk fibroin are also popular in wound-dressing research [138][139][140], as are combinations of chitosan and sodium alginate, which has hemostatic and gel-forming properties, keeping the wound moist and preventing fiber entrapment during removal [141,142]. Use of these fibrous nanomaterials in wound dressings not only improves tensile strength, but also typically increases surface area, improving fibroblast attachment and spreading [143], without significantly affecting biocompatibility or barrier properties [3,124].…”
Section: Chitin and Chitosan Nanocomposite Architectures As Wound Drementioning
confidence: 99%
“…Alternatively, chitin itself, which has a high tensile strength and modulus, can be used to reinforce chitosan, with both chitin nanofibers [132] and nanocrystals [3] improving the tensile strength of chitosan-based wound dressings. Combinations of chitin and silk fibroin are also popular in wound-dressing research [138][139][140], as are combinations of chitosan and sodium alginate, which has hemostatic and gel-forming properties, keeping the wound moist and preventing fiber entrapment during removal [141,142]. Use of these fibrous nanomaterials in wound dressings not only improves tensile strength, but also typically increases surface area, improving fibroblast attachment and spreading [143], without significantly affecting biocompatibility or barrier properties [3,124].…”
Section: Chitin and Chitosan Nanocomposite Architectures As Wound Drementioning
confidence: 99%
“…[22,23] The ligands were designated by L1, L2, L3, L4 and L5 and the complexes by C1, C2, C3, C4 and C5. Antioxidant assessment was performed through the total phenolic content method.…”
Section: Biochemical Applicationsmentioning
confidence: 99%
“…CS's biocompatibility, biodegradability, hemostatic properties, tissue regeneration acceleration, and antibacterial properties make it as a top candidate for biomedical applications including tissue engineering, wound healing and drug delivery systems . However, the bioactivity of CS is weak and hence biologically active materials like collagen or GEL are added to overcome this problem GEL with Arg–Gly–Asp (RGD)‐like sequence, encourages cell adhesion and migration Since at physiological pH, which is almost neutral, the antibacterial activity of CS is very low antibacterial agents should be added to improve the antibacterial properties of CS in pH 7.4 . It had been shown that, zinc oxide nanoparticles with a size scale of smaller than 100 nm and at the appropriate concentration have powerful antibacterial activity without adverse effect on normal cells .…”
Section: Introductionmentioning
confidence: 99%