Highly Stretchable, Adhesive, Biocompatible, and Antibacterial Hydrogel Dressings for Wound Healing
Yang Zifeng,Rongkang Huang,Bingna Zheng,Guo Wentai,Chuangkun Li,Wenyi He,Yingqi Wei,Yang Du,Huaiming Wang,Dingcai Wu,Hui Wang +10 more
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TLDR
In this paper, cationic polyelectrolyte brushes grafted from bacterial cellulose (BC) nanofibers are introduced into polydopamine/polyacrylamide hydrogels.Abstract:
Treatment of wounds in special areas is challenging due to inevitable movements and difficult fixation. Common cotton gauze suffers from incomplete joint surface coverage, confinement of joint movement, lack of antibacterial function, and frequent replacements. Hydrogels have been considered as good candidates for wound dressing because of their good flexibility and biocompatibility. Nevertheless, the adhesive, mechanical, and antibacterial properties of conventional hydrogels are not satisfactory. Herein, cationic polyelectrolyte brushes grafted from bacterial cellulose (BC) nanofibers are introduced into polydopamine/polyacrylamide hydrogels. The 1D polymer brushes have rigid BC backbones to enhance mechanical property of hydrogels, realizing high tensile strength (21-51 kPa), large tensile strain (899-1047%), and ideal compressive property. Positively charged quaternary ammonium groups of tethered polymer brushes provide long-lasting antibacterial property to hydrogels and promote crawling and proliferation of negatively charged epidermis cells. Moreover, the hydrogels are rich in catechol groups and capable of adhering to various surfaces, meeting adhesive demand of large movement for special areas. With the above merits, the hydrogels demonstrate less inflammatory response and faster healing speed for in vivo wound healing on rats. Therefore, the multifunctional hydrogels show stable covering, little displacement, long-lasting antibacteria, and fast wound healing, demonstrating promise in wound dressing.read more
Citations
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Breathable and Stretchable Dressings for Accelerating Healing of Infected Wounds
TL;DR: The TBT‐GNPs are composited with bacterial cellulose to form wound dressings which show excellent antimicrobial performance both in vitro and in vivo and are insightful for developing multifunctional dressings to satisfy the clinical requirements.
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Long-term antibacterial activity by synergistic release of biosafe lysozyme and chitosan from LBL-structured nanofibers
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Ultra-Sensitive and Ultra-Stretchable Strain Sensors Based on Emulsion Gels with Broad Operating Temperature
TL;DR: In this article, the introduction of glycerol endows emulsions and emulsion gels with high and low temperature resistance (-20 to 90°C) and fabricated strain sensors based on EMELGels show high sensitivity (gauge factor=6.240), high stretchability (1081 %), fatigue resistance, selfhealing and adhesion properties, realizing the repeatable and accurate detection of various human motions.
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Inspired by the Periodontium: A Universal Bacteria-Defensive Hydrogel for Preventing Percutaneous Device-Related Infection.
TL;DR: Inspired by the periodontium, a universal bacteria-defensive hydrogel adapting to the complicated interface is fabricated by introducing phenol-amine chemistry to a polymeric matrix of N-hydroxyethyl acrylamide (HPC hydrogels) as discussed by the authors .
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