Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair

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Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair Publisher Pubmed

Eskandarinia A¹ ; Gharakhloo M² ; Kermani PK³ ; Navid S⁴ ; Salami MA³ ; Khodabakhshi D³ ; Samadi A⁵

Show Affiliations

1. Pharmaceutical Sciences Research Center, Shiraz University of Medical Sciences, Shiraz, Iran
2. Faculty of Chemistry, Biological and Chemical Research Center, University of Warsaw, 101 Zwirki i Wigury Av., Warsaw, PL 02-089, Poland
3. Biomaterials Nanotechnology and Tissue Engineering Faculty, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
4. Core Research Facilities, Isfahan University of Medical Sciences, Isfahan, Iran
5. Department of Basic Sciences, School of Medicine, Bam University of Medical Sciences, Bam, Iran

Source: Carbohydrate Polymers Published:2023

Abstract

This study aimed to investigate the effect of the bilayer hydrogel as a wound dressing on the wound-healing rate. We synthesized a self-healing hydrogel with optimized formulation by introducing natural polymer (chitosan) and arginine to the hydrogel composition. We then characterized the hydrogels using FT-IR, thermal analysis, mechanical testing, and in vitro and in vivo assay. The resulting bilayer wound dressing offers a lot of desirable characteristics, including good self-healing and repeatable adhesiveness. Likewise, the conductive bilayer wound dressing could be used to analyze the patient's healthcare data in real-time as epidermal sensors. Bilayer wound dressings remarkably have broad antibacterial efficacy against Gram-positive and Gram-negative bacteria. The potential applications of this bilayer wound dressing are illustrated by detectable body movement and conductivity. The wound-healing rate of bilayer wound dressings containing chitosan and arginine was higher, but those without the aforementioned ingredients had lower wound-healing efficacy. Additionally, promoting collagen synthesis and reducing wound infection has a considerable therapeutic impact on wounds. These results could have significant implications for the development of high-performance wound dressings. © 2023

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Style	Citing Format
MLA	Eskandarinia A, et al.. "Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair." Carbohydrate Polymers, vol. 319, no. , 2023, pp. -.
APA	Eskandarinia A, Gharakhloo M, Kermani PK, Navid S, Salami MA, Khodabakhshi D, Samadi A (2023). Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair. Carbohydrate Polymers, 319(), -.
Chicago	Eskandarinia A, Gharakhloo M, Kermani PK, Navid S, Salami MA, Khodabakhshi D, Samadi A. "Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair." Carbohydrate Polymers 319, no. (2023): -.
Harvard	Eskandarinia A et al. (2023) 'Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair', Carbohydrate Polymers, 319(), pp. -.
Vancouver	Eskandarinia A, Gharakhloo M, Kermani PK, Navid S, Salami MA, Khodabakhshi D, et al.. Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair. Carbohydrate Polymers. 2023;319():-.
BibTex	@article{ author = {Eskandarinia A and Gharakhloo M and Kermani PK and Navid S and Salami MA and Khodabakhshi D and Samadi A}, title = {Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair}, journal = {Carbohydrate Polymers}, volume = {319}, number = {}, pages = {-}, year = {2023} }
RIS	TY - JOUR AU - Eskandarinia A AU - Gharakhloo M AU - Kermani PK AU - Navid S AU - Salami MA AU - Khodabakhshi D AU - Samadi A TI - Antibacterial Self-Healing Bilayer Dressing for Epidermal Sensors and Accelerate Wound Repair JO - Carbohydrate Polymers VL - 319 IS - SP - EP - PY - 2023 ER -

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