In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity

In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity

Abstract Preventing wound infection and retaining an appropriate level of moisture around wounds represent the most critical issues in wound treatment. Towards these ends, special focus has been placed on Bombyx mori cocoons because the protective function of the silkworm cocoon resembles the manner...

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Main Authors: Kun Yu, Fei Lu, Qing Li, Honglei Chen, Bitao Lu, Jiawei Liu, Zhiquan Li, Fangying Dai, Dayang Wu, Guangqian Lan
Format: Article
Language:English
Published: Nature Publishing Group 2017-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-02270-6
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spelling doaj-f7685a81cbc1466bbc1e9c60a9a53ab72020-12-08T00:00:06ZengNature Publishing GroupScientific Reports2045-23222017-05-017111310.1038/s41598-017-02270-6In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activityKun Yu0Fei Lu1Qing Li2Honglei Chen3Bitao Lu4Jiawei Liu5Zhiquan Li6Fangying Dai7Dayang Wu8Guangqian Lan9College of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityThe Ninth People’s Hospital of ChongqingCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityCollege of Textile and Garments, Southwest UniversityAbstract Preventing wound infection and retaining an appropriate level of moisture around wounds represent the most critical issues in wound treatment. Towards these ends, special focus has been placed on Bombyx mori cocoons because the protective function of the silkworm cocoon resembles the manner in which the skin protects the human body. We have designed a facile technique to develop a novel silkworm cocoon-based wound film (SCWF) wound dressing utilizing a CaCl2-ethanol-H2O solution. To improve the anti-bacterial performance of SCWF, we have incorporated the ability of silk sericin to act as a reducing agent for the conversion of Ag+ to Ag, yielding nanoparticles (AgNPs) linked together by peptide bonds of silkworm cocoon wound film (SCWF-AgNPs). SCWF-AgNP dressing exhibited excellent biocompatibility, anti-bacterial performance, and good extensibility. Furthermore, in vivo experiments indicated that SCWF-AgNP dressing was able to significantly accelerate the healing rate of infected wounds in New Zealand White rabbits and histological examination revealed that it aided in the successful reconstruction of intact and thickened epidermis during 14 days of healing of impaired wound tissue. These results demonstrate that the present approach might shed new light on the design of anti-bacterial materials such as SCWF-AgNPs with promising applications in wound dressing.https://doi.org/10.1038/s41598-017-02270-6
collection DOAJ
language English
format Article
sources DOAJ
author Kun Yu
Fei Lu
Qing Li
Honglei Chen
Bitao Lu
Jiawei Liu
Zhiquan Li
Fangying Dai
Dayang Wu
Guangqian Lan
spellingShingle Kun Yu
Fei Lu
Qing Li
Honglei Chen
Bitao Lu
Jiawei Liu
Zhiquan Li
Fangying Dai
Dayang Wu
Guangqian Lan
In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
Scientific Reports
author_facet Kun Yu
Fei Lu
Qing Li
Honglei Chen
Bitao Lu
Jiawei Liu
Zhiquan Li
Fangying Dai
Dayang Wu
Guangqian Lan
author_sort Kun Yu
title In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
title_short In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
title_full In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
title_fullStr In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
title_full_unstemmed In situ assembly of Ag nanoparticles (AgNPs) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
title_sort in situ assembly of ag nanoparticles (agnps) on porous silkworm cocoon-based wound film: enhanced antimicrobial and wound healing activity
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-05-01
description Abstract Preventing wound infection and retaining an appropriate level of moisture around wounds represent the most critical issues in wound treatment. Towards these ends, special focus has been placed on Bombyx mori cocoons because the protective function of the silkworm cocoon resembles the manner in which the skin protects the human body. We have designed a facile technique to develop a novel silkworm cocoon-based wound film (SCWF) wound dressing utilizing a CaCl2-ethanol-H2O solution. To improve the anti-bacterial performance of SCWF, we have incorporated the ability of silk sericin to act as a reducing agent for the conversion of Ag+ to Ag, yielding nanoparticles (AgNPs) linked together by peptide bonds of silkworm cocoon wound film (SCWF-AgNPs). SCWF-AgNP dressing exhibited excellent biocompatibility, anti-bacterial performance, and good extensibility. Furthermore, in vivo experiments indicated that SCWF-AgNP dressing was able to significantly accelerate the healing rate of infected wounds in New Zealand White rabbits and histological examination revealed that it aided in the successful reconstruction of intact and thickened epidermis during 14 days of healing of impaired wound tissue. These results demonstrate that the present approach might shed new light on the design of anti-bacterial materials such as SCWF-AgNPs with promising applications in wound dressing.
url https://doi.org/10.1038/s41598-017-02270-6
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