Multifunctional MXene-doped photothermal microneedles for drug-resistant bacteria-infected wound healing

Skin injuries and drug-resistant bacterial infections pose serious challenges to human health. It is essential to establish a novel multifunctional platform with good anti-infection and wound-healing abilities. In this study, a new MXene-doped composite microneedle (MN) patch with excellent mechanic...

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Published inBiomaterials science Vol. 12; no. 3; pp. 66 - 673
Main Authors Zhong, Yongjin, Lai, Yancheng, Feng, Zeru, Huang, Si, Fu, Yu, Huang, Lirong, Lan, Keng-fu, Mo, Anchun
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 30.01.2024
Subjects
Bacteria
Bacterial infections
Drug resistance
Infections
Injury prevention
MXenes
Nanomaterials
Near infrared radiation
Needles
Skin injuries
Skin resistance
Synergistic effect
Wound healing
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Abstract Skin injuries and drug-resistant bacterial infections pose serious challenges to human health. It is essential to establish a novel multifunctional platform with good anti-infection and wound-healing abilities. In this study, a new MXene-doped composite microneedle (MN) patch with excellent mechanical strength and photothermal antibacterial and ROS removal properties has been developed for infected wound healing. When the MN tips carrying the MXene nanosheets are inserted into the cuticle of the skin, they will quickly dissolve and subsequently release the nanomaterials into the subcutaneous infection area. Under 808 nm NIR irradiation, the MXene, as a "nano-thermal knife", sterilizes and inhibits bacterial growth through synergistic effects of sharp edges and photothermal antibacterial activity. Furthermore, ROS caused by injury and infection can be cleared by MXene-doped MNs to avoid excessive inflammatory responses. Based on the synergistic antibacterial and antioxidant strategy, the MXene-doped MNs have demonstrated excellent wound-healing properties in an MRSA-infected wound model, such as promoting re-epithelialization, collagen deposition, and angiogenesis and inhibiting the expression of pro-inflammatory factors. Therefore, the multifunctional MXene-doped MN patches provide an excellent alternative for clinical drug-resistant bacteria-infected wound management. Ti 3 C 2 MXene-reinforced MN patches with photothermal antibacterial properties and ROS elimination performance for accelerating drug-resistant bacteria-infected wound healing.
AbstractList Skin injuries and drug-resistant bacterial infections pose serious challenges to human health. It is essential to establish a novel multifunctional platform with good anti-infection and wound-healing abilities. In this study, a new MXene-doped composite microneedle (MN) patch with excellent mechanical strength and photothermal antibacterial and ROS removal properties has been developed for infected wound healing. When the MN tips carrying the MXene nanosheets are inserted into the cuticle of the skin, they will quickly dissolve and subsequently release the nanomaterials into the subcutaneous infection area. Under 808 nm NIR irradiation, the MXene, as a “nano-thermal knife”, sterilizes and inhibits bacterial growth through synergistic effects of sharp edges and photothermal antibacterial activity. Furthermore, ROS caused by injury and infection can be cleared by MXene-doped MNs to avoid excessive inflammatory responses. Based on the synergistic antibacterial and antioxidant strategy, the MXene-doped MNs have demonstrated excellent wound-healing properties in an MRSA-infected wound model, such as promoting re-epithelialization, collagen deposition, and angiogenesis and inhibiting the expression of pro-inflammatory factors. Therefore, the multifunctional MXene-doped MN patches provide an excellent alternative for clinical drug-resistant bacteria-infected wound management.
Skin injuries and drug-resistant bacterial infections pose serious challenges to human health. It is essential to establish a novel multifunctional platform with good anti-infection and wound-healing abilities. In this study, a new MXene-doped composite microneedle (MN) patch with excellent mechanical strength and photothermal antibacterial and ROS removal properties has been developed for infected wound healing. When the MN tips carrying the MXene nanosheets are inserted into the cuticle of the skin, they will quickly dissolve and subsequently release the nanomaterials into the subcutaneous infection area. Under 808 nm NIR irradiation, the MXene, as a "nano-thermal knife", sterilizes and inhibits bacterial growth through synergistic effects of sharp edges and photothermal antibacterial activity. Furthermore, ROS caused by injury and infection can be cleared by MXene-doped MNs to avoid excessive inflammatory responses. Based on the synergistic antibacterial and antioxidant strategy, the MXene-doped MNs have demonstrated excellent wound-healing properties in an MRSA-infected wound model, such as promoting re-epithelialization, collagen deposition, and angiogenesis and inhibiting the expression of pro-inflammatory factors. Therefore, the multifunctional MXene-doped MN patches provide an excellent alternative for clinical drug-resistant bacteria-infected wound management. Ti 3 C 2 MXene-reinforced MN patches with photothermal antibacterial properties and ROS elimination performance for accelerating drug-resistant bacteria-infected wound healing.
Author Feng, Zeru
Mo, Anchun
Zhong, Yongjin
Lai, Yancheng
Huang, Lirong
Fu, Yu
Lan, Keng-fu
Huang, Si
AuthorAffiliation State Key Laboratory of Oral Diseases & National Center for Stomatology & National Clinical Research Center for Oral Diseases & Department of Implantology
Sichuan University
School of Medicine
Sichuan Academy of Medical Sciences & Sichuan Provincial People's Hospital
West China Hospital of Stomatology
Department of Stomatology
University of Electronic Science and Technology of China
AuthorAffiliation_xml – name: Department of Stomatology
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CitedBy_id crossref_primary_10_1016_j_ijpharm_2024_124247
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Snippet Skin injuries and drug-resistant bacterial infections pose serious challenges to human health. It is essential to establish a novel multifunctional platform...
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StartPage 66
SubjectTerms Bacteria
Bacterial infections
Drug resistance
Infections
Injury prevention
MXenes
Nanomaterials
Near infrared radiation
Needles
Skin injuries
Skin resistance
Synergistic effect
Wound healing
Title Multifunctional MXene-doped photothermal microneedles for drug-resistant bacteria-infected wound healing
URI https://www.ncbi.nlm.nih.gov/pubmed/38063374
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