Litcius/Paper detail

An Integrated Therapeutic and Preventive Nanozyme‐Based Microneedle for Biofilm‐Infected Diabetic Wound Healing

Caixia Sun, Xinyu Zhou, Cong Liu, Shuyue Deng, Yuhan Song, Jun Yang, Jianjun Dai, Yanmin Ju

2023Advanced Healthcare Materials53 citationsDOIOpen Access PDF

Abstract

Abstract The healing of biofilm‐infected diabetic wounds characterized by a deteriorative tissue microenvironment represents a substantial clinical challenge. Current treatments remain unsatisfactory due to the limited antibiofilm efficacy caused by weak tissue and biofilm permeability of drugs and the risk of reinfection during the healing process. To address these issues, an integrated therapeutic and preventive nanozyme‐based microneedle (denoted as Fe 2 C/GOx@MNs) is engineered. The dissolvable tips with enough mechanical strength can deliver and rapidly release Fe 2 C nanoparticles (NPs)/glucose oxidase (GOx) in the biofilm active regions, enhancing tissue and biofilm permeability of Fe 2 C NPs/GOx, ultimately achieving highly efficient biofilm elimination. Meanwhile, the chitosan backing layer can not only act as an excellent physical barrier between the wound bed and the external environment, but also prevent the bacterial reinvasion during wound healing with its superior antibacterial property. Significantly, the biofilm elimination and reinfection prevention abilities of Fe 2 C/GOx@MNs on wound healing are proved on methicillin‐resistant Staphylococcus aureus ‐biofilm‐infected diabetic mouse model with full‐thickness wound. Together, these results demonstrate the promising clinical application of Fe 2 C/GOx@MNs in biofilm‐infected wound healing.

Topics & Concepts

Wound healingBiofilmMedicineTissue repairWound treatmentBiomedical engineeringSurgeryBiologyBacteriaGeneticsAdvancements in Transdermal Drug DeliveryAdvanced Drug Delivery SystemsWound Healing and Treatments