Synergistic integration of electrical stimulation, reactive oxygen species regulation, and pro-angiogenic for accelerated wound healing

Authors
Hwang, Hee JaeChoi, YunseokKim, SeongchanLee, Sun HeeChoi, Soon JinKwon, Hee-YoungKwon, DaehyeokPark, SoyeonLee, HyojinOk, Myoung-RyulKim, Yu-ChanPark, Bo-InHan, Hyung-Seop
Issue Date
2024-12
Publisher
Elsevier BV
Citation
Nano Energy, v.131
Abstract
Wound healing involves a complex series of coordinated events throughout the inflammatory, proliferative, and maturation phases of tissue repair. Current treatment modalities lack a device catering to all wound healing stages for tissue recovery, angiogenesis and epithelialization. Herein, we developed an integrated wound healing system with multiple functions of self-electrical stimulation (ES), reactive oxygen species (ROS) regulation, and bioactive metal-releasing patch (ERMP) to address all wound healing stages including hemostasis, inflammation, proliferation, and remodeling. The multiple functions of ERMP are ES, generated by the movement of the mice, for tissue regeneration, magnesium (Mg) ion release via iontophoresis triggered by ES for pro-angiogenic effects, and simultaneous regulation of ROS. This system employs self-generating ES utilizing the movements of the individuals to trigger triboelectric nanogenerators (TENGs), which consequently transfer ES through Mg microneedles while effectively delivering enhanced Mg ions with an iontophoresis via ES to the wound site. Specially, Prussian blue (PB) was utilized to not only enhance output performance on TENG as charge trap, but also regulate excessive ROS via modified PB with carbon-nitrogen vacancies in the wound site. The synergistic effects of ES, ROS regulation, and enhanced Mg ions releases led to a nine-fold recovery rates in wound healing compared to the control group in vivo tests. This approach addresses the inherent limitations of conventional wound healing methods and provides a viable treatment for various severe wound types.
Keywords
MAGNESIUM; MODEL; Integrated wound healing system; Self-electrical stimulation; Reactive oxygen species regulation; Magnesium microneedles; Prussian blue
ISSN
2211-2855
URI
https://pubs.kist.re.kr/handle/201004/150613
DOI
10.1016/j.nanoen.2024.110200
Appears in Collections:
KIST Article > 2024
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