Que Bai scite author profile

Diabetic wound shows delayed and incomplete healing processes, which in turn exposes patients to an environment with a high risk of infection. This article has summarized current developments of nanoparticles/hydrogels and nanotechnology used for promoting the wound healing process in either diabetic animal models or patients with diabetes mellitus. These nanoparticles/hydrogels promote diabetic wound healing by loading bioactive molecules (such as growth factors, genes, proteins/peptides, stem cells/exosomes, etc.) and nonbioactive substances (metal ions, oxygen, nitric oxide, etc.). Among them, smart hydrogels (a very promising method for loading many types of bioactive components) are currently favored by researchers. In addition, nanoparticles/hydrogels can be combined with some technology (including PTT, LBL self-assembly technique and 3D-printing technology) to treat diabetic wound repair. By reviewing the recent literatures, we also proposed new strategies for improving multifunctional treatment of diabetic wounds in the future.

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Gelatin-based adhesive hydrogel with self-healing, hemostasis, and electrical conductivity

Han

Bai

et al. 2021

International Journal of Biological Macromolecules

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The contribution of pore size and porosity of 3D printed porous titanium scaffolds to osteogenesis

Zhang

Sun

Zhu

et al. 2022

Biomaterials Advances

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Photocatalytic Ag/AgBr-MBG for Rapid Antibacterial and Wound Repair

Chen

Bai

et al. 2023

ACS Biomater. Sci. Eng.

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In daily life and during surgery, the skin, as the outermost organ of the human body, is easily damaged to form wounds. If the wound was infected by the bacteria, especially the drug-resistant bacteria such as methicillin-resistant staphylococcus aureus (MRSA), it was difficult to recover. Therefore, it was important to develop the safe antimicrobial strategy to inhibit bacterial growth in the wound site, in particular, to overcome the problem of bacterial drug resistance. Here, the Ag/AgBr-loaded mesoporous bioactive glass (Ag/AgBr-MBG) was prepared, which had excellent photocatalytic properties under simulated daylight for rapid antibacterial activity within 15 min by generating reactive oxygen species (ROS). Meanwhile, the killing rate of Ag/AgBr-MBG against MRSA was 99.19% within 15 min, which further reduced the generation of drug-resistant bacteria. In addition, Ag/ AgBr-MBG particles could disrupt bacterial cell membranes, showing the broad-spectrum antibacterial properties and promoting tissue regeneration and infected wound healing. Ag/AgBr-MBG particles might have potential applications as a light-driven antimicrobial agent in the field of biomaterials.

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Study on hemostatic effect and mechanism of starch-based nano-microporous particles

Zheng

Bai

et al. 2021

International Journal of Biological Macromolecules

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Smart microneedle patches for wound healing and management

Gao

Liu

et al. 2023

J. Mater. Chem. B

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Recent molecular design strategies for efficient photodynamic therapy and its synergistic therapy based on AIE photosensitizers

Liu

Chen²,

Zhang³

et al. 2022

European Journal of Medicinal Chemistry

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Chitosan and hyaluronic-based hydrogels could promote the infected wound healing

Bai

Gao

et al. 2023

International Journal of Biological Macromolecules

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Que Bai

<p>Potential Applications of Nanomaterials and Technology for Diabetic Wound Healing</p>

Gelatin-based adhesive hydrogel with self-healing, hemostasis, and electrical conductivity

The contribution of pore size and porosity of 3D printed porous titanium scaffolds to osteogenesis

Photocatalytic Ag/AgBr-MBG for Rapid Antibacterial and Wound Repair

Study on hemostatic effect and mechanism of starch-based nano-microporous particles

Smart microneedle patches for wound healing and management

Recent molecular design strategies for efficient photodynamic therapy and its synergistic therapy based on AIE photosensitizers

Chitosan and hyaluronic-based hydrogels could promote the infected wound healing

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