A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
3D Printing‐Based Hydrogel Dressings for Wound Healing
https://orcid.org/0000-0001-6164-4262
AbstractSkin wounds have become an important issue that affects human health and burdens global medical care. Hydrogel materials similar to the natural extracellular matrix (ECM) are one of the best candidates for ideal wound dressings and the most feasible choices for printing inks. Distinct from hydrogels made by traditional technologies, which lack bionic and mechanical properties, 3D printing can promptly and accurately create hydrogels with complex bioactive structures and the potential to promote tissue regeneration and wound healing. Herein, a comprehensive review of multi‐functional 3D printing‐based hydrogel dressings for wound healing is presented. The review first summarizes the 3D printing techniques for wound hydrogel dressings, including photo‐curing, extrusion, inkjet, and laser‐assisted 3D printing. Then, the properties and design approaches of a series of bioinks composed of natural, synthetic, and composite polymers for 3D printing wound hydrogel dressings are described. Thereafter, the application of multi‐functional 3D printing‐based hydrogel dressings in a variety of wound environments is discussed in depth, including hemostasis, anti‐inflammation, antibacterial, skin appendage regeneration, intelligent monitoring, and machine learning‐assisted therapy. Finally, the challenges and prospects of 3D printing‐based hydrogel dressings for wound healing are presented.
3D Printing‐Based Hydrogel Dressings for Wound Healing
https://orcid.org/0000-0001-6164-4262
AbstractSkin wounds have become an important issue that affects human health and burdens global medical care. Hydrogel materials similar to the natural extracellular matrix (ECM) are one of the best candidates for ideal wound dressings and the most feasible choices for printing inks. Distinct from hydrogels made by traditional technologies, which lack bionic and mechanical properties, 3D printing can promptly and accurately create hydrogels with complex bioactive structures and the potential to promote tissue regeneration and wound healing. Herein, a comprehensive review of multi‐functional 3D printing‐based hydrogel dressings for wound healing is presented. The review first summarizes the 3D printing techniques for wound hydrogel dressings, including photo‐curing, extrusion, inkjet, and laser‐assisted 3D printing. Then, the properties and design approaches of a series of bioinks composed of natural, synthetic, and composite polymers for 3D printing wound hydrogel dressings are described. Thereafter, the application of multi‐functional 3D printing‐based hydrogel dressings in a variety of wound environments is discussed in depth, including hemostasis, anti‐inflammation, antibacterial, skin appendage regeneration, intelligent monitoring, and machine learning‐assisted therapy. Finally, the challenges and prospects of 3D printing‐based hydrogel dressings for wound healing are presented.
3D Printing‐Based Hydrogel Dressings for Wound Healing
https://orcid.org/0000-0001-6164-4262
AbstractSkin wounds have become an important issue that affects human health and burdens global medical care. Hydrogel materials similar to the natural extracellular matrix (ECM) are one of the best candidates for ideal wound dressings and the most feasible choices for printing inks. Distinct from hydrogels made by traditional technologies, which lack bionic and mechanical properties, 3D printing can promptly and accurately create hydrogels with complex bioactive structures and the potential to promote tissue regeneration and wound healing. Herein, a comprehensive review of multi‐functional 3D printing‐based hydrogel dressings for wound healing is presented. The review first summarizes the 3D printing techniques for wound hydrogel dressings, including photo‐curing, extrusion, inkjet, and laser‐assisted 3D printing. Then, the properties and design approaches of a series of bioinks composed of natural, synthetic, and composite polymers for 3D printing wound hydrogel dressings are described. Thereafter, the application of multi‐functional 3D printing‐based hydrogel dressings in a variety of wound environments is discussed in depth, including hemostasis, anti‐inflammation, antibacterial, skin appendage regeneration, intelligent monitoring, and machine learning‐assisted therapy. Finally, the challenges and prospects of 3D printing‐based hydrogel dressings for wound healing are presented.
3D Printing‐Based Hydrogel Dressings for Wound Healing
Advanced Science
Zhou, Xuan (author) / Yu, Xunzhou (author) / You, Tingting (author) / Zhao, Baohua (author) / Dong, Lanlan (author) / Huang, Can (author) / Zhou, Xiaoqing (author) / Xing, Malcolm (author) / Qian, Wei (author) / Luo, Gaoxing (author)
Advanced Science ; 11
2024-12-01
Article (Journal)
Electronic Resource
English
Highly Stretchable, Adhesive, Biocompatible, and Antibacterial Hydrogel Dressings for Wound Healing
| Wiley | 2021
Stability Study of Novel Medicated Hydrogel Wound Dressings
| British Library Online Contents | 2013
| British Library Online Contents | 2019
Corrigendum to “Analysis of therapeutic effect of silver‐based dressings on chronic wound healing”
Wiley | 2024
Chitosan membrane dressings toughened by glycerol to load antibacterial drugs for wound healing
| British Library Online Contents | 2017