Sijie Yuan scite author profile

Hydrogel is a new class of functional polymer materials with a promising potential in the biomedical field. The purpose of this article is to review recent advancements in several types of biomedical hydrogels, including conductive hydrogels, injectable hydrogels, double network hydrogels, responsive hydrogels, nanocomposite hydrogels, and sliding hydrogels. In comparison with traditional hydrogels, these advanced hydrogels exhibit significant advantages in structure, mechanical properties, and applications. The article focuses on different methods used to prepare advanced biomedical hydrogels and their diversified applications as drug delivery systems, wound dressings, biosensors, contact lenses, and tissue replacement. These advances are rapidly overcoming current limitations of hydrogels, and we anticipate that further research will lead to the development of advanced hydrogels with ubiquitous roles in biomedicine and tissue replacement and regeneration.

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Polysaccharide from flammuliana velutipes improves colitis via regulation of colonic microbial dysbiosis and inflammatory responses

Zhang

Yuan

et al. 2020

International Journal of Biological Macromolecules

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Bacteroides vulgatus diminishes colonic microbiota dysbiosis ameliorating lumbar bone loss in ovariectomized mice

Yuan

Shen

2021

Bone

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A Composite Hydrogel Based on Pectin/Cellulose via Chemical Cross-Linking for Hemorrhage

Chen

Yuan

Shen

et al. 2021

Front. Bioeng. Biotechnol.

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Hydrogel-based material have been demonstrated promising potential for hemostasis. Herein, we prepared a composite hydrogel (CH-P 40%) by combining pectin and cellulose in ionic liquid. The superficial morphology of the CH-P 40% was explored by SEM; the internal chemical bonds, crystal form and thermal stability were determined via FTIR, XRD and thermogravimetric analysis, respectively. The biocompatibilities of the CH-P 40% hydrogel was evaluated by MTT, flow cytometry, and histological observation with H&E staining. Furthermore, the hemostatic effect was evaluated via the blood clotting index and mouse liver hemostatic model. The results showed that the CH-P 40% hydrogel exhibited a dense network structure and retained its chemical bonds, including the OH, CH, C=O, -CH2, CO, C1-H, and β-glycosidic bonds. Simultaneously, the hydrogel retained the Cellulose I and II crystal structure and favorable thermal stability. Moreover, the proliferation rates of CH-P 40%-treated cells increased (P > 0.05), and there were no pathological lesions in the mouse organs, which suggests favorable biocompatibility. The results showed less bleeding in the hydrogel-treated liver wound within 3 min. Overall, the pectin-cellulose hydrogel is stable and possesses favorable biocompatibility and hemostatic ability, further highlighting that the composite hydrogel has the potential to be rapid hemostatic biomedical material.

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Preparation and characterization of cellulose/flaxseed gum composite hydrogel and its hemostatic and wound healing functions evaluation

et al. 2020

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Sijie Yuan

Functional Hydrogels and Their Application in Drug Delivery, Biosensors, and Tissue Engineering

Polysaccharide from flammuliana velutipes improves colitis via regulation of colonic microbial dysbiosis and inflammatory responses

Bacteroides vulgatus diminishes colonic microbiota dysbiosis ameliorating lumbar bone loss in ovariectomized mice

A Composite Hydrogel Based on Pectin/Cellulose via Chemical Cross-Linking for Hemorrhage

Preparation and characterization of cellulose/flaxseed gum composite hydrogel and its hemostatic and wound healing functions evaluation

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