Andi Zhang
Ocean University of China
Composite numberSelf-healing hydrogelsBiophysicsCell migration3D cell cultureMatrix (biology)Regeneration (biology)NanotechnologyIntensive care medicineChemistryExtracellular matrixDecellularizationMaterials scienceMesenchymal stem cellRheologyInflammationBiocompatibilitySelf-healing3D bioprintingChitosanWound healingFibroblastPhysical traumaBiological propertyWound dressingDemand marketMechanical propertyBurn dressingWound managementBurn woundComputer scienceChemical engineeringTissue engineering3D printingMedicineParacrine signallingAdhesionCell adhesionMicrostructureCell biology
5Publications
2H-index
17Citations
Publications 5
Newest
#1Ying-Xia Yao (Ocean University of China)H-Index: 1
#2Andi Zhang (Ocean University of China)H-Index: 2
Last. Ya Liu (Ocean University of China)H-Index: 21
view all 5 authors...
Acute and chronic wounds can cause severe physical trauma to patients and also result in an immense socio-economic burden. Thus, wound management has attracted increasing attention in recent years. However, burn wound management is still a major challenge in wound management. Autografts are often considered the gold-standard for burn care, but their application is limited by many factors. Hence, ideal burn dressings and skin substitute dressings are desirable. With the development of biomaterial...
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#1Meiping Tian (Ocean University of China)H-Index: 6
#2Andi Zhang (Ocean University of China)H-Index: 2
Last. Ya Liu (Ocean University of China)H-Index: 21
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Abstract Hydrogels have gained great attentions as wound dressing. Binding to the tissue and preventing wound infection were the basic requirements for an “ideal dressing”. We employed L-DOPA and e-Poly-L-lysine to modify thermo-sensitive hydroxybutyl chitosan (HBC) to obtain (L-DOPA) - (e-Poly-L-lysine)-HBC hydrogels (eLHBC). The eLHBC exhibited an almost 1.5 fold (P
3 CitationsSource
#1Liu Yidan (Ocean University of China)H-Index: 1
#2Xin Luo (Ha Tai: Xiamen University)
Last. Ming Kong (Ocean University of China)H-Index: 27
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In situ 3D printing technologies is a new frontier for highly personalized medicine, which requires suitable bioink with rheology, biocompatibility, and gelation kinetics to support the right shape and mechanical properties of the printed construct. To this end, a facile design of thermo/photo dual cure composite hydrogel was proposed using MHBC and soluble collagen in this study. M/C composite hydrogel exhibited rapid thermo-induced sol-gel transition and contraction, tunable mechanical propert...
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#1Wei Wu (Ocean University of China)H-Index: 1
#2Zhongzheng Zhou (Ocean University of China)H-Index: 11
Last. Xiguang Chen (Ocean University of China)H-Index: 61
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Abstract As a framework for tissue engineering regeneration, the characteristics of cell scaffold materials directly affect cell adhesion, migration and metabolism. In this study, we have fabricated decellularized and decalcified fish scale-derived scaffolds and determined its basic physicochemical properties to serve as cell scaffolds in tissue engineering. Scanning electron microscopy (SEM) results showed that there were radial grooves and ring ridges on the surface of the scale-derived scaffo...
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#1Andi Zhang (Ocean University of China)H-Index: 2
#2Ya Liu (Ocean University of China)H-Index: 21
Last. Xiguang Chen (Ocean University of China)H-Index: 61
view all 6 authors...
Abstract Wound management has attracted significant interest in view of the broad demand market. Dressings are playing crucial roles in wounds management because they can protect the wound from external infection, and accelerate the healing process. Among the various available dressing materials, hydrogels have appealed increasing attention for their tunable chemical, physical and biological properties, and three-dimensional cross-linked polymer networks which can absorb and retain large amount ...
16 CitationsSource