Jiang Yan scite author profile

A thermosensitive polymer can be held liquid before being injected to deliver living cells or therapeutic agents and formed monolithic gels when injected in vivo. In this study, chitosan-based thermosensitive hydrogels were prepared, characterized and the biocompatibility for culturing mice bone mesenchymal stem cells (BMSC) on 2D films and within 3D hydrogel were investigated. The gelation temperature and biocompatibility could be modulated by addition hydroxyethyl cellulose (HEC) to chitosan-glycerophosphate (CH-GP) formulation. The CH-GP-HEC liquid solution can turn into gel at body temperature and has highly compatible with BMSC. Therefore, the CH-GP-HEC gel could be used as an attractive injected in-situ forming scaffold for future applications of delivering biologically active therapeutics for tissue engineering filed.

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SIMULATION OF INTEGRATED SURFACE WATER AND GROUND WATER SYSTEMS ‐ MODEL FORMULATION¹

Yan¹,

Smith

1994

J American Water Resour Assoc

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The unique characteristics of the hydrogeologic system of south Florida (flat topography,sandy soils, high water table, and highly developed canal system) cause significant interactions between ground water and surface water systems. Interaction processes involve infiltration, evapotranspiration (ET), runoff, and exchange of flow (seepage) between streams and aquifers. These interaction processes cannot be accurately simulated by either a surface water model or a ground water model alone because surface water models generally oversimplify ground water movement and ground water models generally oversimplify surface water movement. Estimates of the many components of flow between surface water and ground water (such as recharge and ET) made by the two types of models are often inconsistent. The inconsistencies are the result of differences in the calibration components and the model structures, and can affect the confidence level of the model application. In order to improve model results, a framework for developing a model which integrates a surface water model and a ground water model is presented. Dade County, Florida, is used as an example in developing the concepts of the integrated model. The conceptual model is based on the need to evaluate water supply management options involving the conjunctive use of surface water and groundwater, as well as the evaluation of the impacts of proposed wellfields. The mathematical structure of the integrated model is based on the South Florida Water Management Model (SFWMM) (MacVicar et al., 1984) and A Modular Three-Dimensional Finite-Difference Groundwater Flow Model (MODFLOW) (McDonald and Harbaugh, 1988).(KEY TERMS: numerical model; ground water systems; surface water systems; resources planning; hydrogeology; water supply; water resources management.)

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Potential Use of Collagen-Chitosan-Hyaluronan Tri-Copolymer Scaffold for Cartilage Tissue Engineering

Yan

Liu

et al. 2006

Artificial Cells, Blood Substitutes, and Biotechnology

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A three-dimensional biodegradable porous scaffold plays a vital role in a tissue engineering approach. Collagen, chitosan and hyaluronan (HA) are natural extracellular matrix (ECM) or similarity, and may provide appropriate environment for the generation of cartilage-like tissue. In this study, we prepared a collagen/chitosan/HA tri-copolymer porous scaffold by freezing and lyophilization to evaluate physico-chemical properties of the tri-copolymer scaffold and its capacity to sustain chondrocytes proliferation and differentiation in vitro. The results show that the mechanical strength, the resistance to enzymatic degradation, and the waterblinding capacity were improved when chitosan and hyaluronan were incorporated into a collagen scaffold. After 21 days of culture, the porous scaffold had been surfaced with cartilaginous tissue. DNA and glycosaminoglycan (GAG) contents were significantly higher during culture periods in collagen/ chitosan/hyaluronan matrix compared to collagen alone matrix, and most seeded cells preserved the chondrocytic phenotype during culture within the scaffold. The collagen/chitosan/hyaluronan tri-copolymer scaffold has potential applications in a cartilage tissue engineering scaffold field.

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Jiang Yan

Resveratrol protects human keratinocytes HaCaT cells from UVA-induced oxidative stress damage by downregulating Keap1 expression

Biocompatibility Evaluation of Chitosan-based Injectable Hydrogels for the Culturing Mice Mesenchymal Stem Cells In Vitro

SIMULATION OF INTEGRATED SURFACE WATER AND GROUND WATER SYSTEMS ‐ MODEL FORMULATION¹

Potential Use of Collagen-Chitosan-Hyaluronan Tri-Copolymer Scaffold for Cartilage Tissue Engineering

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About

Jiang Yan

Resveratrol protects human keratinocytes HaCaT cells from UVA-induced oxidative stress damage by downregulating Keap1 expression

Biocompatibility Evaluation of Chitosan-based Injectable Hydrogels for the Culturing Mice Mesenchymal Stem Cells In Vitro

SIMULATION OF INTEGRATED SURFACE WATER AND GROUND WATER SYSTEMS ‐ MODEL FORMULATION1

Potential Use of Collagen-Chitosan-Hyaluronan Tri-Copolymer Scaffold for Cartilage Tissue Engineering

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Product

Resources

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SIMULATION OF INTEGRATED SURFACE WATER AND GROUND WATER SYSTEMS ‐ MODEL FORMULATION¹