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- Ning-hua Liu; Jian-feng Pan; Yue-E Miao; Tian-xi Liu; Feng Xu; Hui Sun
- Journal of materials science 2014 v.49 no.20 pp. 7253-7262
- cell adhesion; contact angle; extracellular matrix; hydrophilicity; mixing; stem cells; tensile strength; tissue engineering
- ... For skin tissue engineering, an ideal scaffold should mimic the natural extracellular matrix of the native skin. In this study, we reported a novel elastic sub-micron fiber scaffold blending poly (ε-caprolactone-co-lactide) (PLCL) and Pluronic at different ratios by electrospinning. PLCL and Pluronic were co-electrospun with the ratio of 100/0, 99/1, 95/5, 90/10, 85/15, and 75/25. These scaffolds ...
- He Xiao-Ling; Ge Li-Li; Liu Ze-Li; Lu Wen-Jia; Li Jia-Quan; Zhao Yue-Mei; Li Xiang-Xu; Yang Ning; Chen Li; Wei Dong-Sheng
- Industrial & Engineering Chemistry Research 2014 v.53 no.26 pp. 10618-10628
- adhesion; albumins; cell adhesion; contact angle; extracellular matrix; hepatocytes; hepatoma; human cell lines; hydrogels; hydrophilicity; hydrophobicity; liver; scanning electron microscopy; temperature; tissue engineering; urea
- ... Glycyrrhetinic acid-based thermoresponsive hydrogels P(NIPAAm-co-GAA) were prepared and used to promote initial cell adhesion, growth, and recovery by lowering temperature for further tissue engineering or bioartificial liver applications. The compositions, morphologies and properties of hydrogels were characterized by element analysis, scanning electron microscopy (SEM), and water contact angle m ...