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机译:电纺生物可吸收小直径血管移植物的弹性响应:仿生机械响应
UNMdP CONICET, Res Inst Mat Sci & Technol INTEMA, Mar Del Plata, Buenos Aires, Argentina;
Republ Univ, Sch Sci, Ultrason Acoust Lab, Inst Phys, Montevideo, Uruguay|Republ Univ, Sch Engn, Biomed Engn Nucleus, Montevideo, Uruguay;
Natl Technol Univ, Buenos Aires Reg Fac, Res & Dev Grp Bioengn GIBIO, Buenos Aires, DF, Argentina;
Republ Univ, Sch Sci, Ultrason Acoust Lab, Inst Phys, Montevideo, Uruguay;
UNMdP CONICET, Res Inst Mat Sci & Technol INTEMA, Mar Del Plata, Buenos Aires, Argentina;
Republ Univ, Sch Sci, Ultrason Acoust Lab, Inst Phys, Montevideo, Uruguay;
Natl Technol Univ, Buenos Aires Reg Fac, Res & Dev Grp Bioengn GIBIO, Buenos Aires, DF, Argentina|Republ Univ, Northwest Reg Univ Ctr, Appl Engn Grp & Agr Biol Proc, Paysandu, Uruguay;
UNMdP CONICET, Res Inst Mat Sci & Technol INTEMA, Mar Del Plata, Buenos Aires, Argentina;
Vascular Grafts; Electrospinning; Biomimetic; Dynamic compliance;
机译:顺应性电纺聚(L-丙交酯-ε-己内酯)小直径血管移植物的力学响应
机译:体外仿生环境中小直径血管移植的机械和降解性能
机译:双层小直径纳米纤维结构作为仿生血管移植物的力学行为
机译:响应于电纺生物可吸收血管移植物纤维尺寸变化的巨噬细胞极化
机译:面向机械设计的精密纳米制造:从单个纳米纤维到机械仿生的纳米原纤维血管移植物。
机译:仿生聚合物涂覆血管移植物的内皮细胞附着和剪切应答
机译:双层小直径纳米纤维结构作为仿生血管移植物的力学行为