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机译:可调谐和可逆的衬底刚度揭示了心肌细胞的动态机械敏感性
Univ Delaware Dept Biomed Engn Newark DE 19716 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
Univ Penn Sch Arts &
Sci Philadelphia PA 19104 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
Univ Penn Dept Mech Engn &
Appl Mech Sch Engn &
Appl Sci Philadelphia PA 19104 USA;
Bryn Mawr Coll Dept Phys Bryn Mawr PA 19010 USA;
Bryn Mawr Coll Dept Phys Bryn Mawr PA 19010 USA;
Univ Penn Dept Mech Engn &
Appl Mech Sch Engn &
Appl Sci Philadelphia PA 19104 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
Univ Penn Dept Med Div Cardiol Perelman Sch Med Philadelphia PA 19104 USA;
extracellular matrix; magnetorheological elastomer; iPSC-CMs; cardiac fibroblasts; quantitative RT-PCR;
机译:可调谐和可逆的衬底刚度揭示了心肌细胞的动态机械敏感性
机译:动态控制刚度可调基板上的细胞粘附,以分析集体细胞迁移的力学生物学。
机译:动态成像揭示了循环拉伸和基质刚度对内皮完整性的协调作用
机译:底物的刚度影响心肌细胞动作电位
机译:通过微流控LMPA薄膜的刚度调节,实现弹性柱的可逆可逆干粘合
机译:动态成像揭示了循环拉伸和基质刚度对内皮完整性的协调作用
机译:可调谐和可逆的衬底刚度揭示了心肌细胞的动态机械敏感性