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机译:通过低强度脉冲超声引起的声微晶增强三维藻酸盐支架的孔隙率和渗透性
Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Dept Phys Key Lab Modern Acoust MOE Nanjing 210093 Jiangsu Peoples R China;
Nanjing Univ Chinese Med Inst Traumatol &
Orthoped Nanjing 210023 Jiangsu Peoples R China;
Nanjing Univ Chinese Med Inst Traumatol &
Orthoped Nanjing 210023 Jiangsu Peoples R China;
Nanjing Univ Chinese Med Basic Med Sci Nanjing 210023 Jiangsu Peoples R China;
Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Dept Phys Key Lab Modern Acoust MOE Nanjing 210093 Jiangsu Peoples R China;
Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Dept Phys Key Lab Modern Acoust MOE Nanjing 210093 Jiangsu Peoples R China;
Univ Waterloo Dept Elect &
Comp Engn Waterloo ON N2L 3G1 Canada;
Univ Vermont Dept Phys Burlington VT 05405 USA;
Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Dept Phys Key Lab Modern Acoust MOE Nanjing 210093 Jiangsu Peoples R China;
Porosity; Permeability; Micro-streaming; Cavitation; Alginate scaffolds;
机译:通过低强度脉冲超声引起的声微晶增强三维藻酸盐支架的孔隙率和渗透性
机译:低强度脉冲超声通过改善孔隙率和渗透性来刺激3-D海藻酸盐支架中的软骨细胞生长
机译:使用低强度脉冲超声增强三维碳化硅支架中细胞的生长,增殖和早期分化
机译:聚焦低强度脉冲超声(FLIPUS)体外刺激肌肉骨骼系统细胞:分析细胞活动对最佳声剂量的响应
机译:低强度脉冲超声(LIPUS)超声场距离对大鼠骨折愈合和成骨细胞成骨旁分泌信号的影响。
机译:使用低强度脉冲超声增强三维碳化硅支架中细胞的生长增殖和早期分化
机译:使用低强度脉冲超声提高三维碳化硅支架中的细胞生成,增殖和早期分化