Mechanical properties of polycaprolactone microfilaments for muscular tissue engineering

IF 0.1 Q4 MULTIDISCIPLINARY SCIENCES Tecnologia en Marcha Pub Date : 2023-03-06 DOI:10.18845/tm.v36i2.6154
Laura Rojas-Rojas, Teodolíto Guillén-Girón
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Abstract

Polymeric scaffolds can be fabricated as microfilaments to replicate the mechanical characteristics and biological configuration of skeletal muscles and tendons. The microfilaments used in this research were fabricated from polycaprolactone (PCL) pellets by extrusion and a spooling system without using solvents. Their mechanical properties were investigated by applying monotonic and dynamic loads on aligned grouped microfilaments using a customized grip adapter. The fabrication method was simple and produced a homogeneous microfilament with a 90 ± 3 µm diameter. The monotonic tests showed the elasticity of the microfilaments was E = 1863 ± 590 MPa, and their yield strength was σy = 242 ± 45 MPa. The dynamic load test results showed that PCL microfilaments resisted periodic loads for 5.3×105 cycles, retaining a maximum deformation of 55%. The fabricated microfilament has the potential to be used as a biomimetic polymeric scaffold suitable for mechanical stimulation because of its outstanding mechanical behavior during dynamic loading conditions.
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肌肉组织工程用聚己内酯微丝的力学性能
聚合物支架可以制作成微丝来复制骨骼肌和肌腱的力学特性和生物结构。本研究以聚己内酯(PCL)微丝为原料,在不使用溶剂的情况下,通过挤压和卷绕系统制备微丝。通过使用定制的握柄适配器对排列成组的微丝施加单调和动态载荷,研究了它们的力学性能。制备方法简单,制备出直径为90±3µm的均匀微丝。单调试验表明,微丝的弹性为E = 1863±590 MPa,屈服强度为σy = 242±45 MPa。动态载荷试验结果表明,PCL微丝在5.3×105周期内抵抗周期性载荷,最大变形量保持在55%。所制备的微丝在动态加载条件下具有优异的力学性能,有可能成为一种适合机械刺激的仿生高分子支架材料。
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来源期刊
Tecnologia en Marcha
Tecnologia en Marcha MULTIDISCIPLINARY SCIENCES-
自引率
0.00%
发文量
93
审稿时长
28 weeks
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