Printable Smart 3D Architectures of Regenerated Silk on Poly(3- Hydroxybutyrate-Co-3-Hydroxyvalerate)

S. B. Bon, Irene Chiesa, D. Morselli, M. D. Esposti, P. Fabbri, C. De Maria, Tommaso Foggi Viligiardi, A. Morabito, G. Giorgi, L. Valentini
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Abstract

In this study, we report the fabrication of two different three-dimensional (3D) architectures of regenerated silk (RS) and poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) with embedded functionalities. 3D printed cylinders with an internal layer of PHBV and an external of calcium ions (Ca++) or potassium nitrate (KNO3) modified RS were designed to control the radial shrinkage, water uptake and compression strength. Such cylinders were then used as sutureless thermoresponsive clips, measuring the bursting resistance once applied on an anastomized porcine intestine. Experimental data are supported by finite element simulations that model the tube contraction, demonstrating the possibility to program the shape-changing behavior of 3D printed structures. Printing RS on PHBV, we obtained responsive 3D grids to external force with self-powering properties. The synergic effect obtained by combining materials on appropriate architectures paves the way to potential clinical applications ranging from monitoring of vital signs to sutureless sealant patches.
聚(3-羟丁酸酯- co -3-羟戊酸酯)再生丝可打印的智能3D结构
在这项研究中,我们报道了再生丝(RS)和具有嵌入功能的聚(3-羟基丁酸-co-3-羟基戊酸酯)(PHBV)的两种不同的三维(3D)结构的制备。设计了3D打印圆柱体,内层为PHBV,外部为钙离子(Ca++)或硝酸钾(KNO3)改性RS,以控制径向收缩率、吸水率和抗压强度。然后将这些圆柱体用作无缝合线的热响应夹,测量一旦应用于吻合的猪肠上的破裂阻力。实验数据由模拟管收缩的有限元模拟支持,证明了对3D打印结构的形状变化行为进行编程的可能性。在PHBV上打印RS,我们获得了具有自供电特性的对外力响应的3D网格。通过在适当的结构上组合材料获得的协同效应为潜在的临床应用铺平了道路,从监测生命体征到无缝合线的密封剂贴片。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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