3D-Printed Polylactic Acid Scaffold for Regenerative Implant Integration Applications

机译：用于再生植入物集成应用的3D印刷聚乳酸支架

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3DHC patterns at 0°; 90° angle excelled in all three mechanical criteria investigated and demonstrated the optimal pore geometry and structure for tissue integration. With a high flexural modulus, the 3DHC scaffold retained its shape better than its counterparts. 0.2% yield strength for the 3DHC pattern at 0°; 90° was 21% higher than other patterns, which helps the scaffold retain its structure, enabling its use in loadbearing tissues and implants. A 3DHC scaffold with 75% porosity can be printed with pores that measure within the desired 400-1200 um range , 3DHC patterns at 0°; 90° were also found to have pore qualities at par with RTL patterns; however, they provide superior mechanical properties and better chances when used with load-bearing tissue.

机译：3DHC图案在0°;所有三个机械标准中的90°角度优化了，并证明了用于组织整合的最佳孔隙几何形状和结构。具有高弯曲模量，3DHC支架比其对应物更好地保持其形状。在0°的3dhc图案的0.2％屈服强度; 90°比其他图案高出21％，这有助于支架保持其结构，使其在负荷组织和植入物中使用。具有75％孔隙率的3DHC支架可以用孔印刷，孔隙在所需的400-1200 um范围内，3dhc图案在0°内;还发现90°在RTL图案的靶标准下具有孔隙品质;然而，当与承载组织一起使用时，它们提供优越的机械性能和更好的机理。

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《Society for Biomaterials annual meeting and exposition》|2018年|445 p.|共1页
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E Yener; K. Kumar; D Wetnight; A Neiman; N Wanico; M Frohbergh;
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4. 3D-Printed Polylactic Acid Scaffold for Regenerative Implant Integration Applications [C] . E Yener, K. Kumar, D Wetnight, Society for Biomaterials annual meeting and exposition . 2018

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5. Development of an implantable multilayer three-dimensional scaffold consisting of aligned electrospun fibers for neuronal regeneration applications. [D] . Wang, Han Bing. 2008

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3D-Printed Polylactic Acid Scaffold for Regenerative Implant Integration Applications

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