【摘要】 背景:血管移植是治疗心血管疾病的主要方法,自体或异体血管存在来源有限、免疫排斥反应、无生长能力等问题,基于3D打印与组织工程技术的人工血管构建为解决上述问题提供了新思路。目的:以MC算法为核心,对血管组织的CT医疗影像数据进行三维模型重建,并对重建模型进行有限元分析。方法:首先通过Mimics软件对人体血管组织的医学影像进行有效提取,完成血管组织的三维重建和优化处理,设计4种壁厚与外直径不等的人工血管组织模型(宽薄型:外直径10 mm,壁厚1.7 mm;宽厚型:外直径10 mm,壁厚2.0 mm;窄薄型:外直径8 mm,壁厚1.7 mm;窄厚型:外直径8 mm,壁厚2.0 mm),然后利用有限元软件分析4组血管组织的受力情况,得出适合用于植入的人工血管模型。结果与结论:(1)在施加相同拉力时,窄薄型组位移变化最大,宽薄型组其次,宽厚型组位移最小;(2)在施加同等径向压力时,宽薄型组位移变化最大,窄厚型组位移最小,宽厚型组位移略小于窄薄型组;(3)结果显示,"宽厚型"结构具备更强的抗压及抗拉能力,适合作为人工血管植入。更多还原

【Abstract】 BACKGROUND: Vascular transplantation is the main method for treating cardiovascular diseases. Autologous or xenogenous blood vessels exist in limited source, immunological rejection and no growth ability. Artificial blood vessel construction based on three-dimensional printing and tissue engineering technology provides new ideas for solving the above problems.OBJECTIVE: To reconstruct the three-dimensional model of CT data of vascular tissue with MC algorithm as the core, and to analyze the reconstruction model with finite element method.METHODS: Firstly, the medical image of human vascular tissue was extracted effectively by Mimics software, and the three-dimensional reconstruction and optimization of vascular tissue were completed. Four kinds of artificial vascular tissue models with different wall thickness and external diameter were designed(wide and thin type: external diameter 10 mm, wall thickness 1.7 mm; wide and thick type: external diameter 10 mm, wall thickness 2.0 mm; narrow and thin type: external diameter 8 mm, wall thickness 1.7 mm; narrow and thick type: external diameter 8 mm, wall thickness 2.0 mm). Then the stress of four groups of vascular tissue was analyzed by finite element software, and the suitable artificial vascular model for implantation was obtained.RESULTS AND CONCLUSION:(1) When the same tension was applied, the displacement of the narrow-thin group changed the most,followed by the wide-thin group and the wide-thick group the least.(2) When the same radial pressure was applied, the displacement of the wide-thin group changed the most, the narrow-thick group the least, and the displacement of the wide-thick group was slightly smaller than that of the narrow-thin group.(3) These results show that the "wide and thick" structure has strong compressive and tensile resistance, and is suitable for vascular prosthesis implantation.更多还原