多耦合场下带缺陷肝血管灌注过程的动力学研究
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天津市自然科学基金项目(14JCYBTC19400)


Dynamic study on the perfusion process of liver blood vessels with defects under multiple coupling
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    摘要:

    目的 以前期肝血管灌注的研究为基础,使用动力学方法研究并仿真肝血管在堵塞或带有异物时灌注过程中的流体动力学行为和血管壁力学特性,探究其变化规律及各种因素对灌注过程的影响程度。方法 依据医学影像数据构建肝脏直血管和弯曲血管实体模型,提出估算灌注速度的数学方法,仿真模拟血管内灌注液的流动;在双向耦合条件下对血管壁进行力学特性分析,同时在多耦合条件下提出灌注参数优化。结果 供肝血管管径改变(如血管痉挛)或在血管内突发栓子情况下进行灌注时血管内流体动力学行为是: (1)当血管堵塞程度不同时,前半段的变形比后半段变形要严重;(2)相同条件下,弯曲血管变形远大于直血管变形。结论 仿真结果较为清晰地显示提出的估算灌注速度的方法是可行的,仿真灌注下血管内的流体动力学行为以及血管壁的力学特性双向耦合结果分析符合医疗实际。利用该速度进行灌注得出仿真结果显示,各个因素对于灌注过程中血管壁的特性影响程度从大到小依次为:堵塞程度、血管形状和异物位置,并在流-固-热多耦合场条件下得到了血管灌注参数的优化值。

    Abstract:

    Objective Based on the previous researches of hepatic blood vessel perfusion, using dynamic methods to study and simulate the dynamic behavior of fluid and mechanical properties of vascular wall during perfusion of defected liver (blocked or with foreign matter), and investigate the variation patterns and influencing parameters during liver perfusion. Methods On the basis of medical image data, both the liver straight and bend vessel models were constructed. A mathematics method was proposed to estimate the perfusion speed and simulate the flow of intravascular perfusion liquid. Under the condition of fluid-solid coupling, the mechanical properties of vascular wall were analyzed, and the optimization of perfusion parameters under multiple-coupling condition was suggested. Results When the vascular diameter of the liver changed (such as vascular spasm) or in the case of vascular thrombosis, the hydrodynamic behaviors in blood vessel during liver perfusion were as following: (1) The deformation in the first half part was much more serious than that in the second half part of blood vessel with different blocked degrees. (2) Under the same perfusion condition, the deformation in bend vessel was much larger than that in straight vessel. Conclusions The simulation results show that the proposed estimation method for perfusion speed is feasible, and the results of liquid-solid coupling analysis on both hydrodynamic behavior of fluid inside blood vessel and mechanical properties of vascular wall during simulated liver perfusion accord with the medical practice. The parameters influence vascular wall differently as follows: the blocked degree of blood vessels> the shape of blood vessels > the location of foreign matter. The optimal parameter values during liver perfusion are also obtained under the condition of fluid-solid-heat coupling field.

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刘军,范勇,刘懿禾,王松丽.多耦合场下带缺陷肝血管灌注过程的动力学研究[J].医用生物力学,2016,31(1):24-32

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  • 收稿日期:2015-07-21
  • 最后修改日期:2015-09-02
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  • 在线发布日期: 2016-03-03
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