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首页> 外文会议>SPIE Conference on Optical Interactions with Tissues and Cells >Collagen thermal denaturation study for thermal angioplasty based on modified kinetic model:Relation between the artery mechanical properties and collagen denaturation rate
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Collagen thermal denaturation study for thermal angioplasty based on modified kinetic model:Relation between the artery mechanical properties and collagen denaturation rate

机译:基于改性动力学模型的热血管成形术的胶原蛋白热变性研究:动脉机械性能与胶原变性率之间的关系

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We have been developing the novel short-term heating angioplasty in which sufficient artery lumen-dilatation was attained with thermal softening of collagen fiber in artery wall. In the present study, we investigated on the relation between the mechanical properties of heated artery and thermal denaturation fractures of arterial collagen in ex vivo. We employed Lumry-Eyring model to estimate temperature- and time-dependent thermal denaturation fractures of arterial collagen fiber during heating. We made a kinetic model of arterial collagen thermal denaturation by adjustment of K and k in this model, those were the equilibrium constant of reversible denaturation and the rate constant of irreversible denaturation. Meanwhile we demonstrated that the change of reduced scattering coefficient of whole artery wall during heating reflected the reversible denaturation of the collagen in artery wall. Based on this phenomenon, the K was determined experimentally by backscattered light intensity measurement (at 633nm) of extracted porcine carotid artery during temperature elevation and descending (25°C→80°C→25°C). We employed the value of according to our earlier report in which the time-and temperature- dependent irreversible denaturation amount of the artery collagen fiber that was assessed by the artery birefringence. Then, the time- and temperature- dependent reversible (irreversible) denaturation fraction defined as the reversible ((irreversible) denatured collagen amount) / (total collagen amount) was calculated by the model. Thermo-mechanical analysis of artery wall was performed to compare the arterial mechanical behaviors (softening, shrinkage) during heating with the calculated denaturation fraction with the model. In any artery temperature condition in 70-80°C, the irreversible denaturation fraction at which the artery thermal shrinkage started was estimated to be around 20%. On the other hand, the calculated irreversible denaturation fraction remained below 5% and reversible denaturation fraction reached up to 20% while the artery softening occurred without shrinkage. We think that our model of arterial collagen thermal denaturation might be reasonable to estimate the artery mechanical properties during heating.
机译:我们一直在开发新的短期加热血管成形术,其中在动脉壁中具有胶原纤维的热软化,可以获得足够的动脉腔扩张。在本研究中,我们研究了前体内动脉胶原的加热动脉和热变性骨折的力学性能与动脉胶原的关系的关系。我们采用了铜膜模型来估计加热过程中动脉胶原纤维的温度和时间依赖性热变性裂缝。通过该模型调节K和K的动脉胶原热变性的动力学模型,这些是可逆变性的平衡常数和不可逆变性的速率常数。同时,我们证明了加热过程中整个动脉壁的降低散射系数的变化反映了动脉壁中胶原蛋白的可逆变性。基于这种现象,通过在温度升高和下降期间提取的猪颈动脉(25°C→80℃→25℃)通过反背散射光强度测量(在633nm处)实验确定k。我们雇用了根据我们之前的报告的价值,其中由动脉双折射评估的动脉胶原纤维的时间和温度依赖性不可逆变性量。然后,通过模型计算定义为可逆((不可逆)变性胶原量)/(总胶原量)定义的时间和温度依赖性的可逆(不可逆的)变性级分。进行动脉壁的热力学分析,以将动脉机械行为(软化,收缩)与模型的计算出的变性级分加热。在70-80℃的任何动脉温度条件下,估计动脉热收缩开始的不可逆变性级分估计为约20%。另一方面,计算出的不可逆变性级分仍然低于5%,可逆变性馏分达到高达20%,而动脉软化发生而不会收缩。我们认为,我们的动脉胶原热变性模型可能是合理的,以估算加热过程中的动脉机械性能。

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