Effect of lipoprotein / 中南大学学报(医学版)

OBJECTIVES@#To analyze the effect of hyperlipoproteinemia (α) on immediate expansion after coronary stent implantation guided by intravascular ultrasound (IVUS).@*METHODS@#A total of 160 patients (175 lesions) with coronary heart disease diagnosed by coronary artery angiography, who were performed percutaneous intervention guided by IVUS in the Department of Cardiology, Third Xiangya Hospital, Central South University, were enrolled retrospectively.According to the concentration of lipoproteina, the patients were divided into 2 groups: a hyperlipoproteinemia (α) group and a control group. Cardiac ejection fraction was measured with echocardiography. Logistic regression was used to analyze the influential factors for hyperlipoproteinemia (α). The target vessel was examined by IVUS to analyze the immediate expansion effect of hyperlipoproteinemia (α) after stent implantation.@*RESULTS@#The mean stent expansion index, lesion length, stent number, stent symmetry index and posterior balloon diameter were (94.73±18.9)%, (52.92±29.1) mm, (2.11±0.85), (83.62±13.07)%, and (9.46±2.00) mm in the hyperlipoproteinemia (α) group, respectively. Compared with the control group, there were significantly difference (all @*CONCLUSIONS@#Hyperlipoproteinemia (α) appears to be a predictor of stent underexpansion, and the decreased creatinine clearance rate is an independent risk factor for hyperlipoproteinemia (α).

Advances in expansion property of stent in vessels with different shapes / 医用生物力学

The implantation of an intravascular stent has become a widely used minimally invasive treatment for coronary heart disease due to its low invasiveness and high efficiency. But the long-term outcomes are often compromised by in-stent restenosis (ISR), which severely restricts its effectiveness in practical. In this paper, the formation mechanism of ISR was given, and the effects of mechanical environment on ISR were analyzed from the view of solid mechanics. The research progress of stent expansion in vessels with 4 different shapes, including straight vessel, tapered vessel, bifurcation vessel and curved vessel was reviewed. Moreover, the correlations between vessel stress and vessel shape change caused by stent expansion and ISR were reviewed. Finally, based on the influence of different vessel shapes on stent expansion, a multi-objective optimization design method was proposed to improve stent expansion performance and reduce the occurrence of ISR.

Advances in expansion property of stent in vessels with different shapes / 医用生物力学

The implantation of an intravascular stent has become a widely used minimally invasive treatment for coronary heart diseases due to its minimal invasiveness and high efficiency.But the long-term outcomes are often compromised by in-stent restenosis (ISR),which severely restricts its practical effectiveness.In this paper,the formation mechanism of ISR was discussed,and the effects of mechanical environment on ISR were analyzed from the view of solid mechanics.The research progress of stent expansion in vessels with 4 different shapes,including straight vessel,tapered vessel,bifurcation vessel and curved vessel was reviewed.Moreover,the correlations between vessel stress and vessel shape change caused by stent expansion and ISR were reviewed.Finally,based on the influence of different vessel shapes on stent expansion,a multi-objective optimization design method was proposed to improve the stent expansion performance and reduce the occurrence of ISR.

Advances in expansion property of stent in vessels with different shapes / 医用生物力学

The implantation of an intravascular stent has become a widely used minimally invasive treatment for coronary heart diseases due to its minimal invasiveness and high efficiency.But the long-term outcomes are often compromised by in-stent restenosis (ISR),which severely restricts its practical effectiveness.In this paper,the formation mechanism of ISR was discussed,and the effects of mechanical environment on ISR were analyzed from the view of solid mechanics.The research progress of stent expansion in vessels with 4 different shapes,including straight vessel,tapered vessel,bifurcation vessel and curved vessel was reviewed.Moreover,the correlations between vessel stress and vessel shape change caused by stent expansion and ISR were reviewed.Finally,based on the influence of different vessel shapes on stent expansion,a multi-objective optimization design method was proposed to improve the stent expansion performance and reduce the occurrence of ISR.

Advances in expansion property of stent in vessels with different shapes / 医用生物力学

The implantation of an intravascular stent has become a widely used minimally invasive treatment for coronary heart diseases due to its minimal invasiveness and high efficiency.But the long-term outcomes are often compromised by in-stent restenosis (ISR),which severely restricts its practical effectiveness.In this paper,the formation mechanism of ISR was discussed,and the effects of mechanical environment on ISR were analyzed from the view of solid mechanics.The research progress of stent expansion in vessels with 4 different shapes,including straight vessel,tapered vessel,bifurcation vessel and curved vessel was reviewed.Moreover,the correlations between vessel stress and vessel shape change caused by stent expansion and ISR were reviewed.Finally,based on the influence of different vessel shapes on stent expansion,a multi-objective optimization design method was proposed to improve the stent expansion performance and reduce the occurrence of ISR.