Onur Doyurgan^1,*, Osman Akdeniz², Fatih Özdemir¹, Yiğit Kılıç¹, Bedri Aldudak³

Congenital Heart Disease, Vol.17, No.3, pp. 313-323, 2022, DOI:10.32604/chd.2022.018479

Abstract Background: Vascular access used for pediatric cardiac catheterization is one of the most important factors that affects the success of the procedure. We aimed to compare the effect, success, and complications of cardiac catheterizations performed by carotid cut-down or femoral puncture in newborns or young infants. Methods: We included who underwent catheterization in our department between 28 January 2017 and 15 April 2021. These patients underwent balloon aortic valvuloplasty, balloon coarctation angioplasty, ductal stenting, diagnostic procedures for aortic arch pathologies, and modified Blalock-Taussig in-shunt intervention. Patients were divided into two groups: femoral puncture (group = 1) and carotid cut-down (CC,… More >

Long Yu¹, Kesong Xu¹, Jun Wan², Haiyan Lu^3,*, Shengzhang Wang^1,*

CMES-Computer Modeling in Engineering & Sciences, Vol.121, No.3, pp. 835-844, 2019, DOI:10.32604/cmes.2019.07428

Abstract Fractional flow reserve (FFR) computed from computed tomography angiography (CTA), i.e., FFR_CT has been used in the clinic as a noninvasive parameter for functional assessment of coronary artery stenosis. It has also been suggested to be used in the assessment of carotid artery stenosis. The wall thickness of the vessel is an important parameter when establishing a fluid-structure coupling model of carotid stenosis. This work studies the effect of the vessel wall thickness on hemodynamic parameters such as FFR_CT in carotid stenosis. Models of carotid stenosis are established based on CTA image data using computer-aided design software. It is assumed… More >

Guangyu Zhu¹, Yuan Wei¹, Qi Yuan^1,*, Ge Yan², Jian Yang²

Molecular & Cellular Biomechanics, Vol.16, Suppl.1, pp. 55-56, 2019, DOI:10.32604/mcb.2019.05730

Abstract This article has no abstract. More >

Qingyu Wang¹, Dalin Tang^1,2,*, Gador Canton³, Zheyang Wu², Thomas S. Hatsukami⁴, Kristen L. Billiar⁵, Chun Yuan⁶

Molecular & Cellular Biomechanics, Vol.15, No.4, pp. 189-201, 2018, DOI:10.32604/mcb.2018.04572

Abstract Cardiovascular diseases are closely linked to atherosclerotic plaque development and rupture. Assessment of plaque vulnerability is of fundamental significance to cardiovascular research and disease diagnosis, prevention, treatment and management. Magnetic resonance image (MRI) data of carotid atherosclerotic plaques from 8 patients (5 male, 3 female; age: 62-83, mean=71) were acquired at the University of Washington (UW), Seattle by the Vascular Imaging Laboratory (VIL) with written informed consent obtained. Patient-specific vessel material properties were quantified using Cine MRI data for modeling use. 3D thin-layer models were used to obtain plaque stress and strain for plaque assessment. A stress-based plaque vulnerability index… More >

Xueying Huang^*, Chun Yang^†, Chun Yuan^‡, Fei Liu^‡, Gador Canton^‡, Jie Zheng^§, Pamela K. Woodard^§, Gregorio A. Sicard^¶, Dalin Tang^||

Molecular & Cellular Biomechanics, Vol.6, No.2, pp. 121-134, 2009, DOI:10.3970/mcb.2009.006.121

Abstract Image-based computational models for atherosclerotic plaques have been developed to perform mechanical analysis to quantify critical flow and stress/strain conditions related to plaque rupture which often leads directly to heart attack or stroke. An important modeling issue is how to determine zero stress state from in vivo plaque geometries. This paper presents a method to quantify human carotid artery axial and inner circumferential shrinkages by using patient-specific ex vivo and in vivo MRI images. A shrink-stretch process based on patient-specific in vivo plaque morphology and shrinkage data was introduced to shrink the in vivo geometry first to find the zero-stress… More >

Yanxia Wang¹, Yu Wang², Siqi Li³, ur Rehman Aziz³, Shutian Liu¹, Kairong Qin^2,*

CMES-Computer Modeling in Engineering & Sciences, Vol.116, No.2, pp. 127-147, 2018, DOI: 10.31614/cmes.2018.03985

Abstract Assessment of the magnitude and pattern of wall shear stress (WSS) in vivo is the prerequisite for studying the quantitative relationship between exercise-induced WSS and arterial endothelial function. In the previous studies, the calculation of the WSS modulated by exercise training was primarily based upon the rigid tube model, which did not take non-linear effects of vessel elastic deformation into consideration. In this study, with an elastic tube model, we estimated the effect of a bout of 30-minute acute cycling exercise on the WSS and the flow rate in the common carotid artery according to the measured inner diameter, center-line… More >