Biomechanical stress in coronary atherosclerosis: emerging insights from computational modelling

Thondapu, Vikas; Bourantas, Christos V.; Foin, Nicolas; Jang, Ik‐Kyung; Serruys, Patrick W.; Barlis, Peter

doi:10.1093/eurheartj/ehv689

Cited by 82 publications

(86 citation statements)

References 135 publications

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“…The local flow alterations, especially the low ESS pattern corresponding to the vessel geometry change might mediate biological responses through increased thrombogenicity and impaired rate of vascular repair . In addition, low ESS promotes smooth muscle cell (SMC) proliferation and migration, the expression of proteins that perpetuate inflammation and lipid accumulation and can transform the benign neointima to a vulnerable plaque . Therefore, stented lesions that are exposed to low ESS exhibit augmented neoatherosclerosis and neointimal hyperplasia.…”

Section: Discussionmentioning

confidence: 99%

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Association of stent‐induced changes in coronary geometry with late stent failure: Insights from three‐dimensional quantitative coronary angiographic analysis

Zhang

Καρανάσος³

et al. 2018

Cathet Cardio Intervent

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Section: Discussionmentioning

confidence: 99%

“…whereas the inner regions have a lower ESS [22]. [27][28][29]. Therefore, stented lesions that are exposed to low ESS exhibit augmented neoatherosclerosis and neointimal hyperplasia.…”

Section: The Geometrical Coronary Changes After Stenting and Stent mentioning

confidence: 99%

Association of stent‐induced changes in coronary geometry with late stent failure: Insights from three‐dimensional quantitative coronary angiographic analysis

Zhang

Καρανάσος³

et al. 2018

Cathet Cardio Intervent

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“…11 The unsteady nature of arterial blood flow determines the endothelial shear stress in combination with the geometric vessel configuration, being characterized by direction and magnitude. In regions with irregular geometry, a disturbed laminar flow appears, and the pulsatile flow shows oscillatory endothelial shear stress.…”

Section: Shear Stressmentioning

confidence: 99%

Imaging Techniques for the Assessment of Coronary Arteries in Diabetic Patients Undergoing PCI with Bioresorbable Vascular Scaffolds

Cordunean¹,

Hodaş²,

Benedek³

et al. 2017

Journal of Interdisciplinary Medicine

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Patients who suffer from diabetes mellitus and present coronary artery disease are at a higher risk of cardiovascular events. The coronary arteries of diabetic patients present a diffuse process of atherosclerosis with frequent distal involvement, being prone to acute cardiovascular events. Diabetics present an increased rate of developing coronary artery remodeling, negative remodeling being representative for this class of patients; this process is characterized by vessel shrinkage and an increased rate of coronary calcium accumulation that is a predictor for cardiovascular risk. Currently, it is desired to improve the treatment of diabetic patients with bioresorbable vascular scaffolds (BVS), because of their reduced risk of restenosis and the ability to restore coronary function, including vasomotion, adaptive shear stress, and expansive remodeling. Optical coherence tomography, intravascular ultrasound and multi-slice computed tomography are imaging techniques used for a high accuracy of diagnosis in coronary artery disease. This manuscript is a review that aims to highlight imaging techniques used for evaluating the functional impact of coronary lesions in diabetic patients who underwent coronary PCI with bioresorbable scaffolds and to describe the functional markers that show the specificity for predicting coronary artery disease.

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“…Numerous histology and in vivo studies have shown that local haemodynamic forces and in particular the endothelial shear stress (ESS) are instigators of plaque formation and of the development of high-risk vulnerable plaques 1. Clinical reports have explored the implications of plaque morphology and of ESS on atherosclerotic disease progression,2 and experimental studies have examined the effect of ESS in lesions with a high-risk phenotype3; however, there is limited clinical data about the implications of ESS on the dynamic changes in plaque phenotype.…”

Section: Introductionmentioning

confidence: 99%

Implications of the local haemodynamic forces on the phenotype of coronary plaques

Bourantas

Zanchin

Sakellarios

et al. 2019

Heart

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AimTo examine the effect of endothelial shear stress (ESS) on the dynamic changes in plaque phenotype.MethodsPatients with myocardial infarction that had intravascular ultrasound-virtual histology (IVUS-VH) and optical coherence tomography (OCT) at baseline and 13-month follow-up were studied. The IVUS-VH data were used to reconstruct the nonculprit vessels, and in the obtained models the ESS was estimated in 3 mm segments. Plaque morphology was derived in each segment from IVUS-VH and OCT. Disease progression was defined as the presence of ≥2 out of the following criteria: reduction in lumen area, increase in plaque burden and change of plaque morphology to a more vulnerable phenotype. Linear mixed effects models were used to assess the effect of ESS in different phenotypes.ResultsSixty-eight vessels were included in the analysis. Low ESS was associated with plaque progression in all phenotypes. The effect of ESS on plaque burden (p for interaction=0.467) and phenotype (p for interaction=0.188) was similar in all plaque types, whereas the effect of ESS on the changes in lumen dimensions was more prominent in disease-free (β=0.70, p<0.001) than fibrotic/fibrocalcific (β=0.28, p<0.001) or lipid-rich plaques (β=0.15, p=0.015). Standalone IVUS-VH misclassified plaque morphology in one-third of the cases leading to erroneous estimations about the effect of ESS on plaque evolution in different phenotypes.ConclusionsThe effect of ESS on plaque progression is similar in all phenotypes and cannot be accurately assessed by standalone IVUS-VH which often misclassifies plaque morphology. Therefore, multimodality imaging should be considered to examine the implications of ESS on plaque evolution.Clinical trial registrationNCT00962416; Post-results.

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Biomechanical stress in coronary atherosclerosis: emerging insights from computational modelling

Cited by 82 publications

References 135 publications

Association of stent‐induced changes in coronary geometry with late stent failure: Insights from three‐dimensional quantitative coronary angiographic analysis

Association of stent‐induced changes in coronary geometry with late stent failure: Insights from three‐dimensional quantitative coronary angiographic analysis

Imaging Techniques for the Assessment of Coronary Arteries in Diabetic Patients Undergoing PCI with Bioresorbable Vascular Scaffolds

Implications of the local haemodynamic forces on the phenotype of coronary plaques

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