Emergent biomechanical factors predicting vulnerable coronary atherosclerotic plaque rupture

Estefanía Peña; Myriam Cilla; Álvaro T. Latorre; Miguel A. Martínez; Armida Gómez; Jacques Ohayon; Roderic I. Pettigrew; Gérard Finet

doi:10.1016/B978-0-12-817195-0.00016-0

Emergent biomechanical factors predicting vulnerable coronary atherosclerotic plaque rupture

Estefanía Peña, Myriam Cilla, Álvaro T. Latorre, Miguel A. Martínez, Armida Gómez, Jacques Ohayon, Roderic I. Pettigrew, Gérard Finet

Research output: Chapter in Book/Report/Conference proceeding › Chapter

4 Scopus citations

Abstract

This chapter focuses on physiological intraparietal stress distribution in vulnerable atherosclerotic plaques (VPs) and its potential for identifying VPs at high risk of rupture. Although several clinical and biomechanical studies have identified plaque morphology as a key predictor of vulnerability to rupture, predicting rupture remains imprecise, as the thickness of the fibrous cap is not in itself enough to predict plaque instability. Our hypothesis was that the discrepancy between the precision of our knowledge of the morphological characteristics of a VP and their poor predictive value with respect to rupture is largely due to the complexity of the biomechanical interactions involved. It is essential to understand how the VP’s anatomical and mechanical characteristics interact during the growth process, increasing our fundamental knowledge of VP instability, while providing a more accurate evaluation of the risk of rupture. This chapter presents and discusses such biomechanical interactions.

Original language	English (US)
Title of host publication	Biomechanics of Coronary Atherosclerotic Plaque
Subtitle of host publication	From Model to Patient
Publisher	Elsevier
Pages	361-380
Number of pages	20
ISBN (Electronic)	9780128171950
ISBN (Print)	9780128171967
DOIs	https://doi.org/10.1016/B978-0-12-817195-0.00016-0
State	Published - Jan 1 2021

Keywords

Peak cap stress
Plaque composition
Plaque remodelling
Residual stresses
Risk of rupture
Vulnerable plaque

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/B978-0-12-817195-0.00016-0

Cite this

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title = "Emergent biomechanical factors predicting vulnerable coronary atherosclerotic plaque rupture",

abstract = "This chapter focuses on physiological intraparietal stress distribution in vulnerable atherosclerotic plaques (VPs) and its potential for identifying VPs at high risk of rupture. Although several clinical and biomechanical studies have identified plaque morphology as a key predictor of vulnerability to rupture, predicting rupture remains imprecise, as the thickness of the fibrous cap is not in itself enough to predict plaque instability. Our hypothesis was that the discrepancy between the precision of our knowledge of the morphological characteristics of a VP and their poor predictive value with respect to rupture is largely due to the complexity of the biomechanical interactions involved. It is essential to understand how the VP{\textquoteright}s anatomical and mechanical characteristics interact during the growth process, increasing our fundamental knowledge of VP instability, while providing a more accurate evaluation of the risk of rupture. This chapter presents and discusses such biomechanical interactions.",

keywords = "Peak cap stress, Plaque composition, Plaque remodelling, Residual stresses, Risk of rupture, Vulnerable plaque",

author = "Estefan{\'i}a Pe{\~n}a and Myriam Cilla and Latorre, {{\'A}lvaro T.} and Mart{\'i}nez, {Miguel A.} and Armida G{\'o}mez and Jacques Ohayon and Pettigrew, {Roderic I.} and G{\'e}rard Finet",

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T1 - Emergent biomechanical factors predicting vulnerable coronary atherosclerotic plaque rupture

AU - Peña, Estefanía

AU - Cilla, Myriam

AU - Latorre, Álvaro T.

AU - Martínez, Miguel A.

AU - Gómez, Armida

AU - Ohayon, Jacques

AU - Pettigrew, Roderic I.

AU - Finet, Gérard

PY - 2021/1/1

Y1 - 2021/1/1

N2 - This chapter focuses on physiological intraparietal stress distribution in vulnerable atherosclerotic plaques (VPs) and its potential for identifying VPs at high risk of rupture. Although several clinical and biomechanical studies have identified plaque morphology as a key predictor of vulnerability to rupture, predicting rupture remains imprecise, as the thickness of the fibrous cap is not in itself enough to predict plaque instability. Our hypothesis was that the discrepancy between the precision of our knowledge of the morphological characteristics of a VP and their poor predictive value with respect to rupture is largely due to the complexity of the biomechanical interactions involved. It is essential to understand how the VP’s anatomical and mechanical characteristics interact during the growth process, increasing our fundamental knowledge of VP instability, while providing a more accurate evaluation of the risk of rupture. This chapter presents and discusses such biomechanical interactions.

AB - This chapter focuses on physiological intraparietal stress distribution in vulnerable atherosclerotic plaques (VPs) and its potential for identifying VPs at high risk of rupture. Although several clinical and biomechanical studies have identified plaque morphology as a key predictor of vulnerability to rupture, predicting rupture remains imprecise, as the thickness of the fibrous cap is not in itself enough to predict plaque instability. Our hypothesis was that the discrepancy between the precision of our knowledge of the morphological characteristics of a VP and their poor predictive value with respect to rupture is largely due to the complexity of the biomechanical interactions involved. It is essential to understand how the VP’s anatomical and mechanical characteristics interact during the growth process, increasing our fundamental knowledge of VP instability, while providing a more accurate evaluation of the risk of rupture. This chapter presents and discusses such biomechanical interactions.

KW - Peak cap stress

KW - Plaque composition

KW - Plaque remodelling

KW - Residual stresses

KW - Risk of rupture

KW - Vulnerable plaque

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DO - 10.1016/B978-0-12-817195-0.00016-0

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AN - SCOPUS:85129804378

SN - 9780128171967

SP - 361

EP - 380

BT - Biomechanics of Coronary Atherosclerotic Plaque

PB - Elsevier

ER -

Emergent biomechanical factors predicting vulnerable coronary atherosclerotic plaque rupture

Abstract

Keywords

ASJC Scopus subject areas

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