Lorenzo Airale scite author profile

Lorenzo Airale

5Publications

63Citation Statements Received

155Citation Statements Given

How they've been cited

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157

145

Affiliations

University of Turin, Azienda Ospedaliera Citta' della Salute e della Scienza di Torino, Fondazione Ricerca Molinette

Publications

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Prognostic role of the ascending aorta dilatation in patients with arterial hypertension

Leone¹,

Airale²,

Bernardi³

et al. 2021

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Background: Ascending aorta (ASC) dilatation (AAD) is a common finding in arterial hypertension, affecting about 15% of hypertensive patients. AAD is associated with an increase in cardiac and vascular hypertension-related organ damage, but its prognostic role is unknown. The aim of the study was to evaluate the prognostic value of AAD as predictor of cardiovascular events in essential hypertensive patients.Methods: Recruited patients underwent two-dimensional transthoracic echocardiography from 2007 to 2013 and followed-up for cardiovascular events until November 2018 by phone call and hospital information system check. ASC diameter and AAD were defined using both absolute and scaled definitions. Four hundred and twenty-three hypertensive patients were included in our study.Results: During a median follow-up of 7.4 years (interquartile range 5.6-9.1 years), 52 events were observed. After adjusting for age, sex and BSA, both ASC diameter and AAD definition, according to ARGO-SIIA project, resulted associated with a greater risk of cardiovascular event (both P < 0.010), even after adjusting for major confounders (both P < 0.010). Moreover, we observed that the assessment of ASC improves risk stratification compared with pulse wave velocity alone, and that in absence of AAD, sinus of valsalva dilatation lost any prognostic value (P ¼ 0.262).Conclusions: ASC diameter and AAD are both associated with a greater risk of cardiovascular events. ASC should be assessed to optimize risk stratification in hypertensive patients and its dilatation may be considered as a surrogate for vascular organ damage.

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Introduction to Hemodynamic Forces Analysis: Moving Into the New Frontier of Cardiac Deformation Analysis

Vallelonga

Airale

Tonti

et al. 2021

JAHA

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The potential relevance of blood flow for describing cardiac function has been known for the past 2 decades, but the association of clinical parameters with the complexity of fluid motion is still not well understood. Hemodynamic force (HDF) analysis represents a promising approach for the study of blood flow within the ventricular chambers through the exploration of intraventricular pressure gradients. Previous experimental studies reported the significance of invasively measured cardiac pressure gradients in patients with heart failure. Subsequently, advances in cardiovascular imaging allowed noninvasive assessment of pressure gradients during progression and resolution of ventricular dysfunction and in the setting of resynchronization therapy. The HDF analysis can amplify mechanical abnormalities, detect them earlier compared with conventional ejection fraction and strain analysis, and possibly predict the development of cardiac remodeling. Alterations in HDFs provide the earliest signs of impaired cardiac physiology and can therefore transform the existing paradigm of cardiac function analysis once implemented in routine clinical care. Until recently, the HDF investigation was possible only with contrast‐enhanced echocardiography and magnetic resonance imaging, precluding its widespread clinical use. A mathematical model, based on the first principle of fluid dynamics and validated using 4‐dimensional‐flow‐magnetic resonance imaging, has allowed HDF analysis through routine transthoracic echocardiography, making it more readily accessible for routine clinical use. This article describes the concept of HDF analysis and reviews the existing evidence supporting its application in several clinical settings. Future studies should address the prognostic importance of HDF assessment in asymptomatic patients and its incorporation into clinical decision pathways.

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Supervised and unsupervised learning to define the cardiovascular risk of patients according to an extracellular vesicle molecular signature

Burrello

Vacchi

et al. 2022

Translational Research

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Local transversal aortic strain is impaired in ascending aorta dilatation

Cesareo¹,

Sabia²,

Leone³

et al. 2021

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Left atrial volume indexed for height2 is a new sensitive marker for subclinical cardiac organ damage in female hypertensive patients

Airale¹,

Paini

Ianniello

et al. 2021

Hypertens Res

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Lorenzo Airale

Prognostic role of the ascending aorta dilatation in patients with arterial hypertension

Introduction to Hemodynamic Forces Analysis: Moving Into the New Frontier of Cardiac Deformation Analysis

Supervised and unsupervised learning to define the cardiovascular risk of patients according to an extracellular vesicle molecular signature

Local transversal aortic strain is impaired in ascending aorta dilatation

Left atrial volume indexed for height2 is a new sensitive marker for subclinical cardiac organ damage in female hypertensive patients

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