Prediction of Cardiovascular Events by Pulse Waveform Parameters: Analysis of CARTaGENE

Louis‐Charles Desbiens; Catherine Fortier; Annie‐Claire Nadeau‐Fredette; François Madore; Bernhard Hametner; Siegfried Wassertheurer; Mohsen Agharazii; Rémi Goupil

doi:10.1161/JAHA.122.026603

Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease (Sep 2022)

Prediction of Cardiovascular Events by Pulse Waveform Parameters: Analysis of CARTaGENE

Louis‐Charles Desbiens,
Catherine Fortier,
Annie‐Claire Nadeau‐Fredette,
François Madore,
Bernhard Hametner,
Siegfried Wassertheurer,
Mohsen Agharazii,
Rémi Goupil

Affiliations

Louis‐Charles Desbiens: Department of Medicine Université de Montréal Montreal Canada
Catherine Fortier: Department of Medicine Université de Montréal Montreal Canada
Annie‐Claire Nadeau‐Fredette: Department of Medicine Université de Montréal Montreal Canada
François Madore: Department of Medicine Université de Montréal Montreal Canada
Bernhard Hametner: AIT Austrian Institute of Technology Vienna Austria
Siegfried Wassertheurer: AIT Austrian Institute of Technology Vienna Austria
Mohsen Agharazii: Department of Medicine Université Laval Quebec City Canada
Rémi Goupil: Department of Medicine Université de Montréal Montreal Canada

DOI: https://doi.org/10.1161/JAHA.122.026603
Journal volume & issue: Vol. 11, no. 17

Abstract

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Background Waveform parameters provide approximate data about aortic wave reflection. However, their association with cardiovascular events remains controversial and their role in cardiovascular prediction is unknown. Methods and Results We analyzed participants aged between 40 and 69 from the population‐based CARTaGENE cohort. Baseline pulse wave analysis (central pulse pressure, augmentation index) and wave separation analysis (forward pressure, backward pressure, reflection magnitude) parameters were derived from radial artery tonometry. Associations between each parameter and major adverse atherosclerotic events (MACE; cardiovascular death, stroke, myocardial infarction) were obtained using adjusted Cox models. The incremental predictive value of each parameter compared with the 10‐year atherosclerotic cardiovascular disease score alone was assessed using hazard ratios, c‐index differences, continuous net reclassification indexes, and integrated discrimination indexes. From 17 561 eligible patients, 2315 patients had a MACE during a median follow‐up of 10.1 years. Central pulse pressure, forward pressure, and backward pressure, but not augmentation index and reflection magnitude, were significantly associated with MACE after full adjustment. All parameters except forward pressure statistically improved MACE prediction compared with the atherosclerotic cardiovascular disease score alone. The greatest prediction improvement was seen with augmentation index and reflection magnitude but remained small in magnitude. These 2 parameters enhanced predictive performance more strongly in patients with low baseline atherosclerotic cardiovascular disease scores. Up to 5.7% of individuals were reclassified into a different risk stratum by adding waveform parameters to atherosclerotic cardiovascular disease scores. Conclusions Some waveform parameters are independently associated with MACEs in a population‐based cohort. Augmentation index and reflection magnitude slightly improve risk prediction, especially in patients at low cardiovascular risk.

Published in Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease

ISSN: 2047-9980 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the circulatory (Cardiovascular) system
Website: https://www.ahajournals.org/journal/jaha

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