Heart failure classifications via non‐invasive pressure volume loops from echocardiography

Liu, Xiaoli; Chen, Xu; Xia, Shaoyan; Yang, Feifei; Zhu, Haogang; He, Kunlun

doi:10.1111/echo.15696

Echocardiography

2023

DOI: 10.1111/echo.15696

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Heart failure classifications via non‐invasive pressure volume loops from echocardiography

Xiaoli Liu,

Xu Chen,

Shaoyan Xia

et al.

Abstract: BackgroundLeft ventricular pressure‐volume (LV‐PV) loops provide comprehensive characterization of cardiovascular system in both health and disease, which are the essential element of the hemodynamic evaluation of heart failure (HF). This study attempts to achieve more detailed HF classifications by non‐invasive LV‐PV loops from echocardiography and analyzes contribution of parameters to HF classifications.MethodsFirstly, non‐invasive PV loops are established by time‐varying elastance model where LV volume cur… Show more

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Guidelines for assessing ventricular pressure-volume relationships in rodents

Wearing,

Chesler,

Colebank

et al. 2025

American Journal of Physiology-Heart and Circulatory Physiology

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Ventricular catheterization with a pressure-volume (PV) catheter is the gold-standard method for assessing in vivo cardiac function in animal studies, providing valuable ‘load-independent’ indices of systolic and diastolic heart performance. PV studies are commonly performed to elucidate mechanistic insights into cardiovascular disease using surgical and genetically engineered rat and mouse models, but there is considerable heterogeneity in how these studies are performed. Wide variation in protocol design, volume calibration, anesthesia, manipulation of cardiac loading conditions and how load-independent indices of cardiac function are derived, as well as in data analysis and reporting, is constraining reliability and reproducibility in the field. The purpose of this manuscript is to combine our collective expertise in performing open- and closed-chest left and right ventricle PV studies in rodents to provide consensus guidelines on how to perform, analyze and interpret these studies using either conductance or admittance PV catheters. We first review recent methodological reporting in rodent PV studies in this journal, and discuss important details required to improve reproducibility within and across PV studies. We then recommend steps to obtain high-quality PV data, from volume calibration to choice of anesthetic agent and acquiring load-independent indices of both systolic and diastolic function. We also consider between- and within-animal variation and recommend how to perform data analysis and visualization. We hope that this consensus paper guides those performing PV studies in rodents and helps align the field with best practices in surgical/analytical methodologies and reporting, facilitating better reliability and reproducibility in the PV field.

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Guidelines for assessing ventricular pressure-volume relationships in rodents

Wearing,

Chesler,

Colebank

et al. 2025

American Journal of Physiology-Heart and Circulatory Physiology

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Heart failure classifications via non‐invasive pressure volume loops from echocardiography

Cited by 1 publication

References 54 publications

Guidelines for assessing ventricular pressure-volume relationships in rodents

Guidelines for assessing ventricular pressure-volume relationships in rodents

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