Cardiac and aortic characteristics are crucial for cardiovascular disease detection. However, noninvasive estimation of aortic hemodynamics and cardiac contractility is still challenging. This paper investigated the potential of estimating aortic systolic pressure (aSBP), cardiac output (CO), and end-systolic elastance (E-es) from cuff-pressure and pulse wave velocity (PWV) using regression analysis. The importance of incorporating ejection fraction (EF) as additional input for estimating E-es was also assessed. The models, including Random Forest, Support Vector Regressor, Ridge, Gradient Boosting, were trained/validated using synthetic data (n = 4,018) from an in-silico model. When cuff-pressure and PWV were used as inputs, the normalized...
Objective: Estimators to accurately monitor ventricular relaxation, cardiac contractility and cardia...
BACKGROUND: Pressure-volume (PV) loops provide a wealth of information on cardiac function but are n...
Central blood pressure (cBP) is a highly prognostic cardiovascular (CV) risk factor whose accurate, ...
Although left ventricular end-systolic elastance (E-es) serves as a major index of cardiac contracti...
Accurate assessment of the left ventricular (LV) systolic function is indispensable in the clinic. H...
In-vivo assessment of aortic characteristic impedance (Zao) and total arterial compliance (CT) has b...
Goal: We introduce a novel approach to estimate cardiac output (CO) and central systolic blood press...
International audienceThis paper proposes a model-based estimation of left ventricular (LV) pressure...
Background: Cardiac elastances are highly invasive to measure directly, but are clinically useful du...
International audienceThe end-systolic elastance $(Ees)$-the slope of the end-systolic pressure-volu...
Recent developments in cardiovascular modelling allow us to simulate blood flow in an entire human b...
available at the end of the article Background: Cardiac elastances are highly invasive to measure di...
Recent developments in cardiovascular modelling allow us to simulate blood flow in an entire human b...
International audienceEnd-systolic left ventricular (LV) elastance (Ees) has been previously calcula...
Background: Automated echocardiographic measures of left ventricular (LV) cavity area are closely co...
Objective: Estimators to accurately monitor ventricular relaxation, cardiac contractility and cardia...
BACKGROUND: Pressure-volume (PV) loops provide a wealth of information on cardiac function but are n...
Central blood pressure (cBP) is a highly prognostic cardiovascular (CV) risk factor whose accurate, ...
Although left ventricular end-systolic elastance (E-es) serves as a major index of cardiac contracti...
Accurate assessment of the left ventricular (LV) systolic function is indispensable in the clinic. H...
In-vivo assessment of aortic characteristic impedance (Zao) and total arterial compliance (CT) has b...
Goal: We introduce a novel approach to estimate cardiac output (CO) and central systolic blood press...
International audienceThis paper proposes a model-based estimation of left ventricular (LV) pressure...
Background: Cardiac elastances are highly invasive to measure directly, but are clinically useful du...
International audienceThe end-systolic elastance $(Ees)$-the slope of the end-systolic pressure-volu...
Recent developments in cardiovascular modelling allow us to simulate blood flow in an entire human b...
available at the end of the article Background: Cardiac elastances are highly invasive to measure di...
Recent developments in cardiovascular modelling allow us to simulate blood flow in an entire human b...
International audienceEnd-systolic left ventricular (LV) elastance (Ees) has been previously calcula...
Background: Automated echocardiographic measures of left ventricular (LV) cavity area are closely co...
Objective: Estimators to accurately monitor ventricular relaxation, cardiac contractility and cardia...
BACKGROUND: Pressure-volume (PV) loops provide a wealth of information on cardiac function but are n...
Central blood pressure (cBP) is a highly prognostic cardiovascular (CV) risk factor whose accurate, ...