Inverse problems in reduced order models of cardiovascular haemodynamics: aspects of data assimilation and heart rate variability

Abstract: Inverse problems in cardiovascular modelling have become increasingly important to assess each patient individually. These problems entail estimation of patient-specific model parameters from uncertain measurements acquired in the clinic. In recent years, the method of data assimilation, especially the unscented Kalman filter, has gained popularity to address computational efficiency and uncertainty consideration in such problems. This work highlights and presents solutions to several challenges of this method… Show more

“…where T a0 is a material constant, f (l) represents the sarcomere force-length relationship, g(t a ) models the contraction of the chamber, h(v s ) models sarcomere active viscosity. These dependences are described in earlier works by the authors [8], [11] and are unmodified in this study. On the contrary, some changes are here introduced to better model the passive behaviour of the myocardium.…”

“…A one-fibre model [8]- [11] is used to describe the two heart chambers (single ventricle and single atrium) in single ventricle physiology. In this model, the relationship between pressure in the chamber p, volume of the chamber V , fibre stress σ f , and the myocardial wall volume V w is described as σ f /p = (1 + 3V /V w ).…”

“…where T p0 and c p are sarcomere material constants, and compared to the previous works [8]- [11] the additional term to model viscous effects is 1 + ζ(λ) withλ = dλ/dt and ζ(λ) given as…”

“…The valve model is adopted from previous studies [8], [11] to model regurgitation due to incomplete leaflet closure and prolapse. The pressure drop Δp across a valve is described as a function of flow-rate q as follows…”

A Lumped Parameter Model to Study Atrioventricular Valve Regurgitation in Stage 1 and Changes Across Stage 2 Surgery in Single Ventricle Patients

“…where T a0 is a material constant, f (l) represents the sarcomere force-length relationship, g(t a ) models the contraction of the chamber, h(v s ) models sarcomere active viscosity. These dependences are described in earlier works by the authors [8], [11] and are unmodified in this study. On the contrary, some changes are here introduced to better model the passive behaviour of the myocardium.…”

“…A one-fibre model [8]- [11] is used to describe the two heart chambers (single ventricle and single atrium) in single ventricle physiology. In this model, the relationship between pressure in the chamber p, volume of the chamber V , fibre stress σ f , and the myocardial wall volume V w is described as σ f /p = (1 + 3V /V w ).…”

“…where T p0 and c p are sarcomere material constants, and compared to the previous works [8]- [11] the additional term to model viscous effects is 1 + ζ(λ) withλ = dλ/dt and ζ(λ) given as…”

“…The valve model is adopted from previous studies [8], [11] to model regurgitation due to incomplete leaflet closure and prolapse. The pressure drop Δp across a valve is described as a function of flow-rate q as follows…”

A Lumped Parameter Model to Study Atrioventricular Valve Regurgitation in Stage 1 and Changes Across Stage 2 Surgery in Single Ventricle Patients

“…Moreover, in this study, we opted for a minimum number of elements to minimize the parameters to be calibrated. Additional experimental measurements could allow for construction of a more detailed model (e.g including a capacitance in the aorta and in the vena cava), as proposed in [47] or patients with single-ventricle physiology.…”

Closed-Loop Lumped Parameter Modeling of Hemodynamics During Cirrhogenesis in Rats

Patient‐specific Hemodynamic Simulations: Model Parameterization from Clinical Data to Enable Intervention Planning