System and method for personalization of cardiac hemodynamic digital twin using echocardiogram-based approach

What is claimed is: 1 . A processor implemented method, comprising: receiving, via one or more hardware processors, (i) one or more model parameters specific to a left ventricle from a cardiac hemodynamic model, wherein the one or more model parameters specific to the left ventricle comprises height of the left ventricle (h lv ), one or more active pressure components (a lv ), one or more passive pressure components (b lv ) and one or more compliance parameters C lv , and wherein the cardiac hemodynamic model is driven using an echocardiogram (ECG) data specific to a subject, and (ii) a first set of values corresponding to one or more input parameters from an echo data specific to the subject, wherein the one or more input parameters comprises an end systolic diameter, an end diastole diameter, an end systolic volume and an end diastolic volume specific to the left ventricle; estimating, via the one or more hardware processors, a second set of values corresponding to (i) the height of the left ventricle (h lv ) using the first set of values corresponding to the one or more input parameters, which is represented by an equation— d lv = 6 ⁢ V i 4 ⁢ π ⁢ K lv ⁢ h lv wherein, K lv is a scale factor which is dependent on geometry of the left ventricle, V i refers to a volume at any instance in a cardiac cycle, and wherein the height of the left ventricle h lv is dependent on the volume of the left ventricle V lv at any instance in a cardiac cycle which is represented by V lv = K lv ⁢ 4 3 ⁢ π ⁢ h lv ⁢ d lv 2 2 , and ii) the one or more active pressure components (a lv ) and the one or more passive pressure components (b lv ) using the first set of values corresponding to the one or more input parameters, wherein a cardiac chamber pressure of the left ventricle P lv comprising an active filling pressure phase (a) and a passive pressure phase (p) is expressed as P lv =P lv a+P lv p, and wherein the passive pressure phase (p) for the one or more active pressure components (a lv ) and the one or more passive pressure components (b lv ) is represented by an equation— P lv ⁢ a = E lv ( K lv ⁢ 4 3 ⁢ π ⁢ h lv ⁢ d lv 2 4 ) P lv ⁢ p = a lv ⁢ e ⁢ ( K lv ⁢ b lv ⁢ 2 3 ⁢ π ⁢ h lv ⁢ d lv 2 2 ) - 1 wherein E is an elastance, which is a reciprocal of a compliance function pertaining to the cardiac chamber pressure of the left ventricle; optimizing, via the one or more hardware processors, the estimated second set of values corresponding to the one or more model parameters using a particle swarm optimization (PSO) technique to obtain one or more optimized values, wherein the optimization is performed by comparing the estimated second set of values corresponding to the one or more model parameters with the first set of values corresponding to the one or more input parameters; and selecting, via the one or more hardware processors, at least a subset of the one or more optimized values corresponding to the one or more model parameters for personalization. 2 . A system, comprising: a memory storing instructions; one or more communication interfaces; and one or more hardware processors coupled to the memory via the one or more communication interfaces, wherein the one or more hardware processors are configured by the instructions to: receive (i) one or more model parameters specific to a left ventricle from a cardiac hemodynamic model, wherein the one or more model parameters specific to the left ventricle comprises height of the left ventricle (h lv ), one or more active pressure components (a lv ), one or more passive pressure components (b lv ) and one or more compliance parameters C lv , and wherein the cardiac hemodynamic model is driven using an echocardiogram (ECG) data specific to a subject, and (ii) a first set of values corresponding to one or more input parameters from an echo data specific to the subject, wherein the one or more input parameters comprises an end systolic diameter, an end diastole diameter, an end systolic volume and an end diastolic volume specific to the