The step response of left ventricular pressure to ejection flow: A system oriented approach

Abstract: Left ventricular pressure is dependent on both ventricular volume and ventricular ejection flow. These dependencies are usually expressed by

“…4 is ϳ100% of the total LV volume (near zero volume axis intercept). However, if LV volume is removed suddenly at any time during the heart beat, the volume of elastic distortion is found to be only 18 -20% of the chamber volume (from Tables 1 and 2) and less than this in other studies (5,11,13,16,43). Correspondingly, chamber elastance calculated according to the conventional isochronal formulation is several times smaller than elastance calculated from sudden volume withdrawals (e.g., isochronal elastance at peak systole calculated from the data in Fig.…”

“…There are many models for representing LV function, so many that only a small fraction dealing with global LV pressure-volume relationships will be mentioned here. As described in the introduction, several LV models have been based on the time-varying isochronal elastance concept and its modification with resistance and deactivation elements (2,5,12,15,21,24,29,44,45,52,53,55,58). Others, recognizing the need to build a bridge between global LV properties and underlying contractile mechanisms, have complemented isochronal elastance with muscle contractile phenomena to improve on the model representation (4,37).…”

“…However, by itself, time-varying elastance does not well reproduce instantaneous pressure-volume-flow events throughout ejection and relaxation. Thus many attempts were made to add resistance and deactivation elements to the time-varying elastance core of the model to improve predictive performance (5,12,15,29,44,45,52,53,55,58). Although some improvements were realized, all such models generated predictions with ever-increasing errors as the cycle advanced into late systole and relaxation (7,12).…”

Dynamic left ventricular elastance: a model for integrating cardiac muscle contraction into ventricular pressure-volume relationships

“…4 is ϳ100% of the total LV volume (near zero volume axis intercept). However, if LV volume is removed suddenly at any time during the heart beat, the volume of elastic distortion is found to be only 18 -20% of the chamber volume (from Tables 1 and 2) and less than this in other studies (5,11,13,16,43). Correspondingly, chamber elastance calculated according to the conventional isochronal formulation is several times smaller than elastance calculated from sudden volume withdrawals (e.g., isochronal elastance at peak systole calculated from the data in Fig.…”

“…There are many models for representing LV function, so many that only a small fraction dealing with global LV pressure-volume relationships will be mentioned here. As described in the introduction, several LV models have been based on the time-varying isochronal elastance concept and its modification with resistance and deactivation elements (2,5,12,15,21,24,29,44,45,52,53,55,58). Others, recognizing the need to build a bridge between global LV properties and underlying contractile mechanisms, have complemented isochronal elastance with muscle contractile phenomena to improve on the model representation (4,37).…”

“…However, by itself, time-varying elastance does not well reproduce instantaneous pressure-volume-flow events throughout ejection and relaxation. Thus many attempts were made to add resistance and deactivation elements to the time-varying elastance core of the model to improve predictive performance (5,12,15,29,44,45,52,53,55,58). Although some improvements were realized, all such models generated predictions with ever-increasing errors as the cycle advanced into late systole and relaxation (7,12).…”

Dynamic left ventricular elastance: a model for integrating cardiac muscle contraction into ventricular pressure-volume relationships

Cardiac mechanics: Basic and clinical contemporary research

Left-ventricular dynamic model based on constant ejection flow periods