Association between speckle tracking echocardiography and pressure-volume loop derived parameters at increasing levels of myocardial damage in a porcine model of acute cardiogenic shock

Abstract

Abstract Background Echocardiography is a diagnostic cornerstone in acute cardiovascular care. However, the relationship between speckle tracking assessed global longitudinal strain (LS) and Doppler-based echocardiography with basic physiological markers of cardiac function derived from pressure-volume loops remains poorly elucidated, especially with increasing levels of myocardial damage. Objectives We aimed to describe the association between LS and Doppler-based echocardiography and direct measurements of central hemodynamic parameters from conductance catheter-based pressure-volume loops in an animal model with increasing left ventricular (LV) dysfunction. Methods Twelve Danish landrace pigs weighing 75-80 kg were used. All instrumentations were performed percutaneously, including placement of a conductance catheter in the LV. Progressive LV dysfunction was induced by stepwise embolization trough the left main coronary artery every three minutes until a 50% reduction in cardiac output or mixed venous saturation, compared to baseline, or a mixed venous saturation <30%. Echocardiography was performed through a subxiphoid midline incision, and was done at baseline and 90 seconds after each injection. Results With progressive LV dysfunction, mean cardiac output decreased from 5.6 l/min (SD: 0.9) to 2.1 l/min (SD: 0.9) and mean mixed venous saturation deteriorated from 61.1%(SD: 7.9) to 35.3% (SD: 6.1). Mean LS and LV outflow tract velocity time integral (LVOT VTI) declined from -13.8% (SD 3.0) to -6.1% (SD: 2.0) and 16.9 cm (SD: 2.6) to 7.8 cm (SD: 1.8), respectively (Figure 1). LS and LVOT VTI showed the strongest correlation to stroke work in unadjusted univariate regression (r2=0.53 and r2=0.49, respectively. p<0.01 for both). LS correlated significantly, but modest, with stroke volume (r2=0.46, p<0.01), end-systolic elastance (r2=0.32, p<0.01), systolic blood pressure (r2=0.37, p<0.01), ventriculo-arterial coupling(r2=0.34, p<0.01), and arterial elastance (r2=0.23, p<0.01) (Figure 2). In a multivariate regression analysis, LS showed significant correlation with stroke work, systolic blood pressure, and end-diastolic wall stress (r2=0.60, p<0.01). Conclusion In an animal model of acute progressive LV dysfunction, echocardiographic and conductance catheter-based measurements changed significantly. LS and LVOT VTI displayed the earliest and the largest alterations with increased myocardial damage and LS showed moderate correlations with contractility, arterial elastance and ventriculo-arterial coupling. This indicates that LS is a marker of overall ventricular performance.Echocardiographic changes from baselineScatter plot of LS and hemodynamics