AI Article Synopsis
- The study investigates the relationship between global longitudinal strain (LS) assessed by speckle tracking and traditional Doppler echocardiography with physiological markers of heart function derived from pressure-volume loops in pigs with left ventricular (LV) dysfunction.
- Twelve female pigs underwent a procedure that induced LV dysfunction, leading to a significant reduction in cardiac output and mixed venous saturation, while their echocardiographic measurements were conducted at various intervals.
- Results showed that as LV dysfunction progressed, both LS and LV outflow tract velocity time integral (VTI) decreased significantly and correlated strongly with stroke work, highlighting their potential as sensitive indicators of myocardial damage in heart dysfunction.
Article Abstract
Background: The relationship between speckle tracking assessed global longitudinal strain (GLS) and Doppler-based echocardiography with basic physiological markers of cardiac function derived from pressure-volume loops is poorly elucidated.
Objective: We aimed to describe the association between LS and Doppler-based echocardiography and direct measurements of central haemodynamic parameters from conductance catheter-based pressure-volume loops in an animal model with increasing left ventricular (LV) dysfunction.
Methods: 12 Danish landrace female pigs (75-80 kg) were used. All instrumentations were performed percutaneously, including the conductance catheter in the LV. Progressive LV dysfunction was induced by embolisation through the left main coronary artery with microspheres every 3 min until a >50% reduction in cardiac output (CO) or mixed venous saturation (SvO), compared with baseline, or SvO <30%. Echocardiography was performed at baseline and 90 s after each injection.
Results: With progressive LV dysfunction, mean CO decreased from 5.6±0.9 L/min to 2.1±0.9 L/min, and mean SvO deteriorated from 61.1±7.9% to 35.3±6.1%. Mean LS and LV outflow tract velocity time integral (LVOT VTI) declined from -13.8±3.0% to -6.1±2.0% and 16.9±2.6 cm to 7.8±1.8 cm, respectively. LS and LVOT VTI showed the strongest correlation to stroke work in unadjusted linear regression (r=0.53 and r=0.49, respectively). LS correlated significantly with stroke volume, end-systolic elastance, systolic blood pressure, ventriculo-arterial coupling and arterial elastance.
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 both correlated strongest with stroke work.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11116883 | PMC |
| http://dx.doi.org/10.1136/openhrt-2023-002512 | DOI Listing |
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