AIMS: Echocardiographic techniques have so far provided suboptimal estimates of myocardial contractility in humans. Longitudinal myocardial motion during the isovolumic contraction (IVC) phase, measured by colour tissue Doppler imaging (TDI), has recently been shown in experimental animal models to reflect the state of myocardial contractility. The aim of the present study was to investigate the relationship between left ventricular (LV) isovolumic contraction velocities (IVCv) using pulsed Doppler tissue imaging (DTI) and global LV contractility as measured during cardiac catheterization. METHODS AND RESULTS: Cardiac catheterization and pulsed DTI were simultaneously performed in 16 consecutive patients (13 males, mean age 55+/-10years) with a variety of cardiac diseases. Relationships between the peak positive IVCv as measured at basal levels of the lateral, septal, anterior and posterior walls and the first derivative of LV pressure (+dP/dt(max)), were investigated. Peak IVCv measurements were obtainable in 81-100% of the four LV wall segments. Statistically significant linear relationships were found between IVCv and +dP/dt(max) at the lateral (r=0.58, P<0.05), septal (r=0.66, P<0.01), anterior (r=0.73, P<0.01) and posterior (r=0.81, P<0.001) segments of the LV. CONCLUSION: IVCv of the basal four LV walls correlates strongly with peak +dP/dt. IVCv is a readily obtainable non-invasive parameter, which correlates with the classical invasive measurement of global LV contractility. It appears likely that there are regional differences in wall motion when DTI is used to determine state of LV contractility.
AIMS: Echocardiographic techniques have so far provided suboptimal estimates of myocardial contractility in humans. Longitudinal myocardial motion during the isovolumic contraction (IVC) phase, measured by colour tissue Doppler imaging (TDI), has recently been shown in experimental animal models to reflect the state of myocardial contractility. The aim of the present study was to investigate the relationship between left ventricular (LV) isovolumic contraction velocities (IVCv) using pulsed Doppler tissue imaging (DTI) and global LV contractility as measured during cardiac catheterization. METHODS AND RESULTS: Cardiac catheterization and pulsed DTI were simultaneously performed in 16 consecutive patients (13 males, mean age 55+/-10years) with a variety of cardiac diseases. Relationships between the peak positive IVCv as measured at basal levels of the lateral, septal, anterior and posterior walls and the first derivative of LV pressure (+dP/dt(max)), were investigated. Peak IVCv measurements were obtainable in 81-100% of the four LV wall segments. Statistically significant linear relationships were found between IVCv and +dP/dt(max) at the lateral (r=0.58, P<0.05), septal (r=0.66, P<0.01), anterior (r=0.73, P<0.01) and posterior (r=0.81, P<0.001) segments of the LV. CONCLUSION:IVCv of the basal four LV walls correlates strongly with peak +dP/dt. IVCv is a readily obtainable non-invasive parameter, which correlates with the classical invasive measurement of global LV contractility. It appears likely that there are regional differences in wall motion when DTI is used to determine state of LV contractility.
Authors: Mabel N Abraham; Alexander P Kelly; Ariel B Brandwein; Tiago D Fernandes; Daniel E Leisman; Matthew D Taylor; Mariana R Brewer; Christine A Capone; Clifford S Deutschman Journal: Shock Date: 2020-08 Impact factor: 3.454
Authors: Alaa Mabrouk Salem Omar; Diana Maria Ronderos Botero; Javier Arreaza Caraballo; Ga Hee Kim; Yeraz Khachatoorian; Jaclyn Kliewer; Mohamed Ahmed Abdel Rahman; Osama Rifaie; Jonathan N Bella; Edgar Argulian; Johanna Contreras Journal: Cardiovasc Ultrasound Date: 2022-07-14 Impact factor: 2.263