OBJECTIVES: The goal of this study was to develop and validate a method to estimate left ventricular end-systolic elastance (E(es)) in humans from noninvasive single-beat parameters. BACKGROUND: Left ventricular end-systolic elastance is a major determinant of cardiac systolic function and ventricular-arterial interaction. However, its use in heart failure assessment and management is limited by lack of a simple means to measure it noninvasively. This study presents a new noninvasive method and validates it against invasively measured E(es). METHODS: Left ventricular end-systolic elastance was calculated by a modified single-beat method employing systolic (P(s)) and diastolic (P(d)) arm-cuff pressures, echo-Doppler stroke volume (SV), echo-derived ejection fraction (EF) and an estimated normalized ventricular elastance at arterial end-diastole (E(Nd)): E(es(sb)) = [P(d) - (E(Nd(est)) x P(s) x 0.9)[/(E(Nd(est)) x SV). The E(Nd) was estimated from a group-averaged value adjusted for individual contractile/loading effects; E(es(sb)) estimates were compared with invasively measured values in 43 patients with varying cardiovascular disorders, with additional data recorded after inotropic stimulation (n = 18, dobutamine 5 to 10 microg/kg per min). Investigators performing noninvasive analysis were blinded to the invasive results. RESULTS: Combined baseline and dobutamine-stimulated E(es) ranged 0.4 to 8.4 mm Hg/ml and was well predicted by E(es(sb)) over the full range: E(es) = 0.86 x E(es(sb)) + 0.40 (r = 0.91, SEE = 0.64, p < 0.00001, n = 72). Absolute change in E(es(sb)) before and after dobutamine also correlated well with invasive measures: E(es(sb)): DeltaE(es) = 0.86 x DeltaE(es(sb)) + 0.67 (r = 0.88, p < 0.00001). Repeated measures of E(es(sb)) over two months in a separate group of patients (n = 7) yielded a coefficient of variation of 20.3 +/- 6%. CONCLUSIONS: The E(es) can be reliably estimated from simple noninvasive measurements. This approach should broaden the clinical applicability of this useful parameter for assessing systolic function, therapeutic response and ventricular-arterial interaction.
OBJECTIVES: The goal of this study was to develop and validate a method to estimate left ventricular end-systolic elastance (E(es)) in humans from noninvasive single-beat parameters. BACKGROUND: Left ventricular end-systolic elastance is a major determinant of cardiac systolic function and ventricular-arterial interaction. However, its use in heart failure assessment and management is limited by lack of a simple means to measure it noninvasively. This study presents a new noninvasive method and validates it against invasively measured E(es). METHODS: Left ventricular end-systolic elastance was calculated by a modified single-beat method employing systolic (P(s)) and diastolic (P(d)) arm-cuff pressures, echo-Doppler stroke volume (SV), echo-derived ejection fraction (EF) and an estimated normalized ventricular elastance at arterial end-diastole (E(Nd)): E(es(sb)) = [P(d) - (E(Nd(est)) x P(s) x 0.9)[/(E(Nd(est)) x SV). The E(Nd) was estimated from a group-averaged value adjusted for individual contractile/loading effects; E(es(sb)) estimates were compared with invasively measured values in 43 patients with varying cardiovascular disorders, with additional data recorded after inotropic stimulation (n = 18, dobutamine 5 to 10 microg/kg per min). Investigators performing noninvasive analysis were blinded to the invasive results. RESULTS: Combined baseline and dobutamine-stimulated E(es) ranged 0.4 to 8.4 mm Hg/ml and was well predicted by E(es(sb)) over the full range: E(es) = 0.86 x E(es(sb)) + 0.40 (r = 0.91, SEE = 0.64, p < 0.00001, n = 72). Absolute change in E(es(sb)) before and after dobutamine also correlated well with invasive measures: E(es(sb)): DeltaE(es) = 0.86 x DeltaE(es(sb)) + 0.67 (r = 0.88, p < 0.00001). Repeated measures of E(es(sb)) over two months in a separate group of patients (n = 7) yielded a coefficient of variation of 20.3 +/- 6%. CONCLUSIONS: The E(es) can be reliably estimated from simple noninvasive measurements. This approach should broaden the clinical applicability of this useful parameter for assessing systolic function, therapeutic response and ventricular-arterial interaction.
Authors: Naoki Fujimoto; Jeffrey L Hastings; Paul S Bhella; Shigeki Shibata; Nainesh K Gandhi; Graeme Carrick-Ranson; Dean Palmer; Benjamin D Levine Journal: J Physiol Date: 2012-02-13 Impact factor: 5.182
Authors: Paul D Chantler; Vojtech Melenovsky; Steven P Schulman; Gary Gerstenblith; Lewis C Becker; Luigi Ferrucci; Jerome L Fleg; Edward G Lakatta; Samer S Najjar Journal: Am J Physiol Heart Circ Physiol Date: 2011-10-14 Impact factor: 4.733
Authors: Graeme Carrick-Ranson; Jeffrey L Hastings; Paul S Bhella; Shigeki Shibata; Naoki Fujimoto; M Dean Palmer; Kara Boyd; Benjamin D Levine Journal: Am J Physiol Heart Circ Physiol Date: 2012-06-01 Impact factor: 4.733
Authors: Rebecca M Kappus; Sushant M Ranadive; Huimin Yan; Abbi D Lane; Marc D Cook; Grenita Hall; I Shevon Harvey; Kenneth R Wilund; Jeffrey A Woods; Bo Fernhall Journal: J Sci Med Sport Date: 2012-06-20 Impact factor: 4.319
Authors: Andrea Sonaglioni; Gian Luigi Nicolosi; Elisabetta Rigamonti; Michele Lombardo Journal: Int J Cardiovasc Imaging Date: 2021-02-05 Impact factor: 2.357
Authors: Erin J Howden; Satyam Sarma; Justin S Lawley; Mildred Opondo; William Cornwell; Douglas Stoller; Marcus A Urey; Beverley Adams-Huet; Benjamin D Levine Journal: Circulation Date: 2018-01-08 Impact factor: 29.690
Authors: Yoshiyuki Okada; Shigeki Shibata; Naoki Fujimoto; Stuart A Best; Benjamin D Levine; Qi Fu Journal: Am J Physiol Regul Integr Comp Physiol Date: 2017-07-19 Impact factor: 3.619
Authors: Amil M Shah; Susan Cheng; Hicham Skali; Justina Wu; Judy R Mangion; Dalane Kitzman; Kunihiro Matsushita; Suma Konety; Kenneth R Butler; Ervin R Fox; Nakela Cook; Hanyu Ni; Josef Coresh; Thomas H Mosley; Gerardo Heiss; Aaron R Folsom; Scott D Solomon Journal: Circ Cardiovasc Imaging Date: 2013-11-08 Impact factor: 7.792
Authors: Paul D Chantler; Vojtech Melenovsky; Steven P Schulman; Gary Gerstenblith; Lewis C Becker; Luigi Ferrucci; Jerome L Fleg; Edward G Lakatta; Samer S Najjar Journal: Am J Physiol Heart Circ Physiol Date: 2008-05-02 Impact factor: 4.733