1. Hemodynamic Heterogeneity of Reduced Cardiac Reserve Unmasked by Volumetric Exercise Echocardiography
- Author
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Tonino Bombardini, Angela Zagatina, Quirino Ciampi, Rosina Arbucci, Pablo Martin Merlo, Diego M. Lowenstein Haber, Doralisa Morrone, Antonello D'Andrea, Ana Djordjevic-Dikic, Branko Beleslin, Milorad Tesic, Nikola Boskovic, Vojislav Giga, José Luis de Castro e Silva Pretto, Clarissa Borguezan Daros, Miguel Amor, Hugo Mosto, Michael Salamè, Ines Monte, Rodolfo Citro, Iana Simova, Martina Samardjieva, Karina Wierzbowska-Drabik, Jaroslaw D. Kasprzak, Nicola Gaibazzi, Lauro Cortigiani, Maria Chiara Scali, Mauro Pepi, Francesco Antonini-Canterin, Marco A. R. Torres, Michele De Nes, Miodrag Ostojic, Clara Carpeggiani, Tamara Kovačević-Preradović, Jorge Lowenstein, Adelaide M. Arruda-Olson, Patricia A. Pellikka, Eugenio Picano, and on behalf of the Stress Echo 2020 Study Group of the Italian Society of Cardiovascular Imaging
- Subjects
medicine.medical_specialty ,stress echocardiography ,Cardiac index ,030204 cardiovascular system & hematology ,Article ,03 medical and health sciences ,0302 clinical medicine ,Internal medicine ,Stress Echocardiography ,heart rate ,Medicine ,030212 general & internal medicine ,cardiac reserve ,End-systolic volume ,Ejection fraction ,end-systolic volume ,Cardiac reserve ,End-diastolic volume ,Heart rate ,Stress echocardiography ,business.industry ,General Medicine ,Stroke volume ,Preload ,Cardiology ,business ,end-diastolic volume - Abstract
Background: Two-dimensional volumetric exercise stress echocardiography (ESE) provides an integrated view of left ventricular (LV) preload reserve through end-diastolic volume (EDV) and LV contractile reserve (LVCR) through end-systolic volume (ESV) changes. Purpose: To assess the dependence of cardiac reserve upon LVCR, EDV, and heart rate (HR) during ESE. Methods: We prospectively performed semi-supine bicycle or treadmill ESE in 1344 patients (age 59.8 ± 11.4 years, ejection fraction = 63 ± 8%) referred for known or suspected coronary artery disease. All patients had negative ESE by wall motion criteria. EDV and ESV were measured by biplane Simpson rule with 2-dimensional echocardiography. Cardiac index reserve was identified by peak-rest value. LVCR was the stress-rest ratio of force (systolic blood pressure by cuff sphygmomanometer/ESV, abnormal values ≤2.0). Preload reserve was defined by an increase in EDV. Cardiac index was calculated as stroke volume index * HR (by EKG). HR reserve (stress/rest ratio) <, 1.85 identified chronotropic incompetence. Results: Of the 1344 patients, 448 were in the lowest tertile of cardiac index reserve with stress. Of them, 303 (67.6%) achieved HR reserve <, 1.85, 252 (56.3%) had an abnormal LVCR and 341 (76.1%) a reduction of preload reserve, with 446 patients (99.6%) showing ≥1 abnormality. At binary logistic regression analysis, reduced preload reserve (odds ratio [OR]: 5.610, 95% confidence intervals [CI]: 4.025 to 7.821), chronotropic incompetence (OR: 3.923, 95% CI: 2.915 to 5.279), and abnormal LVCR (OR: 1.579, 95% CI: 1.105 to 2.259) were independently associated with lowest tertile of cardiac index reserve at peak stress. Conclusions: Heart rate assessment and volumetric echocardiography during ESE identify the heterogeneity of hemodynamic phenotypes of impaired chronotropic, preload or LVCR underlying a reduced cardiac reserve.
- Published
- 2021