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- Vanessa P M van Empel, Justin Mariani, Barry A Borlaug, and David M Kaye.
- Heart Failure Research Group, Baker IDI Heart and Diabetes Institute, Melbourne, Australia (V.M.E., J.M., D.M.K.) Department of Cardiovascular Medicine, Alfred Hospital, Melbourne, Australia (V.M.E., J.M., D.M.K.) Department of Cardiology, Maastricht University Medical Center, Maastricht, The Netherlands (V.M.E.).
- J Am Heart Assoc. 2014 Dec 1; 3 (6): e001293.
BackgroundHypertension is a frequent risk factor for the development of heart failure with preserved ejection fraction (HFPEF). Progressive extracellular matrix accumulation has been presumed to be the fundamental pathophysiologic mechanism that leads to the transition to impaired diastolic reserve. However, the contribution of other mechanisms affecting active and passive components of diastolic function has not been comprehensively assessed. In this study, we investigated the potential role of impaired myocardial oxygen delivery in the pathophysiology of HFPEF.Methods And ResultsPatients with HFPEF, those with controlled hypertension, and healthy controls underwent simultaneous right-heart catheterization, echocardiography, and paired arterial and coronary sinus blood gas sampling at rest and during supine-cycle ergometry. Despite a lower workload (HFPEF vs control, hypertension: 43±8 versus 114±12, 87±14 W; P<0.001 and P<0.05, respectively), peak exercise pulmonary capillary wedge pressure was markedly higher in HFPEF patients compared with healthy and hypertensive controls (32±2 versus 16±1 and 17±1 mm Hg, both P<0.001). During exercise, the transcardiac oxygen gradient increased significantly in all groups; however, the peak transcardiac oxygen gradient was significantly lower in HFPEF patients (P<0.05). In addition, the left ventricular-work corrected transcardiac oxygen gradient remained significantly lower in HFPEF patients compared with controls (P<0.001).ConclusionThe current study provides unique data suggesting that the abnormal diastolic reserve observed during exertion in HFPEF patients may, in part, be explained by impaired myocardial oxygen delivery due possibly to microvascular dysfunction. Further studies are required to confirm the structural and functional basis of these findings and to investigate the influence of potential therapies on this abnormality.© 2014 The Authors. Published on behalf of the American Heart Association, Inc., by Wiley Blackwell.
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