Abnormal haemodynamic response to exercise in heart failure with preserved ejection fraction

Bhella, Paul S.; Prasad, Anand; Heinicke, Katja; Hastings, Jeff; Arbab‐Zadeh, Armin; Adams‐Huet, Beverley; Pacini, Eric; Shibata, Shigeki; Palmer, M. Dean; Newcomer, Bradley R.; Levine, Benjamin D.

doi:10.1093/eurjhf/hfr133

Cited by 207 publications

(234 citation statements)

References 33 publications

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“…83 In a different cohort, Bhella et al found that while QC reserve was depressed in HFpEF (as previously demonstrated by other groups), when normalized to VO2, HFpEF patients displayed an overly exuberant increase in QC, with markedly impaired AVO2diff reserve. 20 Those authors proposed the provocative conclusion that exercise capacity in HFpEF is limited by premature skeletal muscle fatigue and/or by metabolic/neural signals originating in muscle that stimulate excessive QC responses to exercise.…”

Section: Heart Rate and Rhythmmentioning

confidence: 99%

Mechanisms of Exercise Intolerance in Heart Failure With Preserved Ejection Fraction

Borlaug

2014

Circ J

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Approximately half of patients with heart failure (HF) have a preserved ejection fraction (HFpEF), and with the changing age and comorbidity characteristics in the adult population, this number is growing rapidly. The defining symptom of HFpEF is exercise intolerance, but the specific mechanisms causing this common symptom remain debated and inadequately understood. Although diastolic dysfunction was previously considered to be the sole contributor to exercise limitation, recent studies have identified the importance of ventricular systolic, chronotropic, vascular, endothelial and peripheral factors that all contribute in a complex and highly integrated fashion to produce the signs and symptoms of HF. This review will explore the mechanisms underlying objective and subjective exercise intolerance in patients with HFpEF. (Circ J 2014; 78: 20 -32)

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Section: Heart Rate and Rhythmmentioning

confidence: 99%

Mechanisms of Exercise Intolerance in Heart Failure With Preserved Ejection Fraction

Borlaug

2014

Circ J

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“…The primary symptom in patients with chronic HFPEF is severe exercise intolerance, measured objectively as decreased peak exercise O 2 uptake (peak V O 2 ) (2,3,5,26,30,34,35,41), and this is associated with a reduced quality of life. Despite its importance, the pathophysiology of exercise intolerance in HFPEF is not well understood.Several lines of evidence suggest that in older HFPEF patients, noncardiac factors may contribute to reduced peak V O 2 and may be major contributors to the improvement in peak V O 2 after endurance exercise training (2,5,23,24,26,36,47,54). It is known that aging results in alterations in skeletal muscle, including a reduction in the relative number of type II fibers (40) and in capillary density (9), and that these are associated with a decline in physical performance (51).…”

mentioning

confidence: 99%

“…Several lines of evidence suggest that in older HFPEF patients, noncardiac factors may contribute to reduced peak V O 2 and may be major contributors to the improvement in peak V O 2 after endurance exercise training (2,5,23,24,26,36,47,54). It is known that aging results in alterations in skeletal muscle, including a reduction in the relative number of type II fibers (40) and in capillary density (9), and that these are associated with a decline in physical performance (51).…”

mentioning

confidence: 99%

Skeletal muscle abnormalities and exercise intolerance in older patients with heart failure and preserved ejection fraction

Kitzman

Nicklas

Kraus

et al. 2014

American Journal of Physiology-Heart and Circulatory Physiology

265

229

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Kitzman DW, Nicklas B, Kraus WE, Lyles MF, Eggebeen J, Morgan TM, Haykowsky M. Skeletal muscle abnormalities and exercise intolerance in older patients with heart failure and preserved ejection fraction. Am J Physiol Heart Circ Physiol 306: H1364-H1370, 2014. First published March 21, 2014 doi:10.1152/ajpheart.00004.2014.-Heart failure (HF) with preserved ejection fraction (HFPEF) is the most common form of HF in older persons. The primary chronic symptom in HFPEF is severe exercise intolerance, and its pathophysiology is poorly understood. To determine whether skeletal muscle abnormalities contribute to their severely reduced peak exercise O2 consumption (V O2), we examined 22 older HFPEF patients (70 Ϯ 7 yr) compared with 43 age-matched healthy control (HC) subjects using needle biopsy of the vastus lateralis muscle and cardiopulmonary exercise testing to assess muscle fiber type distribution and capillarity and peak V O2. In HFPEF versus HC patients, peak V O2 (14.7 Ϯ 2.1 vs. 22.9 Ϯ 6.6 ml·kg Ϫ1 · min Ϫ1 , P Ͻ 0.001) and 6-min walk distance (454 Ϯ 72 vs. 573 Ϯ 71 m, P Ͻ 0.001) were reduced. In HFPEF versus HC patients, the percentage of type I fibers (39.0 Ϯ 11.4% vs. 53.7 Ϯ 12.4%, P Ͻ 0.001), type I-to-type II fiber ratio (0.72 Ϯ 0.39 vs. 1.36 Ϯ 0.85, P ϭ 0.001), and capillary-to-fiber ratio (1.35 Ϯ 0.32 vs. 2.53 Ϯ 1.37, P ϭ 0.006) were reduced, whereas the percentage of type II fibers was greater (61 Ϯ 11.4% vs. 46.3 Ϯ 12.4%, P Ͻ 0.001). In univariate analyses, the percentage of type I fibers (r ϭ 0.39, P ϭ 0.003), type I-to-type II fiber ratio (r ϭ 0.33, P ϭ 0.02), and capillary-to-fiber ratio (r ϭ 0.59, P Ͻ 0.0001) were positively related to peak V O2. In multivariate analyses, type I fibers and the capillary-to-fiber ratio remained significantly related to peak V O2. We conclude that older HFPEF patients have significant abnormalities in skeletal muscle, characterized by a shift in muscle fiber type distribution with reduced type I oxidative muscle fibers and a reduced capillary-to-fiber ratio, and these may contribute to their severe exercise intolerance. This suggests potential new therapeutic targets in this difficult to treat disorder. heart failure; exercise; aging APPROXIMATELY 50% OF HEART FAILURE (HF) patients living in the community have preserved left ventricular (LV) ejection fraction (HFPEF) (33,52,68). HFPEF is nearly exclusively a disorder of older persons and is most common in women. The primary symptom in patients with chronic HFPEF is severe exercise intolerance, measured objectively as decreased peak exercise O 2 uptake (peak V O 2 ) (2,3,5,26,30,34,35,41), and this is associated with a reduced quality of life. Despite its importance, the pathophysiology of exercise intolerance in HFPEF is not well understood.Several lines of evidence suggest that in older HFPEF patients, noncardiac factors may contribute to reduced peak V O 2 and may be major contributors to the improvement in peak V O 2 after endurance exercise training (2,5,23,24,26,36,47,54). It is known that aging results in alter...

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“…The usefulness of the measurement of LV longitudinal systolic function was confirmed by Wenzelburger et al 36 who found a significantly lower mitral annular plane systolic excursion (MAPSE) at rest and mainly during exercise in 62 subjects with HFNEF compared to 36 control subjects. In HFNEF patients, other authors found significantly higher exercise pulmonary vascular resistance index 37 , systemic vascular resistance index 37 , lower exercise stroke volume index and cardiac index 37,38 , greater arterial stiffening 39,40 , and reduced arteriovenous oxygen difference 41,42 . In summary, despite many new potentially applicable diagnostic parameters or disturbances associated with exercise HFNEF, none have been sufficiently validated to diagnose exercise HFNEF.…”

Section: Other Hemodynamic and Functional Abnormalities With Potentiamentioning

confidence: 93%

Can we diagnose isolated, exercise-induced heart failure with normal ejection fraction?

Meluzı́n¹,

Gregorová²,

Špinarová³

et al. 2015

BIOMED PAP

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Background. A significant proportion of patients with exertional dyspnea require exercise to diagnose heart failure with normal ejection fraction (HFNEF). Methods and Results. In this review article, we evaluate current data on the prevalence, clinical significance and specifically the establishment of a diagnosis of isolated, exercise-induced HFNEF. Despite the unquestioned clinical importance and high prevalence of exercise-induced HFNEF, there are limited and conflicting data on making a diagnosis of exercise-induced HFNEF. This mostly relies on the evidence of exercise-induced elevation in left ventricular filling pressure (LVFP). At present, there is no agreement on the ability of exercise echocardiographic parameteres to predict exercise-induced LVFP elevation. In addition, even invasively measured exercise LVFP faces the problem of defining normal exercise LVFP values. More data and probably new diagnostic approaches are necessary to reliably diagnose exercise HFNEF. Conclusions. There are conflicting results and significant problems associated with the diagnosis of exercise HFNEF. This review hopefully will encourage further research in this difficult but clinically important area of heart failure.

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Abnormal haemodynamic response to exercise in heart failure with preserved ejection fraction

Cited by 207 publications

References 33 publications

Mechanisms of Exercise Intolerance in Heart Failure With Preserved Ejection Fraction

Mechanisms of Exercise Intolerance in Heart Failure With Preserved Ejection Fraction

Skeletal muscle abnormalities and exercise intolerance in older patients with heart failure and preserved ejection fraction

Can we diagnose isolated, exercise-induced heart failure with normal ejection fraction?

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