Abstract
Exercise intolerance in heart failure arises from multifactorial pathophysiological mechanisms. Hepatokines, liver-synthesized molecules, regulate systemic metabolisms in peripheral tissues. We previously identified the hepatokine fetuin-A as being linked to liver hypoperfusion in heart failure. Here, we investigated the role of fetuin-A in connecting cardiac-hepatic-peripheral interaction. We conducted a prospective study involving 202 consecutive hospitalized patients (mean age, 56.8 years; 76.2% men) with heart failure who underwent cardiopulmonary exercise testing. We measured the serum concentration of fetuin-A by ELISA. Correlation analysis revealed a negative association between fetuin-A levels and the ratio of minimum minute ventilation to carbon dioxide production, its slope, and a tendency toward a positive correlation with peak oxygen uptake. Patients with impaired exercise tolerance exhibited lower fetuin-A levels. During a median follow-up of 1045 days, 18.3% experienced cardiac events, including 4 cardiac deaths and 33 cases of worsening heart failure. Classification and regression tree analysis identified a high-risk subgroup with lower fetuin-A (<24.3 mg/L) and impaired exercise tolerance (peak oxygen uptake<14.2 mL/kg per min). Kaplan-Meier analysis revealed that this subgroup had the highest risk of cardiac events. In a multivariable Cox proportional hazard model, the combination of lower fetuin-A and exercise intolerance was independently associated with increased risks of cardiac events. Reduced circulating fetuin-A levels were associated with exercise intolerance in heart failure patients. Fetuin-A could emerge as a target implicated in exercise capacity connecting cardiac-hepatic-peripheral interaction and as a valuable biomarker for predicting prognosis when combined with peak oxygen uptake.
Published Version
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