SGLT2 inhibitors reduce the risk of hospitalization for heart failure and cardiovascular death through multiple hemodynamic, inflammatory, and metabolic mechanisms.
What are the mechanisms and applications of SGLT2 inhibitors in patients with heart failure?
This review summarizes the pleiotropic mechanisms—including hemodynamic, inflammatory, and metabolic effects—by which SGLT2 inhibitors improve clinical outcomes across the spectrum of heart failure.
Heart failure (HF) is a common complication or late-stage manifestation of various heart diseases. Numerous risk factors and underlying causes may contribute to the occurrence and progression of HF. The pathophysiological mechanisms of HF are very complicated. Despite accumulating advances in treatment for HF during recent decades, it remains an intractable clinical syndrome with poor outcomes, significantly reducing the quality of life and expectancy of patients, and imposing a heavy economic burden on society and families. Although initially classified as antidiabetic agents, sodium-glucose co-transporter 2 (SGLT2) inhibitors have demonstrated reduced the prevalence of hospitalization for HF, cardiovascular death, and all-cause death in several large-scale randomized controlled clinical trials. These beneficial effects of SGLT-2 inhibitors can be attributed to multiple hemodynamic, inflammatory and metabolic mechanisms, not only reducing the serum glucose level. SGLT2 inhibitors have been used increasingly in treatment for patients with HF with reduced ejection fraction due to their surprising performance in improving the prognosis. In addition, their roles and mechanisms in patients with HF with preserved ejection fraction or acute HF have also attracted attention. In this review article, we discuss the possible mechanisms and applications of SGLT2 inhibitors in HF.
Zeng et al. (Wed,) conducted a review in Heart Failure. SGLT2 inhibitors was evaluated. SGLT2 inhibitors reduce the risk of hospitalization for heart failure and cardiovascular death through multiple hemodynamic, inflammatory, and metabolic mechanisms.
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