ESC Heart Failure (Oct 2022)

Do adrenergic alpha‐antagonists increase the risk of poor cardiovascular outcomes? A systematic review and meta‐analysis

  • José Pedro Sousa,
  • Diogo Mendonça,
  • Rogério Teixeira,
  • Lino Gonçalves

DOI
https://doi.org/10.1002/ehf2.14012
Journal volume & issue
Vol. 9, no. 5
pp. 2823 – 2839

Abstract

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Abstract Due to concerns regarding neurohormonal activation and fluid retention, adrenergic alpha‐1 receptor antagonists (A1Bs) are generally avoided in the setting of heart disease, namely, symptomatic heart failure (HF) with reduced ejection fraction (HFrEF). However, this contraindication is mainly supported by ancient studies, having recently been challenged by newer ones. We aim to perform a comprehensive meta‐analysis aimed at ascertaining the extent to which A1Bs might influence cardiovascular (CV) outcomes. We systematically searched PubMed, Cochrane Central Register of Controlled Trials and Web of Science for both prospective and retrospective studies, published until 1 December 2020, addressing the impact of A1Bs on both clinical outcomes—namely, acute heart failure (AHF), acute coronary syndrome (ACS), CV and all‐cause mortality—and on CV surrogate measures, specifically left ventricular ejection fraction (LVEF) and exercise tolerance, by means of exercise duration. Both randomized controlled trials (RCTs) and studies including only HF patients were further investigated separately. Study‐specific odds ratios (ORs) and mean differences (MDs) were pooled using traditional meta‐analytic techniques, under a random‐effects model. A record was registered in PROSPERO database, with the code number CRD42020181804. Fifteen RCTs, three non‐randomized prospective and two retrospective studies, encompassing 32 851, 19 287, and 71 600 patients, respectively, were deemed eligible; 62 256 patients were allocated to A1B, on the basis of multiple clinical indications: chronic HF itself [14 studies, with 72 558 patients, including seven studies with 850 HFrEF or HF with mildly reduced ejection fraction (HFmrEF) patients], arterial hypertension (four studies, with 44 184 patients) and low urinary tract symptoms (two studies, with 6996 patients). There were 25 998 AHF events, 1325 ACS episodes, 955 CV deaths and 33 567 all‐cause deaths. When considering only RCTs, A1Bs were, indeed, found to increase AHF risk (OR 1.78, [1.46, 2.16] 95% CI, P < 0.00001, i2 2%), although displaying no significant effect on neither ACS nor CV or all‐cause mortality rates (OR 1.02, [0.91, 1.15] 95% CI, i2 0%; OR 0.95, [0.47, 1.91] 95% CI, i2 17%; OR 1.1, [0.84, 1.43] 95% CI, i2 17%, respectively). Besides, when only HF patients were evaluated, A1Bs revealed themselves neutral towards not only ACS, CV, and all‐cause mortality events (OR 0.49, [0.1, 2.47] 95% CI, i2 0%; OR 0.7, [0.21, 2.31] 95% CI, i2 21%; OR 1.09, [0.53, 2.23] 95% CI, i2 17%, respectively), but also AHF (OR 1.13, [0.66, 1.92] 95% CI, i2 0%). As for HFrEF and HFmrEF, A1Bs were found to exert a similarly inconsequential effect on AHF rates (OR 1.01, [0.5–2.05] 95% CI, i2 6%). Likewise, LVEF was not significantly influenced by A1Bs (MD 1.66, [−2.18, 5.50] 95% CI, i2 58%). Most strikingly, exercise tolerance was higher in those under this drug class (MD 139.16, [65.52, 212.8] 95% CI, P < 0.001, i2 26%). A1Bs do not seem to exert a negative influence on the prognosis of HF—and even of HFrEF—patients, thus contradicting currently held views. These drugs' impact on other major CV outcomes also appear trivial and they may even increment exercise tolerance.

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