An exploratory analysis of the competing effects of aggressive decongestion and high-dose loop diuretic therapy in the DOSE trial.

Pubmed ID: 28392080

Pubmed Central ID: PMC5471358

Journal: International journal of cardiology

Publication Date: Aug. 15, 2017

MeSH Terms: Humans, Male, Female, Aged, Aged, 80 and over, Middle Aged, Heart Failure, Treatment Outcome, Follow-Up Studies, Double-Blind Method, Infusions, Intravenous, Patient Readmission, Furosemide, Dose-Response Relationship, Drug, Sodium Potassium Chloride Symporter Inhibitors

Grants: K23 HL114868, L30 HL115790, K23 HL128933, K23 DK097201, UL1 TR001863

Authors: Testani JM, Coca SG, Brisco MA, Hanberg JS, Wilson FP, Ahmad T, Tang WHW

Cite As: Hanberg JS, Tang WHW, Wilson FP, Coca SG, Ahmad T, Brisco MA, Testani JM. An exploratory analysis of the competing effects of aggressive decongestion and high-dose loop diuretic therapy in the DOSE trial. Int J Cardiol 2017 Aug 15;241:277-282. Epub 2017 Mar 27.

Studies:

Abstract

BACKGROUND: Effective decongestion of heart failure patients predicts improved outcomes, but high dose loop diuretics (HDLD) used to achieve diuresis predict adverse outcomes. In the DOSE trial, randomization to a HDLD intensification strategy (HDLD-strategy) improved diuresis but not outcomes. Our objective was to determine if potential beneficial effects of more aggressive decongestion may have been offset by adverse effects of the HDLD used to achieve diuresis. METHODS AND RESULTS: A post hoc analysis of the DOSE trial (n=308) was conducted to determine the influence of post-randomization diuretic dose and fluid output on the rate of death, rehospitalization or emergency department visitation associated with the HDLD-strategy. Net fluid output was used as a surrogate for beneficial decongestive effects and cumulative loop diuretic dose for the dose-related adverse effects of the HDLD-strategy. Randomization to the HDLD-strategy resulted in increased fluid output, even after adjusting for cumulative diuretic dose (p=0.006). Unadjusted, the HDLD-strategy did not improve outcomes (p=0.28). However, following adjustment for cumulative diuretic dose, significant benefit emerged (HR=0.64, 95% CI 0.43-0.95, p=0.028). Adjusting for net fluid balance eliminated the benefit (HR=0.95, 95% CI 0.67-1.4, p=0.79). CONCLUSIONS: A clinically meaningful benefit from a randomized aggressive decongestion strategy became apparent after accounting for the quantity of loop diuretic administered. Adjusting for the diuresis resulting from this strategy eliminated the benefit. These hypothesis-generating observations may suggest a role for aggressive decongestion in improved outcomes.