Heart Failure Clinical Trial
Official title:
Intensive Versus Conventional Digoxin Use in Patients With Heart Failure: a Randomized Controlled Trial
Digoxin was approved for heart failure treatment in 1998 according to current regulations
made by Food and Drug Administration (FDA), based on the following clinical trials: The
Prospective and Randomized Study of Ventricular Function and Efficacy of Digoxin (PROVED),
Randomized Assessment of Digoxin on Inhibitors of the Angiotensin Converting Enzyme
(RADIANCE) and Digitalis Investigation Group (DIG). Also, it was approved for the control of
ventricular response rate in atrial fibrillation patients.
Several clinical trials with digoxin provided convincing evidence that support the digoxin
use heart failure (HF) treatment of symptomatic patients. PROVED trial was a
placebo-controlled, twelve weeks duration study. This study included patients with decreased
systolic function, sinus rhythm and heart failure stable symptoms, these patients were using
digoxin and diuretics. Patients whom digoxin was removed presented a twice heart failure
worsen, reduction of exercise capacity and also a reduction of left ventricle ejection
fraction, in comparison to patients that kept the digoxin therapy. The study RADIANCE
followed a similar protocol; however the patients used ACE inhibitors besides digoxin and
diuretics. The digoxin removal was associated with a six times worsen of heart failure,
despite the maintenance of ACE inhibitors and diuretics. There was a worsening in the
functional capacity, life quality and in the ejection fraction on the digoxin removal
patients' group.
The benefits of digoxin can be related not only with its hemodynamic effects, but also its
capacity to improve the neuro hormonal profile. Improvements on the neurohormonal profile
and on hemodynamic occur with low doses of digoxin, and the dose increment not always
results in improving effects. In the studies PROVE e RADIANCE the clinical benefits were
similar among patients with low digoxin serum (serum < 1ng/mL) and those with high dose of
digoxin serum. One current post-hoc analysis of DIG study, that included patients with
preserved systolic function or reduced systolic function, suggested a survival benefit for
the patients with < 1,0 ng/mL digoxin serum.
Several studies documented the effectiveness of digoxin to reduce clinically relevant
outcomes in HF patients. These studies showed symptomatic improvement of aerobic capacity
and life quality in patients with symptomatic HF (functional class II-IV). Such benefits
occur independently of basal rhythm or HF aetiology. It is important to highlight that these
studies were performed in a period before the BB utilization in the systolic HF treatment.
On the other hand, on side of DIG study evaluate the digoxin effect versus placebo in
patients with preserved eject. The use of digoxin has no effect in the mortality or in the
hospitalization due to cardiovascular causes. There was a tendency to reduce the
hospitalization due to HF worsening; however there was also an increase tendency of increase
hospitalization due to unstable angina. Currently was documented that digoxin serum levels
above 1,0 ng/dL are associated with high chance of death, in retrospective analysis of SOLVD
and DIG studies. The subgroup that kept the digoxin serum levels between 0,3 and 0,9 ng/mL
had the greater benefit, including less mortality between men. From these findings, it began
recommending low doses of digoxin in order to get this serum levels. Remains the discussion
if the utilization of serum levels as therapeutic guidelines bring any additional benefit.
The PROVED and RADIANCE studies showed the necessity to keep the digoxin use in symptomatic
HF patients, otherwise functional class worsening and increase of hospitalization chance.[2]
However, the long-term effect of digoxin on mortality and hospitalization for heart failure
or other causes is unknown. The use of digoxin increases the intracellular concentration of
calcium ions, increasing the platelet activation and favoring the occurrence of
thromboembolic events. This fact is particularly dangerous because patients with AF have
increased susceptibility to suffer ischemic stroke due to thromboembolic events. Besides,
high numbers of drugs used in the management of patients with HF reduces renal clearance and
supports the elevation of serum digoxin concentration and increased toxicity and mortality
by arrhythmias. (OUYANG et al., 2015) (WHITBECK et al., 2013).
It is worth noting that the DIG study excluded from trial patients with AF, and has carried
out strict control of digoxin serum levels. These two facts taken together may have
collaborated with digoxin action of neutrality on mortality rates. A particular concern is
the fact that elevated digoxin serum levels have been correlated with increased mortality in
multiple patient populations. The AFFIRM study identified association of digoxin use with
all-cause mortality (1.41, 95% CI 1.19-1.67, P<0.001); cardiovascular mortality (1.35, 95%
CI 1.06-1.71, P<0.016); and deaths from arrhythmias (1.61, 95% CI 1,12-2,30,
P<0,009)(WHITBECK et al., 2013). By contrast, the AFFIRM study did not held control of
digoxin serum levels of patients using digoxin. The RIKS-HIA study evaluated outcome after 1
year in 4426 patients with AF and without congestive heart failure using digoxin, and
identified increased overall mortality with a relative risk estimated at 1.42 (95% CI 1.29
to 1 , 56%) when compared to 16,587 control patients. Another study that was performed to
investigate better the effects of digoxin was the TREAT-AF (The Retrospective Evaluation and
Assessment of Therapies in AF) study. This study was a retrospective cohort study of
patients with newly diagnosed AF treated in the U.S. Department of Veterans Affairs (VA)
healthcare system. The TREAT-AF compared data of patients treated with digoxin against
patients non-treated with digoxin. The results showed that digoxin treatment was
significantly associated with death in the multivariate Cox regression model (hazard ratio
[HR]: 1.26, 95% confidence interval [CI]: 1.23 to 1.29, p < 0.001) and after propensity
matching (HR: 1.21, 95% CI: 1.17 to 1.25, p < 0.001). Also the cumulative incidence of death
was higher in the digoxin-treated patients versus the untreated group (p < 0.001). The
TREST-AF outcomes exalted once again the need for further investigation about the digoxin
effects. Observational data have generally come to similar conclusions. In a large study of
2,892 Kaiser patients with newly diagnosed heart failure with reduced ejection fraction
(HFrEF), of whom 22.9% had AF, incident digoxin use was associated with higher mortality
(HR: 1.72; 95% CI: 1,25 to 2.36), but there was no significant difference in the risk of HF
hospitalization (HR: 1.05; 95% CI0.82 to 1.34). The ATRIA-CVRN (Anti-coagulation and Risk
factors in Atrial Fibrillation-Cardiovascular Research Network) study, which was a
propensity score matching analysis of 14,787 Kaiser patients with incident AF and without
HF, found that incident digoxin use was independently associated with higher risk of death
(HR: 1.71; 95% CI: 1.52 to 1.93) and a higher risk of hospitalization (HR: 1.63; 95% CI:
1.56 to 1.71). (ALLEN et al., 2015)
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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