Open-access Dabigatran and warfarin in nonvalvular atrial fibrillation or atrial flutter in outpatient clinic practice in Brazil

Dabigatrana e varfarina em pacientes com fibrilação atrial não valvar ou flutter em ambulatório especializado no Brasil

ABSTRACT

Objectives:  To compare warfarin and dabigatran for thromboembolic event prevention in patients with nonvalvular atrial fibrillation or atrial flutter.

Methods:  This was a retrospective cohort of participants with nonvalvular atrial fibrillation or atrial flutter using either warfarin or dabigatran in a reference center in Brazil.

Results:  There were 112 patients (mean age 65.5 years), with 55.3% using warfarin. The median duration of follow-up was 1.9 years for warfarin and 1.6 years for dabigatran (p = 0.167). Warfarin patients had a higher median of medical appointments per year (8.3 [6.8-10.4] vs 3.1 [2.3-4.2], p < 0.001) and the frequency of minor bleeding was more than four times higher (17.7% vs 4.0%, p = 0.035). Among patients with prior stroke, those using warfarin had 2.6 times more medical appointments for person-years of follow-up (8.5 vs 3.3). There was no major bleeding or embolic event during follow-up period.

Conclusion:  The dabigatran group had a lower frequency of minor bleeding and number of medical appointments than the warfarin group, without more embolic events or major bleeding.

Keywords: Dabigatran; warfarin; atrial fibrillation; atrial flutter; stroke

RESUMO

Objetivos:  Comparar varfarina e dabigatrana para prevenção de eventos tromboembólicos em pacientes com fibrilação atrial não valvar ou flutter (FA).

Métodos:  Coorte retrospectiva de pacientes com FA em uso de varfarina ou dabigatrana em serviço especializado no Brasil.

Resultados:  Foram avaliados 112 pacientes (média idade 65,5), com 55,3% no grupo varfarina. A mediana do tempo de seguimento foi de 1,9 anos para o grupo varfarina e 1,6 para dabigatrana (p = 0,167). No grupo varfarina houve maior mediana de consultas médicas (CM) por ano (8,3[6,8-10,4] vs. 3,1[2,3-4,2], p < 0,001), com frequência de sangramento menor quatro vezes maior (17,7% vs. 4,0%, p = 0,035). Nos pacientes com acidente vascular cerebral isquêmico prévio, o grupo varfarina teve 2,6 vezes mais CM por pessoas-ano de seguimento (8,5 vs. 3,3). Não houve sangramento maior ou eventos embólicos no período de seguimento.

Conclusão:  Pacientes em uso de dabigatrana tiveram menor número de sangramento menor e CM que aqueles em uso de varfarina, sem aumentar eventos embólicos ou sangramentos maiores.

Palavras-chave: Dabigatrana; varfarina; fibrilação atrial; flutter atrial; acidente vascular cerebral

Atrial fibrillation and atrial flutter are common cardiac arrhythmias that increase the risk of thromboembolic events. Preventive therapy can be accomplished through oral anticoagulants with vitamin K inhibitors, such as warfarin, the main drug used for this purpose. Warfarin is difficult to manage because it has multiple food and medication interactions, a considerable frequency of interruptions, requires frequent laboratory monitoring and it is not uncommon to find the international normalized ratio (INR) outside the therapeutic range1.

In the last years, the introduction of new oral anticoagulants has marked a major change in therapy for patients with nonvalvular atrial fibrillation, providing an alternative to warfarin for prevention of arterial thromboembolism (ischemic stroke or systemic embolism). Large multicenter randomized controlled trials have demonstrated dabigatran etexilate2, rivaroxaban3 and apixaban4 to be noninferior, or even superior, to warfarin in stroke and systemic embolism prevention, with reduced bleeding rates.

Despite the RE-LY trial results2, to date there are a lack of data about dabigatran etexilate use in the Brazilian population for prevention of thromboembolic events, which makes the conduction of national studies in this area essential. This study aimed to compare these drugs for thromboembolic event prevention in patients with atrial flutter or nonvalvular atrial fibrillation.

METHODS

This was a retrospective cohort study of participants using dabigatran etexilate or warfarin followed in the outpatient clinics of Cerebrovascular Diseases and Cardiology at the Complexo Hospitalar Universitário Professor Edgard Santos in Salvador, Brazil, from January 2011 to December 2014. Patients were referred to these specialized services through the Brazil public health system network. Inclusion criteria were patients with nonvalvular atrial fibrillation or atrial flutter, using oral anticoagulation with warfarin or dabigatran etexilate and age > 18 years. Exclusion criteria were the absence of follow-up period data, clinical and anticoagulation characteristics in the medical records. Patients with fewer than three medical appointments were excluded. The choice for warfarin or dabigatran was based on agreement among attending physicians from our service and patients, taking into consideration benefits, harm effects and costs of each medication. Only warfarin was available free of charge in our service. This study aimed to compare these two drugs, and other novel oral anticoagulants were not evaluated.

Primary outcomes were defined as an embolic event or major bleeding during the follow-up period, and secondary outcomes as the number of medical appointments per year or person-years of follow-up, an INR in the therapeutic range, drug change, poor adherence and minor bleeding. Sociodemographic, clinical and laboratory data were collected from medical records. Atrial fibrillation risk scores were calculated at baseline characteristics as CHADS2 (congestive heart failure, hypertension, age [≥ 75 years], diabetes, stroke/ transient ischemic attack)5, CHA2DS2-VASc (congestive heart failure, hypertension, age [≥ 75 years], diabetes, stroke/transient ischemic attack, vascular disease, age [65-74 years], sex [female])6 and HAS-BLED (hypertension, abnormal renal/liver function, stroke, bleeding history of predisposition, labile INR, age ≥ 65 years, drugs/alcohol concomitantly)7.

An INR within therapeutic range was defined as between 2.0 and 3.0. We defined inadequate adherence as the number of medical appointments in which the medical prescription was not used properly. Interruptions were drug discontinuation for any reason. Major bleeding was defined as fatal or symptomatic intracranial bleeding, transfusion or surgical intervention requirements. Gingival and genital bleeding, increased menstrual flow, or spontaneous hematoma that did not require transfusion or surgical intervention were considered minor bleeding2.

Statistical analysis

Groups were analyzed according to dabigatran etexilate or warfarin use. A longitudinal analysis was performed to evaluate the number of medical appointments per person-year of follow-up for total medical reviews, INR in range, interruption, adherence and bleeding. A transversal analysis was performed to compare clinical baseline characteristics and the median of medical appointments per year for total medical reviews, INR out range, interruption, adherence and bleeding. Student's t, Mann Whitney U, Fisher or chi-square tests were used when appropriate. Results were described as mean ± squared deviation, median [interquartile range] or proportion (%). The p value is shown for an exact and twotailed test. Analyses were done using SPSS 21.0.

This study was approved by the Research Ethics Committee of the School of Medicine of the Federal University of Bahia (Statement 856 694).

RESULTS

Data was obtained from 112 patients, with 62 (55.3%) of them using warfarin. The mean age was 65.5 years (± 12.3) and the female gender was almost half of the sample (49.1%). Black ethnicity was reported in 24.6%. Nonvalvular atrial fibrillation was classified as persistent in 86.7%. The baseline characteristics between patients using warfarin or dabigatran etexilate are shown in the Table. Patients using warfarin had a median of CHADS2 of 3 [2-4], CHA2DS2VASc of 4 [3-5] and HAS-BLED of 3 [2-3]. Those using dabigatran, had a median of CHADS2 of 3 [1-4], CHA2DS2VASc of 4 [2-6] and HAS-BLED of 2 [1-3].

Table
Baseline characteristics between warfarin and dabigatran etexilate patients.

The median time of follow-up was 1.9 years for the warfarin group [0.7-3.8] and 1.6 years for the dabigatran etexilate group [1.1-1.9] (p = 0.167). The median number of medical appointments per year was higher in warfarin patients (8.3 [6.8-10.4] vs 3.1 [2.3-4.2], p < 0.001). Among patients using warfarin, 98.4% had more than four medical appointments per year and in those using dabigatran, this frequency was 30% (p < 0.001). There was no major bleeding during the study period, but the frequency of minor bleeding was more than four times higher in warfarin patients than in dabigatran etexilate patients (17.7% vs 4.0%, p = 0.035). The median INR outside the therapeutic range per year was 4.3 [2.6-6.6]. The median frequency of medical appointments with an INR within the therapeutic range was 50.0% during all follow-up periods.

In a longitudinal analysis, the warfarin group had 7.9 medical appointments per person-year of follow-up and the dabigatran etexilate group had 3.1. Among patients with prior ischemic stroke (35.6% in the warfarin group and 42% in the dabigatran group), those using warfarin had 2.6 times more medical appointments per person-year of follow-up (8.5 vs 3.3). Minor bleeding occurred in 11 patients in the warfarin group and two patients in dabigatran group. In the warfarin group, 35.5% of patients interrupted their medication at some point during their follow-up, and the dose was changed in 95.2%. Of the patients in the warfarin group, 61.3% failed to follow medical instructions regarding medication use. The number of medical appointments with an INR in the therapeutic range was 4.2 per person-year of follow-up.

In the dabigatran group, 46% started with 150 mg twice a day. The dose was decreased in 12 (24%) patients due to reduced creatinine clearance in two patients, minor bleeding in two, dyspepsia in one and for other medical reasons in the remainder. The drug was stopped in 11 patients (22%) because four patients could not afford to buy it, one had dyspepsia, one had reduced creatinine clearance and for other medical reasons in the remainder. During the follow-up period, 8 (16%) patients complained of dyspepsia.

There was no major bleeding during the follow-up period. However, two patients in the dabigatran etexilate group had an embolic ischemic stroke after stopping medication. One patient interrupted their dabigatran use for their own reason and had a new embolic event eight weeks later. In the other patient, dabigatran was suspended, and changed to warfarin immediately, due to reduced creatinine clearance levels. This patient had an embolic ischemic stroke eight days after stopping medication and required hospitalization, during which they had other events, and died from complications. These patients were censured before the events, due to the absence of medical records after the events.

In the dabigatran group, the prior use of warfarin was reported in 9 (38%) patients. There was insufficient data about patients using one medication and changing to another during the follow-up period to enable analysis.

DISCUSSION

This is the first published study to compare warfarin and dabigatran etexilate in nonvalvular atrial fibrillation and atrial flutter for prevention of thromboembolic events in Brazil. We studied 112 patients, of whom 62 used warfarin and 50 used dabigatran etexilate. Warfarin patients presented with a greater frequency of medical appointments and minor bleeding. There was no major bleeding, but two embolic events occurred in the dabigatran etexilate group, both due to discontinuation of this drug, with one death from complications. There was no recurrence of an event in the warfarin group. The follow-up period was similar and the rates of drug discontinuation were more frequent in the warfarin group, but less common in the dabigatran group when compared with previous studies2,8,9,10.

Dabigatran etexilate requires fewer medical appointments because it is not necessary to monitor the INR, and previous studies have found that using 150 mg twice daily reduced the risk of stroke2 or systemic embolic events, compared with warfarin, thus reducing the hospitalization cost. Due to these characteristics, lower total event costs, and lower long term follow-up costs per patient, Clemens et al. concluded that dabigatran etexilate was cost-effective when compared with warfarin in US patients with atrial fibrillation at any age11.

Side effects were not common in this study, probably due to the small sample size. Only dyspepsia was found in 16% of the dabigatran group, while the warfarin group did not report any side effects, except minor bleeding. In the RE-LY trial by Connolly et al., many adverse events were reported that were not found in our sample, but they did find a smaller frequency of dyspepsia2. Minor bleeding happened in 17.7% of our warfarin group and 4% in the dabigatran group. Major bleeding did not happen in our sample. Our results are consistent with a recent meta-analysis that showed that dabigatran etexilate use is not associated with bleeding issues in atrial fibrillation patients12. However, interruption due to cost was very significant in our sample, with 22% of patients changing treatment.

In a retrospective cohort of patients with atrial fibrillation using dabigatran (n = 1,302) or warfarin (8,102), dabigatran use was associated with a higher risk of any bleeding (hazard ratio (HR): 1.30, IC 95% 1.20-1.41) and major bleeding (HR: 1.85, IC 95% 1.64-1.41), but with a lower risk for intracranial hemorrhage (HR: 0.32, IC 95% 0.20-0.50). These risks were greater in African Americans and patients with chronic kidney disease13. In our sample, the risk for minor bleeding was higher in warfarin patients, with no reports of major bleeding. Despite the small sample and a reduced statistical power in this study, contradictory results may have been due to the characteristics of the Brazilian population.

Our results show similarities to previous studies regarding the follow-up period, minor bleeding and less frequent medical appointments. Some disagreements, such as the absence of major bleeding and only one death, were possibly due to the small sample size in our study. Another limitation was the impossibility of standardizing anticoagulation treatment among patients, which can create concerns about the potential source of confounders. Nevertheless, our results showed that dabigatran etexilate can be used in the Brazilian population in nonvalvular atrial fibrillation and atrial flutter, with a lower frequency of minor bleeding, compared with warfarin, and a rare occurrence of major bleeding, hospitalization and death. Another important result is the less frequent medical appointments, which leads to lower long-term follow-up costs per patient—especially important in the public health system.

This study was not adequately designed to show dabigatran's efficacy and safety and more studies in the Brazilian population are needed. Among the patients taking warfarin, there was a higher frequency of women, heart failure and Chagas disease than those taking dabigatran. We believe this higher percentage of women was due to the small sample and the impossibility of adjusting the protocol before use. The frequency of heart failure can be explained by the higher incidence of Chagas disease in the warfarin group. The lack of studies within this population may explain the lower indication for dabigatran in this subgroup of patients, which generates selection bias. We did not carry out an adjusted analysis due to the fact that the data model presented important limitations for using a multivariate analysis with continuous outcomes, which would have led to dubious results.

In conclusion, patients using dabigatran etexilate had a lower frequency of minor bleeding and number of medical appointments than those in the warfarin group. There was no difference in major bleeding, hospitalization and deaths between the groups during follow-up.

ACKNOWLEDGMENTS

We thank the Neurology Academic League of Federal University of Bahia (LAN - FMB) for their support.

References

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Publication Dates

  • Publication in this collection
    Feb 2019

History

  • Received
    13 June 2018
  • Reviewed
    16 Oct 2018
  • Accepted
    07 Nov 2018
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