Authors: Mark Alberts, Maryia Zhdanava, Dominic Pilon, Gabrielle Caron-Lapointe, Patrick Lefebvre, Brahim Bookhart, Akshay Kharat
Categories: Original Research, Direct oral anticoagulants, Ischemic stroke, Nonvalvular atrial fibrillation, One-and-done, Systemic embolism, Treatment discontinuation
Source: Advances in Therapy
Authors: Mark Alberts, Maryia Zhdanava, Dominic Pilon, Gabrielle Caron-Lapointe, Patrick Lefebvre, Brahim Bookhart, Akshay Kharat
Direct oral anticoagulants (DOACs) are essential in ischemic stroke/systemic embolism (SE) prevention among patients with nonvalvular atrial fibrillation (NVAF). This study compared the risk of ischemic stroke/SE among patients with NVAF who discontinued DOACs following the first fill (“one-and-done”) relative to patients who continued DOACs beyond the first fill (“continuers”).
De-identified data from Symphony Health, an ICON plc Company, PatientSource^®^, April 1, 2017 to October 31, 2020, were used to identify adults with NVAF initiated on DOACs (index date). Patients with only one DOAC claim during the 90-day landmark period starting on the index date were classified as one-and-done and the remaining as continuers. Inverse probability of treatment weighting was used to balance baseline characteristics in the cohorts. Time from the landmark period end to the first ischemic stroke/SE event or, among those without the event, to clinical activity or data end was compared between balanced cohorts using survival analysis.
Of patients initiating DOACs, 23.6% were classified as one-and-done users. After weighting was performed, 241,159 and 238,889 patients comprised the one-and-done and continuer cohorts, respectively. At 12 months of follow-up, the probability of ischemic stroke/SE was 1.44% in the one-and-done cohort and 1.00% in the continuer cohort [hazard ratio (95% confidence interval) 1.44 (1.34–1.54); p < 0.0001]. Results at earlier and later time points and in a sensitivity analysis with a 75-day landmark period were similar.
A substantial proportion of patients were one-and-done DOAC users, which was associated with significantly higher risk of ischemic stroke/SE events. There is an unmet need to improve access and encourage continuous use of DOACs among patients with NVAF so that severe and fatal complications may be mitigated.
The online version contains supplementary material available at 10.1007/s12325-023-02483-4.
Why carry out this study? Long-term and compliant anticoagulation therapy is critical for the prevention of thromboembolic complications in atrial fibrillation (AF), since it significantly reduces the risk of ischemic stroke and in-hospital mortality.There is scarce literature evaluating the clinical consequences of early direct oral anticoagulant (DOAC) discontinuation; therefore, this study was conducted to compare the risk of ischemic stroke and systemic embolism (SE) among patients with nonvalvular atrial fibrillation (NVAF) who discontinued DOAC therapy following the first fill (“one-and-done”) compared to patients who continued DOACs beyond the first fill (“continuers”). What was learned from the study? In this study, 23.6% of patients with NVAF initiating DOACs were classified as one-and-done users.At 12 months of follow up, the risk of ischemic stroke or SE as a composite outcome was 44% higher among one-and-done DOAC users compared to DOAC continuers; the magnitude of this risk remained similar both short- and long-term.There is a need to better understand the factors associated with discontinuation of DOACs to inform policies aimed at maximizing the benefit of these agents among patients with NVAF.
Atrial fibrillation (AF) is a form of cardiac arrhythmia characterized by abnormal and uncoordinated contractions of the heart’s atria [1]. The prevalence of AF has increased over the last 5 decades and is continuing to increase globally [2]. In the USA, the age-standardized prevalence rate of AF was 900 per 100,000 people in 2017 [3], currently affecting at least 3–6 million people [2].
Severe and often fatal complications, such as ischemic stroke and systemic embolism (SE), are common consequences of AF [1, 4]. Notably, patients with AF have an approximately fivefold higher risk of ischemic stroke and eightfold higher risk of having multiple cardiovascular hospitalizations compared to those without AF [5, 6]. Additionally, strokes related to AF tend to be more severe than those with other underlying causes [5], resulting in higher rates of adverse events and mortality [7], as well as higher hospitalization costs [8].
As such, long-term anticoagulation therapy is critical for the prevention of thromboembolic complications in AF [1]. Indeed, therapeutic anticoagulation has been shown to reduce the odds of moderate or severe ischemic stroke and in-hospital mortality among patients with AF in real-world clinical practice [9]. In patients with nonvalvular AF (NVAF), direct oral anticoagulants (DOACs) are recommended over warfarin on the basis of the results of four clinical trials comparing dabigatran, rivaroxaban, apixaban, or edoxaban (i.e., the four DOACs that are currently approved by the US Food and Drug Administration for NVAF [10–13]) against warfarin [14]. In a network meta-analysis of these four trials, standard-dose DOACs were associated with a significantly lower risk of stroke or SE (hazard ratio [HR; 95% confidence interval (CI)] = 0.81 [0.74, 0.89]), death (0.92 [0.87, 0.97]), and intracranial bleeding (0.45 [0.37, 0.56]) compared to warfarin [15]. Therefore, guidelines recommend the use of DOACs as first-line anticoagulation, with periodic reevaluation to assess the need for further anticoagulant therapy [14]. In the USA, the cost of DOACs may be partially covered by public (i.e., Medicare, Medicaid) or private/commercial insurance, while a portion is paid out-of-pocket by the patient.
Despite the proven efficacy of DOACs, patient compliance remains a challenge [16, 17]. Prior real-world studies have reported discontinuation rates ranging from 17.9% to 27.4% at 3 months to 4.5–14.9% at 2 years of follow-up [18, 19]. Additionally, nearly 40% of DOAC discontinuations occurred within the first 4 months in one international registry-based study [20]. Importantly, discontinuation of DOACs after a median 182 days of treatment was associated with increased risk of ischemic stroke/SE among patients with AF [20]. Given the large proportion of discontinuations occurring in the first few months of DOAC initiation, there is a need to evaluate the clinical consequences associated with these shorter durations of treatment; however, there is scarce literature doing so. Therefore, the current study was conducted to describe and compare the risk of ischemic stroke and SE among patients with NVAF who discontinued DOAC therapy following the first fill (i.e., up to 1 month of therapy) compared to patients who continued DOACs beyond the first fill.
De-identified data from Symphony Health, an ICON plc Company, PatientSource^®^, April 1, 2017 to October 31, 2020, were used. This open claims data source contains patient demographics, medical and procedure claims, and prescription drug claims, including the status of prescription drug claims (i.e., approved, rejected, abandoned). The open claims nature means that a patient’s healthcare activity is captured regardless of maintaining the same healthcare plan if the patient uses providers from the network that supplies data to the database. The database captures more than 75% of all US retail prescription claims, representing over three-quarters of the US population annually across multiple payer channels (i.e., commercial, Medicare, Medicaid); the remaining less than 25% of claims are outside of the covered networks.
The study had a retrospective longitudinal design (Fig. 1). The index date was the date of the first DOAC claim (i.e., apixaban, dabigatran, or rivaroxaban). The study focused on these three DOACs as the most commonly used in the USA [21]. Only patients with the status of the first claim being “approved” (i.e., submitted by a pharmacy and approved for payment by health plans after claims adjudication) were retained.Fig. 1Study design. DOAC direct oral anticoagulant, SE systemic embolism
The baseline period was defined as the 6-month period of clinical activity before the index date, where clinical activity was based on the first and last patient-level activity flags (i.e., either a pharmacy or a medical claim).
The 90-day landmark period starting on the index date was used to classify patients into the “one-and-done” and “continuer” cohorts. The duration of the landmark period was based on a 60-day or longer gap in DOAC supply to define DOAC discontinuation after 30 or fewer days of the index DOAC claim supply. The gap of 60 days or longer was chosen since it has been commonly used in prior literature to define DOAC discontinuation in NVAF [22, 23], and patients with more than 30 days of supply for the index DOAC claim were excluded since it would not have been possible to classify them as “one-and-done” or “continuer” during the 90-day landmark period (see “Sample Selection”). A sensitivity analysis was conducted using a gap of at least 45 days to define discontinuation, reducing the landmark period length and associated survival bias (see “Sensitivity Analysis”).
The follow-up period used to measure the outcomes started on day 91 post-index and continued until the earliest of the end of clinical activity or data availability.
Patients with the first claim for apixaban, dabigatran, or rivaroxaban were included in the study if they met the following inclusion (1) at least 6 months of clinical activity before the index date; (2) no claims for other oral anticoagulants (i.e., betrixaban, edoxaban, warfarin) before the index date; (4) at least one claim with a diagnosis for AF (International Classification of Diseases, 10th Revision, Clinical Modification [ICD-10-CM] code I48) during the baseline period or on the index date; and (5) at least 18 years old on the index date.
Patients were excluded from the study if they had (1) at least one claim with any of the following diagnoses or procedures at mitral stenosis, mechanical heart-valve, venous thromboembolism (VTE), hip or knee replacement surgery, or organ or tissue replaced by transplant; (2) pregnancy during or after the baseline period; (3) at least one claim with a diagnosis of stroke (ischemic or hemorrhagic) or SE during an inpatient admission on the index date or within 30 days prior to the index date (to avoid confounding with the outcomes of ischemic stroke and SE); (4) more than one claim for DOACs (i.e., apixaban, betrixaban, dabigatran, edoxaban, rivaroxaban) on the index date; or (5) more than one final claim status (e.g., approved and abandoned) for the index DOAC on the index date.
Additionally, retaining only patients with the “approved” status of the first claim, the following exclusion criteria for the identification of cohorts during the landmark period were (1) 90 or fewer days of clinical activity post-index (i.e., incomplete landmark period); (2) stroke or SE diagnosis in an inpatient setting during the landmark period; and (3) more than 30 days of supply on the index DOAC claim.
During the landmark period, patients were classified into the “one-and-done” cohort if they discontinued DOAC therapy after the first DOAC claim, i.e., did not have another approved DOAC claim during the landmark period (a 60-day or longer gap in DOAC supply). Patients were classified into the “one-and-done” cohort if they persisted on DOAC therapy beyond the first claim, i.e., had at least two approved DOAC claims during the landmark period.
The first instance of ischemic stroke (ICD-10-CM code I63) and SE (ICD-10-CM code I74) were measured in each cohort during the follow-up period as a composite outcome (i.e., ischemic stroke/SE) and separately. Only diagnoses in claims from an inpatient setting were considered.
To balance baseline characteristics between the one-and-done and continuer cohorts, inverse probability of treatment weighting (IPTW) was applied. The propensity score was computed from a logistic regression model and adjusted for demographic characteristics (i.e., age, sex, region of residence, insurance plan type, index year); comorbidities (Quan–Charlson Comorbidity Index [Quan-CCI] [24], CHA2DS2-VASc score, HAS-BLED score); recent ischemic or hemorrhagic stroke/SE (i.e., presence of event and time from the event to index date); polypharmacy (i.e., use of at least five different medications concurrently); use of antihypertensive agents, antihyperlipidemic agents, antiplatelet agents; the index DOAC medication; and all-cause pharmacy costs. The balance of baseline characteristics was assessed using standardized differences (less than 10% indicated balance) [25].
The probability of an ischemic stroke or SE event during the follow-up period was described between the one-and-done cohort and the continuer cohort using weighted Kaplan–Meier survival analysis. The risk of an ischemic stroke or SE event was compared between the two cohorts using weighted Cox proportional hazard models, with HRs and their 95% CIs and p values reported. Time to the ischemic stroke or SE event was defined as the time from day 91 post-index (i.e., first day following the landmark period) until the first ischemic stroke or SE event during the follow-up period; patients for whom the event was not observed during the follow-up period were censored at the end of the follow-up period.
A sensitivity analysis using a 75-day landmark period was conducted to minimize the loss of patients with early ischemic stroke and SE events (i.e., within the duration of the landmark period).
Data were de-identified and comply with the patient requirements of the Health Insurance Portability and Accountability Act (HIPAA) of 1996; therefore, no review by an institutional review board was required per Title 45 of CFR, Part 46.101(b)(4) [26].
Among 779,468 patients prescribed with a DOAC who had NVAF and met other inclusion and exclusion criteria, 667,417 (85.6%) had their first DOAC claim approved. Furthermore, 480,048 patients met additional criteria during the landmark period, and among them, 113,336 (23.6%) were classified into the one-and-done cohort and 366,712 (76.4%) into the continuer cohort (Fig. 2). Baseline characteristics of the unweighted cohorts are described in Table S1 in the supplementary material.Fig. 2Identification of NVAF population. AF atrial fibrillation, DOAC direct oral anticoagulant, NVAF non-valvular atrial fibrillation. *Patients were excluded from the study population if they had (1) ≥ 1 claim with any of the following diagnoses or procedures at mitral stenosis, mechanical heart-valve, venous thromboembolism, hip or knee replacement surgery, organ or tissue replaced by transplant; (2) pregnancy during or after the baseline period; (3) ≥ 1 claim with a diagnosis of stroke (ischemic or hemorrhagic) or systemic embolism during an inpatient admission on the index date or within 30 days prior to the index date; (4) > 1 claim for DOACs (i.e., apixaban, betrixaban, dabigatran, edoxaban, rivaroxaban) on the index date; or (5) > 1 final claim status (e.g., approved and abandoned) for the index DOAC on the index date. ^†^Patients were excluded during the landmark period if they had (1) ≤ 90 days of clinical activity post-index; (2) stroke or systemic embolism diagnosis in an inpatient setting within the first 90 days post-index (i.e., during landmark period); or (3) > 30 days of supply on the index DOAC claim
After the two cohorts were weighted to balance baseline characteristics, a total of 241,159 patients were included in the one-and-done cohort and 238,889 patients in the continuer cohort. On the basis of the standardized differences, the weighted cohorts were well balanced (Table 1). Mean [standard deviation (SD)] age was 69.1 [10.1] years in the one-and-done cohort and 69.2 [9.5] years in the continuer cohort, and 45.1% of patients were female in both cohorts. Most patients were covered by Medicare (55.0% in the one-and-done cohort and 54.2% in the continuer cohort), followed by commercial insurance (36.2% and 37.2%), Medicaid (7.6% and 7.5%), and another type of insurance (1.3% and 1.2%). The mean [SD] patient out-of-pocket paid amount for the index drug claim was 157.50] in the one-and-done cohort and 137.70] in the continuer cohort. The mean [SD] CHA2DS2-VASc score was 3.0 [1.6] among patients in the one-and-done cohort and 3.0 [1.7] among patients in the continuer cohort. In both cohorts, 1.0% and 0.1% of patients had a baseline inpatient diagnosis of ischemic stroke and SE, respectively. Patients in the one-and-done and continuer cohorts had similar prevalence of risk factors for stroke, with the most common being hypertension (67.0% and 67.8%, respectively), hyperlipidemia (45.8% and 45.4%), diabetes (27.1% and 26.4%), and congestive heart failure (26.5% and 26.7%).Table 1Selected baseline characteristics in the weighted cohorts^a,b^Mean ± SD [median] or n (%)One-and-done cohortContinuer cohortStandardized difference (%)N = 241,159N = 238,889Age (years)69.1 ± 10.1 [72.0]69.2 ± 9.5 [72.0]1.1Female108,670 (45.1)107,723 (45.1)0.1Region of residence South100,797 (41.8)99,753 (41.8)0.1 Midwest55,618 (23.1)55,168 (23.1)0.1 Northeast48,746 (20.2)48,227 (20.2)0.1 West35,419 (14.7)35,166 (14.7)0.1 Unknown579 (0.2)574 (0.2)0.0Insurance plan Medicare132,523 (55.0)129,384 (54.2)1.6 Commercial87,192 (36.2)88,787 (37.2)2.1 Medicaid18,269 (7.6)17,801 (7.5)0.5 Other3175 (1.3)2918 (1.2)0.8Year of index date 201716,998 (7.0)16,531 (6.9)0.5 201889,761 (37.2)88,937 (37.2)0.0 201990,829 (37.7)90,340 (37.8)0.3 202043,571 (18.1)43,082 (18.0)0.1Index DOAC medication Apixaban180,322 (74.8)179,775 (75.3)1.1 Rivaroxaban55,517 (23.0)53,954 (22.6)1.0 Dabigatran5320 (2.2)5160 (2.2)0.3Patient out-of-pocket paid amount for the index drug claim (US 2021)77.9 ± 157.5 [10.8]67.6 ± 137.7 [15.8]7.0Quan-CCI1.9 ± 2.1 [1.0]1.9 ± 2.1 [1.0]0.4CHA~2~DS~2~-VASc score3.0 ± 1.6 [3.0]3.0 ± 1.7 [3.0]0.6 015,112 (6.3)13,916 (5.8)1.9 130,183 (12.5)30,761 (12.9)1.1 246,219 (19.2)47,241 (19.8)1.5 355,559 (23.0)54,128 (22.7)0.9 449,063 (20.3)47,206 (19.8)1.5 528,657 (11.9)28,360 (11.9)0.0 6+16,366 (6.8)17,277 (7.2)1.7HAS-BLED score1.9 ± 1.1 [2.0]1.9 ± 1.1 [2.0]0.1Baseline diagnosis for stroke and systemic embolism in an inpatient setting Ischemic stroke2453 (1.0)2390 (1.0)0.2 Days from the most recent ischemic stroke to index date^c^82.6 ± 42.2 [72.0]81.8 ± 42.1 [70.0]2.1 Hemorrhagic stroke314 (0.1)317 (0.1)0.1 Days from the most recent hemorrhagic stroke to index date^c^92.4 ± 40.5 [87.0]89.5 ± 42.8 [83.0]6.9 SE151 (0.1)139 (0.1)0.2 Days from the most recent SE to index date^c^88.3 ± 48.7 [78.0]85.5 ± 46.7 [73.0]5.9Major bleeding3291 (1.4)2575 (1.1)2.6Number of unique prescription drugs used7.4 ± 6.0 [6.0]7.3 ± 5.8 [6.0]0.3 Polypharmacy (use of ≥ 5 different medications concurrently)131,229 (54.4)127,781 (53.5)1.9Use of non-oral anticoagulants19,021 (7.9)18,093 (7.6)1.2Use of cardiovascular-related medications166,533 (69.1)167,557 (70.1)2.4 Antihypertensive agents149,053 (61.8)145,961 (61.1)1.5 Antihyperlipidemic agents103,644 (43.0)100,788 (42.2)1.6 Antiplatelet agents22,219 (9.2)21,762 (9.1)0.4Cardiovascular procedures^d^8349 (3.5)7386 (3.1)2.1Cancer diagnoses and/or treatments29,481 (12.2)30,230 (12.7)1.3Risk factors for stroke Hypertension161,612 (67.0)161,878 (67.8)1.6 Hyperlipidemia110,471 (45.8)108,371 (45.4)0.9 Diabetes65,331 (27.1)63,111 (26.4)1.5 Congestive heart failure63,887 (26.5)63,855 (26.7)0.5 COPD41,617 (17.3)36,407 (15.2)5.5 Obesity35,819 (14.9)37,122 (15.5)1.9 Morbid obesity16,940 (47.3)17,389 (46.8)0.9 Depression23,798 (9.9)21,463 (9.0)3.0 Family history of CVD9133 (3.8)9344 (3.9)0.6 Prior stroke8486 (3.5)10,816 (4.5)5.1 Transient ischemic attack4826 (2.0)5729 (2.4)2.7All-cause monthly healthcare costs (US 2021)^e^3869 ± 14,011 [967]3215 ± 11,990 [921]5.0 Pharmacy costs226 ± 846 [35]222 ± 718 [45]0.4 Medical charges3643 ± 13,937 [773]2993 ± 11,936 [701]5.0COPD chronic obstructive pulmonary disease, CVD cardiovascular disease, DOAC direct oral anticoagulant, Quan-CCI Quan–Charlson Comorbidity Index, SD standard deviation, SE systemic embolism^a^Cohorts were weighted on baseline characteristics using inverse probability of treatment weights; characteristics were considered well balanced if standardized difference is < 10%^b^The number of patients reported in this weighted population represents the sum of weights for the corresponding patients, rounded to the nearest integer. The sum of patients in each category may therefore not add up to the total number of patients in each cohort^c^Among patients that have a diagnosis for the event of interest during the baseline period^d^Cardiovascular procedures included percutaneous coronary intervention and coronary bypass graft. Electrical cardioversion procedure (5.3% in one-and-done cohort and 5.5% in continuer cohort) and pulmonary vein isolation procedure (1.0% in one-and-done cohort and 0.9% in continuer cohort) were not reported under this category^e^Pharmacy costs are reported from a payer’s perspective and comprise the plan paid amounts and patient copay amounts
The mean [SD] duration of follow-up was 15.0 [9.5] months in the one-and-done cohort and 15.7 [9.4] months in the continuer cohort. At 3 months of follow-up, the probability of ischemic stroke or SE as a composite outcome was 0.41% in the one-and-done cohort compared to 0.28% in the continuer cohort (log-rank p < 0.0001; Fig. 3). This higher probability of ischemic stroke or SE event in the one-and-done compared to continuer cohort remained consistent at later points of follow-up, with probabilities of 1.44% in the one-and-done cohort and 1.00% in the continuer cohort at 12 months (log-rank p < 0.0001).Fig. 3Ischemic stroke or SE probability in weighted one-and-done versus continuer cohorts. CI confidence interval, DOAC direct oral anticoagulant, SE systemic embolism. Ischemic stroke and SE events were identified in an inpatient setting. The time to the first event was measured from day 91 post-index date (i.e., first day after the end of the landmark period); patients for whom the event was not observed during the follow-up period were censored at the end of the follow-up period. ^†^p < 0.05
The probability of the composite endpoint was mainly driven by that of ischemic stroke. At 3 months of follow-up, the probability of ischemic stroke alone was 0.38% in the one-and-done cohort compared to 0.26% in the continuer cohort, while at 12 months, these probabilities were 1.33% and 0.92%, respectively (all log-rank p < 0.0001; data not shown).
The risk of ischemic stroke or SE as a composite outcome was 45% higher in the one-and-done cohort than in the continuer cohort at 3 months, 42% higher at 6 months, 44% higher at 12 months, and 42% higher at 24 months of follow-up (all p < 0.0001; Fig. 4). Similar results were observed for ischemic stroke and SE alone (Fig. 4).Fig. 4Risk of ischemic stroke and SE in weighted one-and-done versus continuer cohorts.* HR* hazard ratio, CI confidence interval, SE systemic embolism. Ischemic stroke and SE were identified in an inpatient setting. HRs were generated using univariate weighted Cox proportional hazard models. ^†^p < 0.05
When a 75-day landmark period was used, a total of 245,433 patients comprised the weighted one-and-done cohort and 243,488 patients comprised the weighted continuer cohort. The probabilities of ischemic stroke or SE in the two cohorts were comparable to those of the main analysis (Fig. 5). The risk of ischemic stroke or SE as a composite outcome was 43–48% higher in the one-and-done cohort than the continuer cohort at 3, 6, 12, and 24 months of follow-up (all p < 0.0001; Fig. 6).Fig. 5Ischemic stroke or SE probability in weighted one-and-done versus continuer cohorts (75-day landmark period). CI confidence interval, DOAC direct oral anticoagulant, SE systemic embolism. Ischemic stroke and SE events were identified in an inpatient setting. The time to the first event was measured from day 76 post-index date (i.e., first day after the end of the landmark period); patients for whom the event was not observed during the follow-up period were censored at the end of the follow-up period. ^†^p < 0.05Fig. 6Risk of ischemic stroke or SE in weighted one-and-done versus continuer cohorts (75-day landmark period). HR hazard ratio, CI confidence interval, SE systemic embolism. Ischemic stroke and SE were identified in an inpatient setting. HRs were generated using univariate weighted Cox proportional hazard models. ^†^p < 0.05
In this retrospective real-world study of patients with NVAF, 23.6% discontinued DOAC treatment for at least 60 days after the first prescription fill (i.e., after up to 1 month of therapy) and 76.4% persisted on DOAC therapy after the first fill. It is important to note that the proportion of patients with one-and-done status is an approximate estimate, as about 30% of the patients initiating DOAC therapy were impossible to classify as either one-and-done or continuers on the basis of retrospective data. Discontinuation of DOACs after up to a month of therapy was associated with a significantly higher risk of ischemic stroke or SE, with the magnitude of this increased risk being similar both short-term and long-term. Thus, while it is possible that some patients who initially discontinued DOACs restarted the therapy later, the findings of our study suggest that the association of the initial discontinuation with negative patient outcomes does not weaken over time. These results remained robust with a shorter landmark period in the sensitivity analysis.
Treatment guidelines do not specify an optimal duration of anticoagulation among patients with AF, instead recommending reevaluation at periodic intervals to reassess stroke risk and if there is a continued need for anticoagulation [14]. Although our study did not evaluate reasons for DOAC discontinuation, it is possible that the lack of specific guideline recommendations may have contributed to decisions to stop therapy in clinical practice. Additionally, the risk or occurrence of bleeding or patient out-of-pocket costs may also be obstacles to continuous DOAC therapy [16, 27]. For instance, Rome et al. found that commercially insured patients with AF who had high DOAC copayments had higher rates of discontinuation than those with low copayments [27]. In our study, the proportions of patients with major bleeding at baseline and baseline HAS-BLED score were balanced between the one-and-done and continuer cohorts; patient out-of-pocket paid amounts for the index drug claim were also similar. Further study is warranted to confirm which reasons may prompt patients with NVAF to discontinue DOAC treatment after the first prescription fill.
This study is the first to evaluate the association between one-and-done DOAC use status and patient outcomes in NVAF, filling the prior knowledge gap regarding early DOAC discontinuation and its related clinical consequences. While previous literature has focused on discontinuation following longer durations of DOAC treatment, it is largely consistent with our findings on the negative consequences of DOAC noncompliance. For instance, in the GARFIELD-AF registry study, after the median time on treatment of 182 days, discontinuation of DOACs for at least 7 days was associated with more than twofold increase in the risk of ischemic stroke/SE (HR [95% CI] = 2.21 [1.42, 3.44]) [20]. Additionally, a meta-analysis of real-world AF studies found that DOAC nonpersistence was associated with increased risk of stroke/transient ischemic attack (pooled HR [95%] = 4.55 [2.80, 7.39]) [17]. The findings of the current study corroborate prior literature and contribute additional insight into the elevated risk of stroke/SE among patients who specifically discontinue DOAC treatment within the first month of therapy.
Ischemic stroke in patients with AF can result in serious clinical and economic consequences requiring emergency and specialized care [28]. Indeed, the healthcare resource utilization associated with stroke is high; in 2018, there were 904,000 inpatient discharges and 802,000 emergency department visits with stroke as the principal diagnosis [29]. Moreover, survivors of AF-related ischemic stroke are more likely to have longer hospital stays, disability, and long-term care than survivors of stroke from other causes [30]. This high healthcare use translates to a large economic burden [8, 29]. In one claims-based study of adult patients with ischemic stroke, the cost of a hospital admission with a primary diagnosis of ischemic stroke was 4991 higher than the cost for patients without AF [8]. Given the substantial clinical and economic burden associated with AF-related ischemic stroke, there is an urgent unmet need to ensure proper access and improve patient compliance to DOACs so that downstream risk of ischemic stroke/SE can be minimized. While anticoagulation clinics were traditionally used for monitoring and dose adjustment of warfarin, their expansion to additionally provide patient education and periodic follow-up for those receiving DOACs may help to promote ongoing treatment adherence [31]. Additional research is warranted to identify factors associated with early DOAC treatment discontinuation and how they impact subsequent clinical and economic outcomes, which may inform treatment policies and decision-making in real-world practice.
Some limitations apply to the findings of this study. Any diagnoses, services, or prescriptions received from providers outside of the network were not captured. For instance, patients who switched to a different claims transaction network for their prescriptions may have appeared as less compliant. Additionally, drug samples were not captured in the data; however, if patients in the one-and-done cohort received free samples, this would have led to more conservative risk estimates. Furthermore, a survival bias may have been introduced as a result of the landmark period design (i.e., the requirement of at least 90 days post-index without stroke/SE events); particularly, patients with only one approved DOAC fill may have been less likely to survive beyond 90 days than patients who continued DOAC treatment. However, the sensitivity analysis with a shorter landmark period (i.e., 75 days) yielded comparable results. Finally, as with all claims-based analyses, this study may have been subject to residual confounding due to unmeasured confounders (i.e., information not available in transactions data).
This retrospective study demonstrated that close to a quarter of patients with NVAF discontinued DOACs after up to a month of therapy, and these patients had consistently higher risk of ischemic stroke or SE short- and long-term than patients who continued DOAC therapy. There is a need to better understand the factors associated with discontinuation of DOACs to inform policies aimed at maximizing the benefit of these agents among patients with NVAF. Future studies may also evaluate the economic impact of DOAC discontinuation after the first prescription fill.
Below is the link to the electronic supplementary material.Supplementary file1 (PDF 154 KB)