Key Points• In a real-world setting, annualized bleeding rates of major rivaroxaban bleeding are lower than those reported for vitamin K antagonists.• Treatment of major rivaroxaban bleeding is simple and rarely requires pro-coagulants; outcome at 90 days is better than that reported for vitamin K antagonists.Worldwide, rivaroxaban is increasingly used for stroke prevention in atrial fibrillation and treatment of venous thromboembolism, but little is known about rivaroxaban-related bleeding complications in daily care. Using data from a prospective, noninterventional oral anticoagulation registry of daily care patients (Dresden NOAC registry), we analyzed rates, management, and outcome of rivaroxaban-related bleeding. Between October 1, 2011, and December 31, 2013, 1776 rivaroxaban patients were enrolled. So far, 762 patients (42.9%) reported 1082 bleeding events during/within 3 days after last intake of rivaroxaban (58.9% minor, 35.0% of nonmajor clinically relevant, and 6.1% major bleeding according to International Society on Thrombosis and Haemostasis definition). In case of major bleeding, surgical or interventional treatment was needed in 37.8% and prothrombin complex concentrate in 9.1%. In the time-to-first-event analysis, 100-patientyear rates of major bleeding were 3.1 (95% confidence interval 2.2-4.3) for stroke prevention in atrial fibrillation and 4.1 (95% confidence interval 2.5-6.4) for venous thromboembolism patients, respectively. In the as-treated analysis, case fatality rates of bleeding leading to hospitalizations were 5.1% and 6.3% at days 30 and 90 after bleeding, respectively. Our data indicate that, in real life, rates of rivaroxaban-related major bleeding may be lower and that the outcome may at least not be worse than that of major vitamin K antagonist bleeding, and probably better. This trial was registered at www.clinicaltrials.gov as identifier #NCT01588119. (Blood. 2014;124(6):955-962)
Continuation or short-term interruption of NOAC is safe strategies for most invasive procedures. Patients at cardiovascular risk undergoing major procedures may benefit from heparin bridging, but bleeding risks need to be considered.
AimsWorldwide, rivaroxaban is increasingly used for stroke prevention in atrial fibrillation (SPAF) but little is known about the rates of or reasons for rivaroxaban discontinuations in daily care. Using data from a prospective, non-interventional oral anticoagulation (NOAC) registry, we analysed rivaroxaban treatment persistence.Methods and resultsPersistence with rivaroxaban in SPAF was assessed in an ongoing, prospective, non-interventional registry of >2600 NOAC patients from daily care using the Kaplan–Meier time-to-first-event analysis. Reasons for and management of rivaroxaban discontinuation were assessed. Potential baseline risk factors for treatment discontinuation were evaluated using Cox regression analysis. Between October 2011 and April 2014, 1204 rivaroxaban SPAF patients were enrolled [39.3% switched from vitamin K antagonists (VKAs) and 60.7% newly treated patients]. Of these, 223 patients (18.5%) stopped rivaroxaban during follow-up (median 544 days), which translates into a discontinuation rate of 13.6 (95% CI 11.8–15.4) per 100 patient-years. Most common reasons for treatment discontinuations were bleeding complications (30% of all discontinuations), followed by other side-effects (24.2%) and diagnosis of stable sinus rhythm (9.9%). A history of chronic heart failure (HR 1.43; 95% CI 1.09–1.87; P = 0.009) or diabetes (HR 1.39; 95% CI 1.06–1.82; P = 0.018) were the only statistically significant baseline risk factors for rivaroxaban discontinuation. After discontinuation of rivaroxaban, patients received antiplatelet therapy (31.8%), VKA (24.2%), another NOAC (18.4%), heparin (9.9%), or nothing (15.7%).ConclusionOur data indicate that overall persistence with rivaroxaban therapy is high, with a discontinuation rate of ∼15% in the first year of treatment and few additional discontinuations thereafter.
AIMVitamin-K antagonists (VKA) and non-vitamin-K dependent oral anticoagulants (NOAC) have been approved for anticoagulation in venous thromboembolism (VTE) and atrial fibrillation and patients previously treated with VKA are switched to NOAC therapy. Safety data for this switching are urgently needed. METHODSUsing data from a large regional prospective registry of daily care NOAC patients, we evaluated the safety of switching anticoagulation from VKA to dabigatran or rivaroxaban. Switching procedures and cardiovascular and bleeding events occurring within 30 days after switching were centrally adjudicated. RESULTSBetween 1 October 2011 and 18 June 2013, 2231 patients were enrolled. Of these, 716 patients were switched from VKA to NOAC. Only 410 of the 546 evaluable patients (75.1%) had a recorded INR measurement within the 10 days preceding or following the end of VKA treatment (mean INR 2.4). As of day 30, major bleeding complications were rare (0.3%; 95% CI 0.0, 1.0) with an overall bleeding rate of 12.2% (95% CI 9.8, 14.8). Major cardiovascular events occurred in 0.8% (95% CI 0.3, 1.8). There was no significant difference in outcome event rates between the subgroups of patients with or without INR testing. CONCLUSIONIn daily care, only 75% of VKA patients have an INR measurement documented before NOAC are started. On average, NOAC are started within 2 to 5 days after the last intake of VKA. However, at 30 days follow-up cardiovascular events or major bleedings were rare both in patients with and without INR testing. However, switching procedures need to be further evaluated in larger cohorts of patients. WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT• Patients on vitamin-K antagonists (VKA) need to have their INR tested before a transition to a different anticoagulant. Different INR thresholds exist for different anticoagulants and for different indications, but existing recommendations have never been analyzed. • Consequently, the recommendations for switching from VKA to non-vitamin-K dependent direct oral anticoagulants (NOAC or DOAC) in the summary of product characteristics (SMPCs) of the NOACs are not evidence based.• In daily practice, considerable concerns are raised about these recommendations (initiation of NOAC at INR values <2.0 for apixaban and dabigatran in SPAF, INR <2.5 for rivaroxaban in venous thromboembolism (VTE) and INR <3.0 for rivaroxaban in stroke prevention in non-valvular atrial fibrillation (SPAF).• In the Rocket-AF trial, major bleeding complications were highest in the subgroup of rivaroxaban patients with VKA pre-treatment compared with the subgroups of patients without VKA pre-treatment or the subgroup of pre-treated patients randomized to warfarin. This could be an indicator that the transition from VKA pre-treatment to NOAC increases bleeding risks. WHAT THIS STUDY ADDS• In daily practice, only 75% of all patients had a recorded INR measurement within 10 days before or after the end of VKA treatment. The baseline characteristics of patients receiving INR testing were not different ...
The effectiveness and safety of dabigatran for stroke prevention in atrial fibrillation (SPAF) demonstrated in RE-LY needs to be confirmed in daily care. To evaluate treatment persistence, effectiveness and safety of dabigatran therapy in SPAF patients in daily care, we used data from an ongoing, prospective, non-interventional registry of more than 2,500 patients on novel oral anticoagulants in daily care. Between October 1, 2011 and February 28, 2013, a total of 341 SPAF patients receiving dabigatran were enrolled. The combined endpoint of stroke/transient ischaemic attack/systemic embolism occurred at a rate of 2.93/100 patient-years in the intention-to-treat analysis (95%-CI 1.6-4.9) and at 1.9/100 patient-years in the on treatment analysis (events within three days after last intake). On-treatment rates were higher in patients selected for 110 mg dabigatran (n=183) BID compared to the 158 patients selected for 150 mg BID (2.88 [95% CI 1.16- 5.93] vs 0.86/100 patient-years [95% CI 0.10, 3.12]). On treatment, major bleeding occurred at a rate of 2.3/100 patient-years and numerically more often in patients receiving the 110 mg BID dose compared to the 150 mg BID dose (2.9 vs 1.7/100 patient-years). Dabigatran treatment discontinuation occurred in a total of 124 patients during follow-up (25.8 per 100 patient-years in Kaplan Meier analysis). Main reasons for treatment discontinuation were non-bleeding side effects. Our data contribute to the confirmation of effectiveness and relative safety of dabigatran in unselected patients in daily care. However, discontinuation rates are not lower than those reported for patients treated with vitamin K antagonists.
Aims: Worldwide, rivaroxaban is increasingly used for stroke prevention in atrial fibrillation (SPAF) but little is known about the rates of or reasons for rivaroxaban discontinuation in daily care. Using data from a prospective, non-interventional oral anticoagulation (NOAC) registry, we analysed rivaroxaban treatment persistence. Methods and results: Persistence with rivaroxaban in SPAF was assessed in an ongoing, prospective, non-interventional registry of >2600 NOAC patients from daily care using Kaplan-Meier time-to-first-event analysis. Reasons for and management of rivaroxaban discontinuation were assessed. Potential baseline risk factors for treatment discontinuation were evaluated using Cox regression analysis. Between October 2011 and April 2014, 2603 patients were enrolled in the registry. Of these, 1204 (46.3%) received rivaroxaban for SPAF, with 473 (39.3%) switched from VKA pretreatment to rivaroxaban and 731 (60.7%) newly anticoagulated rivaroxaban patients. As of 30 April 2014, follow-up information was available for all 1204 patients (100%). By that date, the median treatment duration with rivaroxaban was 544 days (25th and 75th percentile 444/639d) for all patients. During follow-up, the overall persistence with rivaroxaban therapy was 81.5% (223/1204 patients discontinued rivaroxaban) and similar for patients switched from VKA to rivaroxaban or newly treated rivaroxaban patients (82.0% vs 81.1%). In the intention-to-treat analysis, rates of treatment discontinuation per 100 patient-years were assessed as a Kaplan–Meier time-to-first-event analysis and found to be 13.6 [95% CI 11.8–15.4] for all patients and similar for newly treated rivaroxaban patients (14.1 [95% CI 11.9–16.7]) and patients switched from VKA to rivaroxaban (12.7 [95% CI 10.1–15.7]; p = 0.35; Figure 1a). This finding did not change if only patients with a completed 12-month follow-up were assessed (Figure 1b). Discontinuation rates were highest in the first 6 months of treatment (9.9% [95% CI 7.7–12.1%] for patients newly treated with rivaroxaban and 10% [95% CI 7.3–12.7%] for patients switched from VKA pretreatment to rivaroxaban) and declined similarly in both subgroups over time (for 6–12 months: 6% [95% CI 5.5–6.4%] and 3.9% [95% CI 3.5–4.4%], respectively; after 12 months: 4.4% [95% CI 3.9–5%) and 7.7% [95% CI 6.0–9.2%], respectively). Most common reasons for treatment discontinuations were bleeding complications (30% of all discontinuations), followed by other side-effects (24.2%) and diagnosis of stable sinus rhythm (9.9%). Within the group of 67 bleeding complications, according to the International Society on Thrombosis and Haemostasis bleeding definition, 14 were major and 53 were non-major clinically relevant bleeding events that led to treatment discontinuation. A history of chronic heart failure (HR 1.43; 95% CI 1.09-1.87; p=0.009) or diabetes (HR 1.39; 95% CI 1.06-1.82; p=0.018) were the only statistically significant baseline risk factors for rivaroxaban discontinuation. After discontinuation of rivaroxaban, patients received antiplatelet therapy (31.8%), VKA (24.2%), another NOAC (18.4%), heparin (9.9%) or nothing (15.7%). Conclusion: Our data indicate that overall persistence with rivaroxaban therapy is high, with a discontinuation rate of approximately 15% in the first year of treatment and few additional discontinuations thereafter. Non-major bleeding is the most common reason for riaroxaban discontinuation and nearly 50% of all discontinuing patients receive only antiplatelet or no antithrombotic treatment. Figure 1: Kaplan–Meier analysis of persistence to rivaroxaban treatment for all patients (left diagram) and for all patients who were observed for at least 12 months (right diagram), according to VKA pretreatment Figure 1:. Kaplan–Meier analysis of persistence to rivaroxaban treatment for all patients (left diagram) and for all patients who were observed for at least 12 months (right diagram), according to VKA pretreatment Disclosures Beyer-Westendorf: Bayer: Honoraria, Research Funding; Pfizer: Honoraria, Research Funding; Boehringer Ingelheim: Honoraria, Research Funding. Weiss:Boehringer Ingelheim: Honoraria; Bayer: Honoraria.
Background The most common side effect of oral anticoagulants are bleeding complications. In large trials, novel direct oral anticoagulants (NOAC) have been shown to reduce the risk of major bleeding compared to warfarin. However, little is known about the distribution pattern, management and outcome of NOAC-related bleeding complications in daily care. Patients and methods Using data from a large regional registry of patients treated with novel direct oral anticoagulants (NOAC) in the district of Saxony, Germany, we evaluated pattern and management of NOAC-related bleeding complications in daily care. In this ongoing registry, a network of 239 physicians enrols up to 2500 daily care NOAC patients who receive central prospective follow up (FU) by the registry office at day 30 day and quarterly thereafter to collect efficacy and safety data. All outcome events are centrally adjudicated using standard scientific definitions. Results Until July 31th 2013, 2249 patients were enrolled into the registry. Of these, 1738 (77.3%) patients received rivaroxaban, 356 (15.8%) received dabigatran and 155 (6.9%) received apixaban. During follow-up (2674.0 patient years), a total of 825 patients reported 1137 bleeding complications (59.1% minor, 33.9% non-major, clinically relevant (NMCR) and 6.9% major bleeding according to ISTH definition). For non-major bleedings, mucosal and skin bleeding were the most common bleeding sites (67.9% of all bleedings), followed by genitourinary (10.9%) and gastrointestinal bleeding (10.9%). For major bleeding, gastrointestinal bleeding was the most common manifestation (2.8%), followed by genito-urinary (0.6%) bleeding. In 93% of all bleeding events, treatment was not necessary or consisted of conservative treatment with compression, tamponade or red blood transfusion. Surgical or interventional treatment was reqired in 7.0% of all bleedings (0.0% of minor, 13.0% of NMCR and 38.0% of major bleedings). Prothrombin complex concentrate was used in 1.3% (24% of all major bleedings). No patient received recombinant factor VII. Bleeding-associated mortality was 0.5% for all and 7.5% for major bleeding. Of the six fatal bleedings observed, three were intracranial bleedings. Conclusion Bleeding complications are common in daily care NOAC patients and are usually managed conservatively. Only 7% of all observed bleedings fulfil the ISTH criteria of major bleeding (mainly for RBC transfusion criterion) and are managed using interventions, FFP or PCC. Overall, only few NOAC-associated bleeding complications in daily care are fatal, indicating that available management strategies are sufficient. For presentation at ASH, updated results including risk assessments will be reported. Disclosures: Werth: Bayer Healthcare: Honoraria. Beyer-Westendorf:Bayer Healthcare: Research Funding, Speakers Bureau; Boehringer Ingelheim: Research Funding, Speakers Bureau; Pfizer: Research Funding, Speakers Bureau.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.