Rivaroxaban: importanti evidenze nelle diverse tipologie di paziente reale Assume that NAOs have been on the market for 5 year ➢A new drug comes.
Download ReportTranscript Rivaroxaban: importanti evidenze nelle diverse tipologie di paziente reale Assume that NAOs have been on the market for 5 year ➢A new drug comes.
Rivaroxaban: importanti evidenze nelle diverse tipologie di paziente reale Assume that NAOs have been on the market for 5 year ➢A new drug comes to the market. Compared to NAOs, the new drug has: - cheaper - antidote - requirement for monthly monitoring to adjust dose - many food and drug interactions - 25% increased relative risk of stroke/systemic embolism - nearly 50% increased relative risk of major bleeding - approx. 2.5 times the rate of ICH - 10% increased relative risk of mortality ➢Would Warfarin be approved by regulatory authorities now? An effective antithrombotic treatment could combine in any single patient ….. Efficacy at preventing stroke in AF and at treating DVT or PE Adherence taken as instructed for the prescribed period of time Treatment goal Safety/tolerability profile similar to control treatment Convenience easy to take and to administer i.e. number of doses Compliance with od versus bid regimens is generally better for chronic conditions Number of studies that directly assessed compliance Number of studies od > bid* *Patient compliance (assessed in study) with od regimen is significantly better than with bid regimen #No significant difference in patient compliance (assessed in study) between od and bid regimens ‡Patient compliance (assessed in study) with bid regimen is significantly better than with od regimen od = bid# od < bid‡ Pubmed search; March 2001–2011 CV medication adherence: od is associated with higher adherence than bid p<0.01 100 93 86 p<0.01 85 74 Patient adherence (%) OD p<0.01 76 BID 50 50 Adherence calculated by three measures, in order of increasing strictness: •Taking – Number of bottle cap openings divided by the prescribed number of doses. •Regimen – Percentage of days with the appropriate number of doses taken. •Timing – Percentage of 0 Taking Regimen Timing near optimal interadministration intervals. Adherence definition Coleman CI. Curr Med Res Opin. 2012;28(5):1–12 “Du gust is megl che one” “One gust is megl che du” Baseline Demographics ROCKET AF Pengo V. Journal of Thrombosis and Haemostasis, 18: 1979–1987 Quali pazienti Il paziente anziano Il paziente con Insufficienza Renale Il paziente con pregresso evento ischemico Il paziente sottoposto a cardioversione elettrica Rivaroxaban nel paziente anziano 1- Subanalysis elderly patients Rationale To determine the efficacy and safety of rivaroxaban compared with warfarin among elderly patients (>75 years old) with AF compared with patients <75 years 6,229 patients were ≥75 years ▪ Mean CHADS2 3.7 vs 3.3 ▪ Female 46% vs. 35% ▪ Prior stroke/TIA 42% vs 65% Halperin JL et al. presented at AHA 2012 ROCKET AF subanalysis elderly patients – Results Age (Years) Stroke/SE (n=14.171) Major Bleeding (n=14.236) <75 HR 0.95 (0.76-1.19) HR 0.96 (0.78-1.19) ≥75 HR 0.80 (0.63-1.02) HR 1.11 (0.92-1.34) p*=0.31 p*=0.34 Rivaroxaban better * p-value for interaction Halperin JL et al. presented at AHA 2012 Warfarin better Rivaroxaban better Warfarin better ROCKET AF subanalysis elderly patients - Conclusion Elderly patients had ‐ higher absolute rates of stroke and systemic embolism ‐ higher absolute rates of major bleeding ‐ similar absolute rates of haemorrhagic stroke The overall relative effects of rivaroxaban vs. warfarin were consistent among elderly (and younger) patients for both efficacy and safety Halperin JL et al. presented at AHA 2012 Rivaroxaban nel paziente con Insufficienza Renale http://eurheartj.oxfordjournals.org/cgi/content/full/ehr342 European Heart Journal Baseline demographics CrCl 30–49 ml/min Characteristic CrCl ≥50 ml/min Rivaroxaban 15 mg od (N=1474) Warfarin (N=1476) Rivaroxaban 20 mg od (N=5637) Warfarin (N=5640) 79 (75–82) 79 (75–83) 71 (63–76) 71 (63–76) 55.0 55.9 35.6 35.4 BMI, median (IQR), kg/m2 25.1 (22.7–28.0) 25.2 (22.8–27.9) 29.2 (26.1–33.0) 28.9 (26.0–32.7) SBP, median (IQR), mm Hg 130 (120–140) 130 (120–140) 130 (120–140) 130 (120–140) Prior ASA use (%) 35.9 37.4 36.4 36.5 Prior VKA use (%) 62.7 61.3 62.2 62.9 Age, median (IQR), yrs Female (%) ASA, acetylsalicylic acid; IQR, interquartile range; VKA, vitamin K antagonist Safety population (minus 9 pts in warfarin arm with no CrCl data) 2 - ROCKET AF: stroke or non-CNS embolism among patients with CrCl 30–49 ml/min 8 Cumulative event rate (%) 7 6 Warfarin 5 4 Rivaroxaban 3 HR (95% CI): 0.84 (0.57, 1.23) 2 1 0 0 120 240 360 480 600 720 840 Days since randomization No. at risk: Rivaroxaban Warfarin 1,434 1,439 1,226 1,261 1,103 1,140 1,027 1,052 Event rates are % per year; Based on Protocol Compliant on Treatment Population Fox KA et al. Eur Heart J 2011; 32 (19): 2387-2394 806 832 621 656 442 455 275 272 ROCKET AF: safety outcomes among patients with CrCl 30–49 ml/min Clinical endpoint (% per year) Rivaroxaban Warfarin (N=7,111) (N=7,116) CrCl ≥50 ml/min‡ CrCl 30–49 ml/min§ HR (95% CI) Rivaroxaban vs warfarin P (interaction) Principal safety outcome* 14.24 17.82 13.67 18.28 1.04 (0.96–1.13) 0.98 (0.84–1.14) 0.45 Major bleeding 3.39 4.49 3.17 4.70 1.07 (0.91–1.26) 0.95 (0.72–1.26) 0.48 Haematocrit or haemoglobin drop 2.54 3.76 2.03 3.28 1.25 (1.03–1.52) 1.14 (0.83–1.58) 0.65 Transfusion 1.49 2.34 1.16 2.00 1.28 (0.99–1.65) 1.17 (0.77–1.76) 0.71 Critical organ 0.83 0.76 1.13 1.39 0.74 (0.55–0.99) 0.55 (0.30–1.00) 0.39 Fatal bleeding 0.23 0.28 0.43 0.74 0.55 (0.32–0.93) 0.39 (0.15–0.99) 0.53 0.44 0.71 0.71 0.88 0.62 (0.42–0.92) 0.81 (0.41–1.60) 0.51 Intracranial haemorrhage 0.01 0.1 1 10 Based on safety population on treatment ‡ § *Composite of major plus non-major clinically relevant bleeding; Rivaroxaban 20 mg od; Rivaroxaban 15 mg od Fox KA et al. Eur Heart J 2011; 32 (19): 2387-2394 ROCKET AF: bleeding sites among patients with CrCl 30–49 ml/min CrCl 30–49 ml/min Warfarin (N=1,476) Rivaroxaban 20 mg (N=5,637) Warfarin (N=5,640) 2.88 1.77 1.79 1.12 Intracranial haemorrhage# 0.71 0.88 0.44 0.71 Macroscopic haematuria 0.05 0.18 0.28 0.19 Bleeding associated with non-cardiac surgery 0.24 0.42 0.15 0.19 Intra-articular 0.00 0.23 0.18 0.17 Epistaxis 0.19 0.09 0.10 0.13 Major bleeding (% per year) Gastrointestinal (upper, lower, and rectal)* Rivaroxaban 15 mg (N=1,474) CrCl ≥50 ml/min *p=0.02 (rivaroxaban vs warfarin in CrCl 30–49 ml/min); p=0.0002 (rivaroxaban vs warfarin in CrCl ≥50 ml/min) #p=0.02 (rivaroxaban vs warfarin in CrCl ≥50 ml/min) Fox KA et al. Eur Heart J 2011; 32 (19): 2387-2394 Ictus emorragico (TF receptor) Mackmann, Anesth Analg. 2009 May; 108(5):1447-52 The role of tissue factor and factor VIIa in hemostasis. ROCKET AF renally impaired patients - Conclusion Patients with AF and moderate renal insufficiency have higher rates of stroke and bleeding than those with normal renal function in both treatment arms Dose adjustment in ROCKET-AF yielded results consistent with the overall trial in comparison with dose-adjusted warfarin Raccomandazioni dell’ESC nei pazienti con IR Raccomandazioni dell’EHRA nei pazienti con IR Backgroun: Vitamin K-Antagonists Induce Vascular Damage Price et al, Arterioscler Thromb Vasc Biol 18 (1998): 1400-1407 Schurgers et al, Blood 109 (2007): 2823-2831 Brodsky et al, Kidney Int 109 (2011): 181-189 Krüger et al, Arterioscler Thromb Vasc Biol 33 (2013): 2618-2624 Change in GFR (CKD-EPI) Assigned to D110, D150 or Warfarin 0 *p< 0.005 vs warfarin Change from Baseline -1 -2 * * -3 DE 110mg bid DE 150mg bid Warfarin * -4 0 3 6 9 12 15 18 21 24 27 30 Months Available patients DE 110mg bid DE 150mg bid Warfarin 3 months 6 months 12 months 24 months 30 months 5130 5171 5243 5000 5005 5146 4686 4696 4895 3368 3434 3519 1672 1685 1703 Michael Böhm, ESC 2014, Barcelona, 30 Aug - 3 Sep 2014 Il paziente con pregresso evento ischemico (TIA/Ictus) 4 - ROCKET AF subanalysis: secondary prevention - Rationale The aim of this prespecified subanalysis was to investigate whether the efficacy and safety of rivaroxaban compared with warfarin is consistent among the subgroups of patients with and without previous stroke or TIA and the entire ROCKET AF study population Because treatment effects might differ between patients with prior stroke/TIA patients because there may be a higher risk of recurrence of stroke and higher risk of bleeding events Cohorts: ‐ History of stroke/TIA (stroke cohort) versus ‐ No history of stroke/TIA (non-stroke cohort) 7468 (52%) patients had a previous stroke (n=4907; 65%) or TIA (n=2561; 34%) Hankey G. Lancet Neurology epub ahead of print March 7, 2012 ROCKET AF – subanalysis: secondary pre-vention – Results: Primary efficacy outcome Cumulative event rate – stroke or systemic embolism (%) Kaplan–Meier survival curve showing time to the primary outcome (stroke or systemic embolism) 7 Previous stroke/ TIA, warfarin 6 Previous stroke/ TIA, rivaroxaban 5 No previous stroke/ TIA, warfarin No previous stroke/ TIA, rivaroxaban 4 3 2 1 0 0 6 12 18 Months from randomisation Intention-to-treat population Hankey G. Lancet Neurology epub ahead of print March 7, 2012 24 30 ROCKET AF – subanalysis: secondary pre-vention – Safety outcome (Safety on-treatment*) HR (95% CI) Rivaroxaban Warfarin Events/yr (nr*) Events/yr (nr*) Principal safety bleeding endpoint 16.69 (785) 13.31 (690) 15.19 (743) 13.87 (706) 1.10 (0.99-1.21) 0.96 (0.87-1.07) 0.08 Major bleeding 4.10 (217) 3.13 (178) 3.69 (203) 3.22 (183) 1.11 (0.92-1.34) 0.97 (0.79-1.19) 0.36 Fatal bleeding 0.22 (12) 0.26 (15) 0.48 (27) 0.49 (28) 0.46 (0.23-0.90) 0.54 (0.29-1.00) 0.74 Intracranial haemorrhage† 0.39 (21) 0.59 (34) 0.68 (38) 0.80 (46) 0.57 (0.34-0.97) 0.74 (0.47-1.15) 0.47 Intracerebral haemorrhage‡ 0.24 (13) 0.45 (26) 0.52 (29) 0.54 (31) 0.46 (0.24-0.89) 0.84 (0.50-1.41) 0.16 Extracerebral haemorrhage§ 0.18 (10) 0.17 (10) 0.30 (17) 0.35 (20) 0.61 (0.28-1.32) 0.50 (0.23-1.07) 0.73 12.93 (620) 10.78 (565) 11.78 (585) 10.98 (566) 1.10 (0.98-1.23) 0.99 (0.88-1.11) 0.20 Non-major clinically relevant bleeding No previous stroke or TIA Previous stroke or TIA 0.1 Safety on-treatment population *nr=number of events Hankey G. Lancet Neurology epub ahead of print March 7, 2012 0.2 0.5 Favours rivaroxaban 1 2 4 10 Favours warfarin p-value* ROCKET AF subanalysis: secondary prevention - Conclusion Efficacy and safety results in patients with prior stroke/TIA were consistent ‐ With patients without prior stroke/TIA and ‐ With the entire ROCKET AF study population Overall bleeding rates were similar ‐ in both treatment arms and ‐ in patients with and without prior stroke/TIA Fatal bleedings as well as ICH were less frequent in the rivaroxaban arm, but this difference did not reach statistical significance These results support the use of rivaroxaban as an alternative to warfarin for both primary and secondary stroke prevention in AF Hankey G. Lancet Neurology epub ahead of print March 7, 2012 Rivaroxaban e cardioversione elettrica X-VeRT: study population Screening (N=1584) Randomized (N=1504) Rivaroxaban (n=1002) Excluded (n=80) •Screening failure (n=71) •Withdrawal by patient (n=7) •Adverse event (n=2) 2:1 Rivaroxaban (n=988) Rivaroxaban (n=978) Cappato R et al. Eur Heart J 2014: doi: 10.1093/eurheartj/ehu367; Cappato R. ESC Congress 2014. Oral presentation 4945 VKA (n=502) VKA (n=499) VKA (n=492) X-VeRT: randomized, open-label, parallel-group, active- R 1–5 days 2:1 VKA Cardioversion strategy Rivaroxaban 20 mg od* Delayed R ≥21 days (max. 56 days) 2:1 VKA Rivaroxaban 20 mg od* 42 days VKA Rivaroxaban 20 mg od* 42 days End of study treatment Early# Rivaroxaban 20 mg od* Cardioversion Inclusion criteria: Age ≥18 years, non-valvular AF lasting >48 h or unknown duration, scheduled for cardioversion Cardioversion controlled multicentre study VKA *15 mg if CrCl 30–49 ml/min; VKA with INR 2.0–3.0; #protocol recommended only if adequate anticoagulation or immediate TEE Ezekowitz MD et al. Am Heart J 2014;167:646–652; www.clinicaltrials.gov. NCT01674647 OAC 30-day follow-up X-VeRT: primary efficacy endpoints Rivaroxaban (N=978) Primary efficacy endpoint Stroke Haemorrhagic stroke VKA (N=492) % n* % n* 0.51 5 1.02 5 0.20 2 0.41 2 0.20 2 Ischaemic stroke 0 Risk ratio (95% CI) 0.50 (0.15–1.73) 0 0.41 2 TIA 0 0 Non-CNS SE 0 0.20 1 MI 0.10 1 0.20 1 Cardiovascular death 0.41 4 0.41 2 *Number of patients with events; patients may have experienced more than one primary efficacy event mITT population Cappato R et al. Eur Heart J 2014: doi: 10.1093/eurheartj/ehu367 X-VeRT: time to cardioversion by cardioversion strategy Median time to cardioversion 100 Rivaroxaban VKA Patients cardioverted as scheduled* p<0.001 p<0.001 60 p=0.628 40 22 days 20 30 days Patients (%) Days 80 1 patient with inadequate anticoagulation 95 patients with inadequate anticoagulation 0 Early Delayed Delayed cardioversion *Reason for not performing cardioversion as first scheduled from 21–25 days primarily due to inadequate anticoagulation (indicated by drug compliance <80% for rivaroxaban or weekly INRs outside the range of 2.0–3.0 for 3 consecutive weeks before cardioversion for VKA) Cappato R et al. Eur Heart J 2014: doi: 10.1093/eurheartj/ehu367 Clinical implications: rivaroxaban in the cardioversion setting • Based on data from X-VeRT, rivaroxaban can be regarded as an effective and safe alternative to VKAs in patients with AF scheduled for cardioversion irrespective of: I. Early (with or without a TEE-guided approach) or delayed cardioversion strategy II. Cardioversion (electrical or pharmacological) strategy • Results demonstrate that rivaroxaban may overcome critical limitations of VKA treatment in the setting of cardioversion, including a significant reduction in time to cardioversion Cappato R et al. Eur Heart J 2014: doi: 10.1093/eurheartj/ehu367; Cappato R. ESC Congress 2014. Oral presentation 4945 Rivaroxaban e CVE Conclusioni Rivaroxaban è un farmaco efficace e sicuro e che garantisce un’ottima compliance e maneggevolezza Rivaroxaban mantiene un beneficio clinico netto favorevole anche in diverse sottopopolazioni di pazienti fragili (anziani, IR, pregresso ictus) Rivaroxaban può essere utilizzato con assoluta sicurezza per le CVE