TY - JOUR
T1 - Aggressive medical treatment with or without stenting in high-risk patients with intracranial artery stenosis (SAMMPRIS)
T2 - The final results of a randomised trial
AU - Derdeyn, Colin P.
AU - Chimowitz, Marc I.
AU - Lynn, Michael J.
AU - Fiorella, David
AU - Turan, Tanya N.
AU - Janis, L. Scott
AU - Montgomery, Jean
AU - Nizam, Azhar
AU - Lane, Bethany F.
AU - Lutsep, Helmi L.
AU - Barnwell, Stanley L.
AU - Waters, Michael F.
AU - Hoh, Brian L.
AU - Hourihane, J. Maurice
AU - Levy, Elad I.
AU - Alexandrov, Andrei V.
AU - Harrigan, Mark R.
AU - Chiu, David
AU - Klucznik, Richard P.
AU - Clark, Joni M.
AU - McDougall, Cameron G.
AU - Johnson, Mark D.
AU - Pride, G. Lee
AU - Lynch, John R.
AU - Zaidat, Osama O.
AU - Rumboldt, Zoran
AU - Cloft, Harry J.
N1 - Funding Information:
This study was funded by a research grant ( U01 NS058728 ) from the US Public Health Service National Institute of Neurological Disorders and Stroke (NINDS) . Additionally, the following Clinical and Translational Science Awards, funded by the National Institutes of Health, provided local support for the assessment of patients in the trial: Medical University of South Carolina ( UL1RR029882 ), University of Florida ( UL1RR029889 ), University of Cincinnati ( UL1RR029890 ), and University of California, San Francisco ( UL1RR024131 ). Stryker Neurovascular (formerly Boston Scientific Neurovascular) provided study devices and supplemental funding for third party device distribution, site monitoring, and study auditing. This research was also supported by the Investigator-Sponsored Study Program of AstraZeneca, which donated rosuvastatin (Crestor) to study patients. INTERVENT provided the lifestyle modification programme to the study at a discounted rate. The Regulatory and Clinical Research Institute (RCRI; Minneapolis, MN, USA) provided assistance in designing the site monitoring processes and did the site monitoring visits. The VA Cooperative Studies Program Clinical Research Pharmacy Coordinating Center (Albuquerque, NM, USA) handled the procurement, labelling, distribution, and inventory management of the study devices and rosuvastatin. Walgreens pharmacies provided study drugs other than rosuvastatin to patients at a discounted price (paid for by the study). The PACE self-assessment forms for physical activity and smoking cessation were provided by the San Diego Center for Health Interventions, LLC. We thank the patients for participating in this study; Oscar Benavente, Carole White, Robert Hart, Pablo Pergola, and Ana Roldan of the Secondary Prevention of Small Subcortical Strokes trial (SPS3, NCT00059306 ) for assisting with the development and implementation of the SAMMPRIS blood pressure management protocol; George Howard and Thomas Brott for providing advice on study design and other issues based on their experience with the Carotid Revascularization Endarterectomy versus Stenting Trial (CREST, NCT00004732 ); and Rie Calcaterra who helped with the SAMMPRIS grant application and with the launching of the trial.
Funding Information:
CPD has associations with companies that manufacture medical devices for the treatment of cerebovascular disease in general, although none directly involved in this study—these are WL Gore and Associates (Scientific Advisory Board and Consultant), Microvention (Angiographic Core Laboratory for clinical trial), Penumbra (DSMB member for clinical trial), and Pulse Therapeutics (Chair, Scientific Advisory Board). MIC reports grants from NIH/NINDS and other support from AstraZeneca and Stryker Neurovascular (formerly Boston Scientific Neurovascular) related to this study. He also reports other grants from NIH/NINDS and personal fees from Gore Associates, Merck /Parexel, and Medtronic for participating as a stroke adjudicator or data safety monitoring board member on clinical trials unrelated to the submitted work. He also reports personal fees as an Expert Witness in medical legal cases related to stroke. MJL reports grants from National Institute of Neurological Disorders and Stroke during the conduct of the study. DF reports Siemens Microintervention Institutional payment for research and salary support; Covidien Ev3, Cordis, NFocus Medical, MicrusEndovascular consulting fees; Codman and Shurtleff (REVIVE) royalties; Vascular Simulators LLC, TDC Technologies and CVSL ownership and stock interests. TNT reports grants from NIH/NINDS and other support from AstraZeneca and Stryker Neurovascular related to this study; a K23 grant from NIH/NINDS unrelated to this project; other from CardioNet (consultant); personal fees from Gore and Boehringer Ingelheim for participating as a stroke adjudicator in clinical trials unrelated to this work; and personal fees as an Expert Witness in medical legal cases unrelated to this research. AN reports grant from the National Institute for Neurological Disorders and Stroke ( U01 NS058728 ). HLL reports one-time payments for investigator meetings and executive committee participation for this study. EIL reports grants from Boston Scientific Corporation, other from Codman and Shurtleff, ev3/Covidien Vascular Therapies; Boston Scientific, other from Intratech Medical and Mynx Access Closure, other from Codman and Shurtleff and TheraSyn Sensors, other from EV3 Covidien Vascular therapies & Blockade Medical LLC, other from Boston Scientific, other from Abbott Vascular and ev3 Covidien Vascular, other from Medical Legal Review outside the submitted work. CGM reports consultant and proctor for eV3, consultant for Microvention, and consultant for Codman. ZR reports NIH Federal Funding for this grant and other research support from Siemens and Bracco Diagnostics. All other authors declare that they have no conflicts of interest.
PY - 2014
Y1 - 2014
N2 - Background Early results of the Stenting and Aggressive Medical Management for Preventing Recurrent stroke in Intracranial Stenosis trial showed that, by 30 days, 33 (14·7%) of 224 patients in the stenting group and 13 (5·8%) of 227 patients in the medical group had died or had a stroke (percentages are product limit estimates), but provided insufficient data to establish whether stenting offered any longer-term benefit. Here we report the long-term outcome of patients in this trial. Methods We randomly assigned (1:1, stratified by centre with randomly permuted block sizes) 451 patients with recent transient ischaemic attack or stroke related to 70-99% stenosis of a major intracranial artery to aggressive medical management (antiplatelet therapy, intensive management of vascular risk factors, and a lifestyle-modification programme) or aggressive medical management plus stenting with the Wingspan stent. The primary endpoint was any of the following: stroke or death within 30 days after enrolment, ischaemic stroke in the territory of the qualifying artery beyond 30 days of enrolment, or stroke or death within 30 days after a revascularisation procedure of the qualifying lesion during follow-up. Primary endpoint analysis of between-group differences with log-rank test was by intention to treat. This study is registered with ClinicalTrials.gov, number NCT 00576693. Findings During a median follow-up of 32·4 months, 34 (15%) of 227 patients in the medical group and 52 (23%) of 224 patients in the stenting group had a primary endpoint event. The cumulative probability of the primary endpoints was smaller in the medical group versus the percutaneous transluminal angioplasty and stenting (PTAS) group (p=0·0252). Beyond 30 days, 21 (10%) of 210 patients in the medical group and 19 (10%) of 191 patients in the stenting group had a primary endpoint. The absolute differences in the primary endpoint rates between the two groups were 7·1% at year 1 (95% CI 0·2 to 13·8%; p=0·0428), 6·5% at year 2 (-0·5 to 13·5%; p=0·07) and 9·0% at year 3 (1·5 to 16·5%; p=0·0193). The occurrence of the following adverse events was higher in the PTAS group than in the medical group: any stroke (59 [26%] of 224 patients vs 42 [19%] of 227 patients; p=0·0468) and major haemorrhage (29 [13%] of 224 patients vs 10 [4%] of 227 patients; p=0·0009). Interpretation The early benefit of aggressive medical management over stenting with the Wingspan stent for highrisk patients with intracranial stenosis persists over extended follow-up. Our findings lend support to the use of aggressive medical management rather than PTAS with the Wingspan system in high-risk patients with atherosclerotic intracranial arterial stenosis. Funding National Institute of Neurological Disorders and Stroke (NINDS) and others.
AB - Background Early results of the Stenting and Aggressive Medical Management for Preventing Recurrent stroke in Intracranial Stenosis trial showed that, by 30 days, 33 (14·7%) of 224 patients in the stenting group and 13 (5·8%) of 227 patients in the medical group had died or had a stroke (percentages are product limit estimates), but provided insufficient data to establish whether stenting offered any longer-term benefit. Here we report the long-term outcome of patients in this trial. Methods We randomly assigned (1:1, stratified by centre with randomly permuted block sizes) 451 patients with recent transient ischaemic attack or stroke related to 70-99% stenosis of a major intracranial artery to aggressive medical management (antiplatelet therapy, intensive management of vascular risk factors, and a lifestyle-modification programme) or aggressive medical management plus stenting with the Wingspan stent. The primary endpoint was any of the following: stroke or death within 30 days after enrolment, ischaemic stroke in the territory of the qualifying artery beyond 30 days of enrolment, or stroke or death within 30 days after a revascularisation procedure of the qualifying lesion during follow-up. Primary endpoint analysis of between-group differences with log-rank test was by intention to treat. This study is registered with ClinicalTrials.gov, number NCT 00576693. Findings During a median follow-up of 32·4 months, 34 (15%) of 227 patients in the medical group and 52 (23%) of 224 patients in the stenting group had a primary endpoint event. The cumulative probability of the primary endpoints was smaller in the medical group versus the percutaneous transluminal angioplasty and stenting (PTAS) group (p=0·0252). Beyond 30 days, 21 (10%) of 210 patients in the medical group and 19 (10%) of 191 patients in the stenting group had a primary endpoint. The absolute differences in the primary endpoint rates between the two groups were 7·1% at year 1 (95% CI 0·2 to 13·8%; p=0·0428), 6·5% at year 2 (-0·5 to 13·5%; p=0·07) and 9·0% at year 3 (1·5 to 16·5%; p=0·0193). The occurrence of the following adverse events was higher in the PTAS group than in the medical group: any stroke (59 [26%] of 224 patients vs 42 [19%] of 227 patients; p=0·0468) and major haemorrhage (29 [13%] of 224 patients vs 10 [4%] of 227 patients; p=0·0009). Interpretation The early benefit of aggressive medical management over stenting with the Wingspan stent for highrisk patients with intracranial stenosis persists over extended follow-up. Our findings lend support to the use of aggressive medical management rather than PTAS with the Wingspan system in high-risk patients with atherosclerotic intracranial arterial stenosis. Funding National Institute of Neurological Disorders and Stroke (NINDS) and others.
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U2 - 10.1016/S0140-6736(13)62038-3
DO - 10.1016/S0140-6736(13)62038-3
M3 - Article
C2 - 24168957
AN - SCOPUS:84892835860
SN - 0140-6736
VL - 383
SP - 333
EP - 341
JO - The Lancet
JF - The Lancet
IS - 9914
ER -