Restenosis and risk of stroke after stenting or endarterectomy for symptomatic carotid stenosis in the International Carotid Stenting Study (ICSS): secondary analysis of a randomised trial

Leo H Bonati, John Gregson, Joanna Dobson, Dominick J H McCabe, Paul J Nederkoorn, H Bart van der Worp, Gert J de Borst, Toby Richards, Trevor Cleveland, Mandy D Müller, Thomas Wolff, Stefan T Engelter, Philippe A Lyrer, Martin M Brown, International Carotid Stenting Study investigators, Ale Algra, S J Bakke, Neil Baldwin, Jonathan Beard, Christopher Bladin, J Martin Bland, J Boiten, Mark Bosiers, A W Bradbury, David Canovas, Brian Chambers, Angel Chamorro, Jonathan Chataway, Andrew Clifton, Rory Collins, Lucy Coward, Anna Czlonkowska, Stephen Davis, L DeJaegher, David Doig, Paul Dorman, Jörg Ederle, Roland F Featherstone, Jose M Ferro, Peter Gaines, G Gilling-Smith, M Goertler, A Gottsäter, Werne Hacke, Alison Halliday, George Hamilton, J M H Hendriks, Michael Hill, L Jaap Kapelle, Markku Kaste, Fiona Kennedy, P Konrad, Ljs Kool, Peter J Koudstaal, I Malik, Hugh Markus, Peter Martin, Jean-Louis Mas, Charles McCollum, T McGahan, A J McGuire, Philippe Michel, Andrew Molyneux, Jane Moroney, A Mosch, J Moss, Ross Naylor, A Peeters, D Roy, David Schultz, D M Seriki, R A Shinton, Paul Sidhu, J Stewart, G Subramanian, R Sztajzel, P G Than, Daffyd Thomas, E Turner, J S P van den Berg, G Vanhooren, Graham Venables, Nils Wahlgren, S Walker, Charles Warlow, Bojana Zvan, Leo H Bonati, John Gregson, Joanna Dobson, Dominick J H McCabe, Paul J Nederkoorn, H Bart van der Worp, Gert J de Borst, Toby Richards, Trevor Cleveland, Mandy D Müller, Thomas Wolff, Stefan T Engelter, Philippe A Lyrer, Martin M Brown, International Carotid Stenting Study investigators, Ale Algra, S J Bakke, Neil Baldwin, Jonathan Beard, Christopher Bladin, J Martin Bland, J Boiten, Mark Bosiers, A W Bradbury, David Canovas, Brian Chambers, Angel Chamorro, Jonathan Chataway, Andrew Clifton, Rory Collins, Lucy Coward, Anna Czlonkowska, Stephen Davis, L DeJaegher, David Doig, Paul Dorman, Jörg Ederle, Roland F Featherstone, Jose M Ferro, Peter Gaines, G Gilling-Smith, M Goertler, A Gottsäter, Werne Hacke, Alison Halliday, George Hamilton, J M H Hendriks, Michael Hill, L Jaap Kapelle, Markku Kaste, Fiona Kennedy, P Konrad, Ljs Kool, Peter J Koudstaal, I Malik, Hugh Markus, Peter Martin, Jean-Louis Mas, Charles McCollum, T McGahan, A J McGuire, Philippe Michel, Andrew Molyneux, Jane Moroney, A Mosch, J Moss, Ross Naylor, A Peeters, D Roy, David Schultz, D M Seriki, R A Shinton, Paul Sidhu, J Stewart, G Subramanian, R Sztajzel, P G Than, Daffyd Thomas, E Turner, J S P van den Berg, G Vanhooren, Graham Venables, Nils Wahlgren, S Walker, Charles Warlow, Bojana Zvan

Abstract

Background: The risk of stroke associated with carotid artery restenosis after stenting or endarterectomy is unclear. We aimed to compare the long-term risk of restenosis after these treatments and to investigate if restenosis causes stroke in a secondary analysis of the International Carotid Stenting Study (ICSS).

Methods: ICSS is a parallel-group randomised trial at 50 tertiary care centres in Europe, Australia, New Zealand, and Canada. Patients aged 40 years or older with symptomatic carotid stenosis measuring 50% or more were randomly assigned either stenting or endarterectomy in a 1:1 ratio. Randomisation was computer-generated and done centrally, with allocation by telephone or fax, stratified by centre, and with minimisation for sex, age, side of stenosis, and occlusion of the contralateral carotid artery. Patients were followed up both clinically and with carotid duplex ultrasound at baseline, 30 days after treatment, 6 months after randomisation, then annually for up to 10 years. We included patients whose assigned treatment was completed and who had at least one ultrasound examination after treatment. Restenosis was defined as any narrowing of the treated artery measuring 50% or more (at least moderate) or 70% or more (severe), or occlusion of the artery. The degree of restenosis based on ultrasound velocities and clinical outcome events were adjudicated centrally; assessors were masked to treatment assignment. Restenosis was analysed using interval-censored models and its association with later ipsilateral stroke using Cox regression. This trial is registered with the ISRCTN registry, number ISRCTN25337470. This report presents a secondary analysis, and follow-up is complete.

Findings: Between May, 2001, and October, 2008, 1713 patients were enrolled and randomly allocated treatment (855 were assigned stenting and 858 endarterectomy), of whom 1530 individuals were followed up with ultrasound (737 assigned stenting and 793 endarterectomy) for a median of 4·0 years (IQR 2·3-5·0). At least moderate restenosis (≥50%) occurred in 274 patients after stenting (cumulative 5-year risk 40·7%) and in 217 after endarterectomy (29·6%; unadjusted hazard ratio [HR] 1·43, 95% CI 1·21-1·72; p<0·0001). Patients with at least moderate restenosis (≥50%) had a higher risk of ipsilateral stroke than did individuals without restenosis in the overall patient population (HR 3·18, 95% CI 1·52-6·67; p=0·002) and in the endarterectomy group alone (5·75, 1·80-18·33; p=0·003), but no significant increase in stroke risk after restenosis was recorded in the stenting group (2·03, 0·77-5·37; p=0·154; p=0·10 for interaction with treatment). No difference was noted in the risk of severe restenosis (≥70%) or subsequent stroke between the two treatment groups.

Interpretation: At least moderate (≥50%) restenosis occurred more frequently after stenting than after endarterectomy and increased the risk for ipsilateral stroke in the overall population. Whether the restenosis-mediated risk of stroke differs between stenting and endarterectomy requires further research.

Funding: Medical Research Council, the Stroke Association, Sanofi-Synthélabo, and the European Union.

Copyright © 2018 The Author(s). Published by Elsevier Ltd. This is an Open Access Article under the CC BY license. Published by Elsevier Ltd.. All rights reserved.

Figures

Figure 1
Figure 1
Trial profile
Figure 2
Figure 2
Cumulative incidence of (A) at least moderate (≥50%) carotid artery restenosis or occlusion and (B) severe (≥70%) carotid artery restenosis or occlusion after completed treatment Cumulative incidence was estimated by life-table analysis. Plots stop at 7 years' follow-up because the number of patients at risk beyond that time was fewer than 100, but analyses were based on all follow-up data (maximum 10 years). HR=unadjusted hazard ratio.
Figure 3
Figure 3
Kaplan-Meier curves of time to (A–C) ipsilateral stroke and (D–F) stroke in any territory with and without at least moderate (≥50%) carotid artery restenosis or occlusion HR=unadjusted hazard ratio.

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