Health Technology Assessment 2004;Vol. 8: No. 1 Methodology What is the best imaging strategy for acute stroke? JM Wardlaw, SL Keir, J Seymour, S Lewis, PAG Sandercock, MS Dennis and J Cairns January 2004 HTA Health Technology Assessment NHS R&D HTA Programme HTA How to obtain copies of this and other HTA Programme reports. An electronic version of this publication, in Adobe Acrobat format, is available for downloading free of charge for personal use from the HTA website (http://www.hta.ac.uk). A fully searchable CD-ROM is also available (see below). Printed copies of HTA monographs cost £20 each (post and packing free in the UK) to both public and private sector purchasers from our Despatch Agents. Non-UK purchasers will have to pay a small fee for post and packing. For European countries the cost is £2 per monograph and for the rest of the world £3 per monograph. 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What is the best imaging strategy for acute stroke? 1* 1 2 1 JM Wardlaw, SL Keir, J Seymour, S Lewis, 1 1 2 PAG Sandercock, MS Dennis and J Cairns 1 Department of Clinical Neurosciences, Western General Hospital (University of Edinburgh), Edinburgh, UK 2 Health Economics Research Unit, University of Aberdeen, UK * Corresponding author Declared competing interests of authors:see Appendix 11. Published January 2004 This report should be referenced as follows: Wardlaw JM, Keir SL, Seymour J, Lewis S, Sandercock PAG, Dennis MS, et al. What is the best imaging strategy for acute stroke? Health Technol Assess2004;8(1). Health Technology Assessmentis indexed in Index Medicus/MEDLINE and Excerpta Medica/ EMBASE. 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G Printed on acid-free paper in the UK by St Edmundsbury Press Ltd, Bury St Edmunds, Suffolk. Health Technology Assessment2004; Vol. 8: No. 1 Abstract What is the best imaging strategy for acute stroke? JM Wardlaw,1* SL Keir,1 J Seymour,2 S Lewis,1 PAG Sandercock,1 MS Dennis1 and J Cairns2 1Department of Clinical Neurosciences, Western General Hospital (University of Edinburgh), Edinburgh, UK 2Health Economics Research Unit, University of Aberdeen, Aberdeen, UK * Corresponding author Objectives: To determine the cost-effectiveness of suggests that the frequency of primary intracerebral computed tomographic (CT) scanning after acute haemorrhage (PICH) has been underestimated. Aspirin stroke. To assess the contribution of brain imaging to increases the risk of PICH. There were no reliable data the diagnosis and management of stroke, and to on functional outcome or on the effect of estimate the costs, benefits and risks of different antithrombotic treatment given long term after PICH. imaging strategies in order to provide data to inform In 60% of patients with recurrent stroke after PICH, national and local policy on the use of brain imaging in the cause is another PICH and mortality is high among stroke. PICH patients. A specific MR sequence (gradient echo) Design: A decision-analysis model was developed to is required to identify prior PICH reliably. CT scanners represent the pathway of care in acute stroke using were distributed unevenly in Scotland, 65% provided ‘scan all patients within 48 hours’ as the comparator CT scanning within 48 hours of stroke, and 100% against which to cost 12 alternative scan strategies. within 7 days for hospital-admitted patients, but access Setting: Hospitals in Scotland. out of hours was very variable, and for outpatients was Participants: Subjects were patients admitted to poor. The average cost of a CT brain scan for stroke hospital with a first stroke and those managed as was £30.23 to £89.56 in normal working hours and outpatients. £55.05 to £173.46 out of hours. Average length of stay Interventions: The effect on functional outcome after was greatest for severe strokes and those who survived ischaemic or haemorrhagic stroke, tumours or in a dependent state. For a cohort of 1000 patients infections, of correctly administered antithrombotic or aged 70–74 years, the policy ‘scan all strokes within 48 other treatment; of time to scan and stroke severity on hours’, cost £10,279,728 and achieved 1982.3 QALYS. diagnosis by CT or MRI; on management, including The most cost-effective strategy was ‘scan all length of stay, functional outcome, and quality-adjusted immediately’ (£9,993,676 and 1982.4 QALYS). The life years (QALYs), of the diagnostic information least cost-effective was to ‘scan patients on provided by CT scanning; the cost-effectiveness (cost anticoagulants, in a life-threatening condition versus QALYs) of different strategies for use of CT immediately and the rest within 14 days’. after acute stroke. Conclusions: In general, strategies in which most Main outcome measures: Death and functional patients were scanned immediately cost least and outcome at long-term follow-up; accuracy of CT and achieved the most QALYs, as the cost of providing CT MRI; cost of CT scanning by time of day and week; (even out of hours) was less than the cost of inpatient effect of CT diagnosis on change in health outcome, care. Increasing independent survival by even a small length of stay in hospital and QALYs; cost-effectiveness proportion through early use of aspirin in the majority of various scanning strategies. with ischaemic stroke, avoiding aspirin in those with Results: CT is very sensitive and specific for haemorrhagic stroke, and appropriate early haemorrhage within the first 8 days of stroke only. management of those who have not had a stroke, Suboptimal scanning used in epidemiology studies reduced costs and increased QALYs. iii © Queen’s Printer and Controller of HMSO 2004. All rights reserved. Health Technology Assessment2004; Vol. 8: No. 1 Contents List of abbreviations .................................. vii 5 Cost-effectiveness of CT in stroke: a systematic review of the available Executive summary .................................... ix evidence, detailed costings and decision modelling analysis ...................................... 71 1 Background ................................................ 1 Systematic review of previous studies The burden of stroke: death, disability and of the cost-effectiveness of CT loss of quality of life ................................... 1 in stroke ...................................................... 71 The cost of stroke ....................................... 1 Development of the cost-effectiveness Incidence of types of stroke and outcomes .. 2 model and decision tree, including devising Current primary treatment and secondary a menu of representative scanning prevention of stroke ................................... 3 strategies ..................................................... 73 The need for brain imaging ...................... 4 Data for the model: probability table, Reasons for the controversy over CT outcomes and costs .................................... 78 scanning ..................................................... 5 Current provision of CT scanning for Current standards of care and stroke: questionnaire survey of CT scanning guidelines ................................................... 7 departments in Scotland linked to The questions posed in this project ........... 8 population distribution .............................. 100 What information is required to determine Results of the analysis of the whether CT is cost-effective or not? .......... 8 cost-effectiveness model for CT scanning, Potential applications of these results ........ 9 and sensitivity analyses ............................... 109 2 The contribution of brain imaging to the 6 Discussion ................................................... 113 diagnosis of stroke: a systematic review of Robustness of the conclusions .................... 113 the accuracy of the clinical diagnosis of Difficulties in undertaking this work ......... 114 stroke ......................................................... 11 Limitations ................................................. 116 Background ................................................ 11 Generalisability of the results ..................... 116 Methods ...................................................... 12 Implications for healthcare ........................ 117 Details of included studies ......................... 13 Implications for research ........................... 118 Details of excluded studies ......................... 15 Results ........................................................ 15 Acknowledgements .................................... 121 Discussion ................................................... 18 Conclusions ................................................ 20 References .................................................. 123 3 The reliability of imaging in the diagnosis Appendix 1 Definitions ............................. 137 of haemorrhage and infarction .................. 21 Systematic descriptive study of the diagnostic Appendix 2 Tables of information sought accuracy of CT and MR in stroke .............. 21 at start of project, likely sources and Primary study comparing CT with information contained therein ................... 139 MRI ............................................................ 39 Discussion ................................................... 54 Appendix 3 ICD-9 and ICD-10 codes ...... 143 Conclusions ................................................ 56 Appendix 4 Search strategies for imaging 4 Contribution of brain imaging to and epidemiology ...................................... 145 therapeutic decision-making in stroke ..... 59 Background ................................................ 59 Appendix 5 Search strategies: systematic Methods ...................................................... 61 review of cost-effectiveness of CT scanning Details of the included trials ...................... 62 for stroke .................................................... 149 Results ........................................................ 65 Discussion ................................................... 68 Appendix 6 Questionnaire for Scottish CT Conclusions ................................................ 69 scanning departments ................................ 151 v Contents Appendix 7 Current provision of CT Appendix 10 Publications and scanners in Scotland .................................. 165 presentations .............................................. 177 Appendix 8 Costings of CT scanning Appendix 11 Authors’ declared conflicts of interest ............................................................ 179 services from three hospitals in Scotland within normal working hours and out Health Technology Assessment reports of hours ...................................................... 167 published to date ....................................... 181 Appendix 9 Results of the sensitivity Health Technology Assessment analysis ....................................................... 173 Programme ................................................ 189 vi Health Technology Assessment2004; Vol. 8: No. 1 List of abbreviations ABN Association of British Neurologists HRQoL health-related quality of life ACCP American College of Chest HTI haemorrhagic transformation of an Physicians infarct AF atrial fibrillation ICH intracerebral haemorrhage ANOVA analysis of variance ISD Information and Statistics Division of the Scottish Office APTT activated partial thromboplastin time IST International Stroke Trial ARI Aberdeen Royal Infirmary LACI lacunar infarction ATT Antithrombotic Trialists’ LACS lacunar syndrome Collaboration LOS length of stay BG basal ganglia LSR Lothian Stroke Register BGH Borders General Hospital MCA middle cerebral artery CAST Chinese Acute Stroke Trial MI myocardial infarction CCTR Cochrane Controlled Trials Register MR magnetic resonance CHD coronary heart disease MRI magnetic resonance imaging CI confidence interval mRS modified Rankin scale CMA Canadian Medical Association NINDS National Institutes of Neurological CT computed tomography Diseases and Stroke DGH district general hospital NSAID non-steroidal anti-inflammatory drug DWI diffusion-weighted imaging OCSP Oxfordshire Community Stroke DVT deep vein thrombosis Project EAC equivalent annual cost OR odds ratio ECG electrocardiogram PACI partial anterior circulation FLAIR fluid-attenuated inversion recovery infarction magnetic resonance imaging PACS partial anterior circulation FSE T2 T2-weighted fast spin-echo syndrome FSE fast spin-echo PD proton density-weighted magnetic resonance imaging GIS Geographical Information Service PE pulmonary embolism GRE gradient echo magnetic resonance imaging PHV prosthetic heart valve GROS General Registers Office of Scotland PICH primary intracerebral haemorrhage HI haemorrhagic infarction PMV prosthetic mitral valve HMCAS hyperdense middle cerebral artery sign continued vii © Queen’s Printer and Controller of HMSO 2004. All rights reserved. List of abbreviations List of abbreviations continued POCI posterior circulation infarction SRI Stirling Royal Infirmary POCS posterior circulation syndrome STICH surgical treatment of intracerebral haemorrhage QALY quality-adjusted life year T1 T1-weighted magnetic resonance RCR Royal College of Radiologists imaging RCT randomised controlled trial T2 T2-weighted magnetic resonance rt-PA recombinant tissue plasminogen imaging activator TACI total anterior circulation SAH subarachnoid haemorrhage infarction SDH subdural haematoma TACS total anterior circulation SHPIC Scottish Health Purchasing syndrome Information Centre TIA transient ischaemic attack SIGN Scottish Intercollegiate Guidelines TTO time trade-off Network WHO World Health Organization SPECT single-photon emission computed tomography WMHI white matter hyperintensities All abbreviations that have been used in this report are listed here unless the abbreviation is well known (e.g. NHS), or it has been used only once, or it is a non-standard abbreviation used only in figures/tables/appendices in which case the abbreviation is defined in the figure legend or at the end of the table. viii
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