Appendix 479. Min JKF. The prognostic value <strong>of</strong> multidetector coronary CT angiography for the prediction <strong>of</strong> majoradverse cardiovascular events: a multicenter observational cohort study. Int J Cardiovasc Imaging2010;26:721–8.80. Mitsumori LM, Wang E, May JM, Lockhart DW, Branch KR, Dubinsky TJ, et al. Triphasic ContrastBolus for Whole-Chest ECG-Gated 64-MDCT <strong>of</strong> Patients With Nonspecific Chest Pain: Evaluation <strong>of</strong>Arterial Enhancement <strong>and</strong> Streak Artifact. Am J Roentgenol 2010;194:W263–71.81. Mollet NRC. High-resolution spiral computed tomography coronary angiography in patients referredfor diagnostic conventional coronary angiography. Circ Cardiovasc Imaging 2005;112:2318–23.82. Mollet NRC. Improved diagnostic accuracy with 16-row multi-slice computed tomography coronaryangiography. J Am Coll Cardiol 2005;45:128–32.83. Motoyama S, Sarai M, Harigaya H, Anno H, Inoue K, Hara T, et al. Computed tomographicangiography characteristics <strong>of</strong> atherosclerotic plaques subsequently resulting in acute coronarysyndrome. J Am Coll Cardiol 2009;54:49–57.84. Murphy JC, Scott PJ, Shannon HJ, Glover B, Dougan J, Walsh SJ, et al. ST elevation on the exerciseECG in patients presenting with chest pain <strong>and</strong> no prior history <strong>of</strong> myocardial infarction. Heart2009;95:1792–7.85. Newman DH. Computed tomographic angiography for low risk chest pain: seeking passage. AnnEmerg Med 2009;53:305–8.86. Nicol EDS. Clinical management <strong>and</strong> short-term cost – 64-slice MDCT vs. myocardial perfusionscintigraphy. Int J Cardiol 2010;144:248–50.87. Nicol EDS. Sixty-four-slice computed tomography coronary angiography compared with myocardialperfusion scintigraphy for the diagnosis <strong>of</strong> functionally significant coronary stenoses in patients witha low to intermediate likelihood <strong>of</strong> coronary artery disease. J Nucl Cardiol 2008;15:311–18.88. Nieman K, Galema TW, Neefjes LA, Weustink AC, Musters P, Moelker AD, et al. Comparison <strong>of</strong> thevalue <strong>of</strong> coronary calcium detection to computed tomographic angiography <strong>and</strong> exercise testing inpatients with chest pain. Am J Cardiol 2009;104:1499–504.89. Nikolaou K, Knez A, Sagmeister S, Wintersperger BJ, Boekstegers P, Steinbeck G, et al. Assessment<strong>of</strong> myocardial infarctions using multidetector-row computed tomography. J Comput Assist Tomogr2004;28:286–92.90. Nikolaou K, Sanz J, Poon M, Wintersperger BJ, Ohnesorge B, Rius T, et al. Assessment <strong>of</strong> myocardialperfusion <strong>and</strong> viability from routine contrast-enhanced 16-detector-row computed tomography <strong>of</strong>the heart: preliminary results. Eur Radiol 2005;15:864–71.91. Nikolaou K, Sagmeister S, Knez A, Klotz E, Wintersperger BJ, Becker CR, et al. Multidetector-rowcomputed tomography <strong>of</strong> the coronary arteries: predictive value <strong>and</strong> quantitative assessment <strong>of</strong>non-calcified vessel-wall changes. Eur Radiol 2003;13:2505–12.92. Nucifora G, Schuijf JD, van Werkhoven JM, Djaberi R, van der Wall EE, de RA, et al. Relationbetween Framingham risk categories <strong>and</strong> the presence <strong>of</strong> functionally relevant coronarylesions as determined on multislice computed tomography <strong>and</strong> stress testing. Am J Cardiol2009;104:758–63.93. Ong TK, Chin SP, Liew CK, Chan WL, Seyfarth MT, Liew HB, et al. Accuracy <strong>of</strong> 64-row multicletectorcomputed tomography in detecting coronary artery disease in 134 symptomatic patients: influence<strong>of</strong> calcification. Am Heart J 2006;151:1323.94. Ouzan JH. A multivariate <strong>analysis</strong> <strong>of</strong> the diagnostic values <strong>of</strong> clinical examination, exerciseelectrocardiography <strong>and</strong> stress radionuclide angiography in coronary artery disease. Arch Mal CoeurVaiss 1988;81:941–6.156NIHR Journals Library
DOI: 10.3310/hta17010 Health Technology Assessment 2013 Vol. 17 No. 195. Ouzan JH. Role <strong>of</strong> clinical manifestations, the exercise test <strong>and</strong> exertion angioscintigraphy in thediagnosis <strong>of</strong> coronary disease. A multivariate study. Arch Mal Coeur Vaiss 1988;81:941–6.96. Patterson REE. Comparison <strong>of</strong> cost-effectiveness <strong>and</strong> utility <strong>of</strong> exercise ECG, single photon emissioncomputed tomography, positron emission tomography, <strong>and</strong> coronary angiography for diagnosis <strong>of</strong>coronary artery disease. Circ Cardiovasc Imaging 1995;91:54–65.97. Pazhenkottil APH. Non-invasive assessment <strong>of</strong> coronary artery disease with CT coronary angiography<strong>and</strong> SPECT: A novel dose-saving fast-track algorithm. European Journal <strong>of</strong> Nuclear Medicine <strong>and</strong>Molecular Imaging 2010;37:522–7.98. Peteiro J, Bouzas A, Portillo P. Assessment <strong>of</strong> coronary artery disease by exercise echocardiography.Salud I Ciencia 2009;16:755–8.99. Placer Peralta LJ, Sanchez-Navarro F, Lomas FJ, Laperal Mur JR, Diarte de Miguel JA, Artal BA, etal. [Usefulness <strong>of</strong> exercise echocardiography for the diagnosis <strong>of</strong> ischemic heart disease.] Rev EspCardiol 1994;47:12–16.100. Polizos G, Ghamsary M, Ellestad MH, Polizos G, Ghamsary M, Ellestad MH. The severity<strong>of</strong> myocardial ischemia can be predicted by the exercise electrocardiogram. Cardiology2005;104:215–20.101. Pugliese FM. Diagnostic performance <strong>of</strong> coronary CT angiography by using different generations <strong>of</strong>multisection scanners: single-center experience. Radiology 2008;246:384–93.102. Pundziute G, Schuijf D, Jukema JW, de Roos A, van der Wall EE, Bax JJ. Advances in the noninvasiveevaluation <strong>of</strong> coronary artery disease with multislice computer tomography. Expert Rev Med Dev2006;3:441–51.103. Pundziute G, Schuijf JD, van Werkhoven JM, Nucifora G, EE, Wouter Jukema J, et al. Head-to-headcomparison between bicycle exercise testing <strong>and</strong> coronary calcium score <strong>and</strong> coronary stenoses onmultislice computed tomography. Coron Artery Dis 2009;20:281–7.104. Rigo F, Pratali L, Pálinkás A, Picano E, Cutaia V, Venneri L, et al. Coronary flow reserve <strong>and</strong> brachialartery reactivity in patients with chest pain <strong>and</strong> ‘false positive’ exercise-induced ST-segmentdepression. Am J Cardiol 2002;89:1141–4.105. Rispler S, Keidar Z. Integrated single-photon emission computed tomography <strong>and</strong> computedtomography coronary angiography for the assessment <strong>of</strong> hemodynamically significant coronaryartery lesions. J Am Coll Cardiol 2007;49:1059–67.106. Roach PJ, Hansen PS, Scott AM, Cooper RA, Hoschl R, Wiseman JC, et al. Comparison <strong>of</strong> optimisedplanar scintigraphy with SPECT thallium, exercise ECG <strong>and</strong> angiography in the detection <strong>of</strong> coronaryartery disease. Aust NZ J Med 1996;26:806–12.107. Roberts WT, Bax JJ, Davies LC. Cardiac CT <strong>and</strong> CT coronary angiography: technology <strong>and</strong> application.Heart 2008;94:781–92.108. Rodriguez-Granillo GA. Non-invasive assessment <strong>of</strong> vulnerable plaque. Expert Opinion Med Diagn2009;3:53–66.109. Roger VLP. Identification <strong>of</strong> multivessel coronary artery disease by exercise echocardiography. J AmColl Cardiol 1994;24:109–14.110. Rubinshtein R, Halon DA, Gaspar T, Peled N, Lewis BS, Rubinshtein R, et al. Cardiac computedtomographic angiography for risk stratification <strong>and</strong> prediction <strong>of</strong> late cardiovascular outcomeevents in patients with a chest pain syndrome. Int J Cardiol 2009;137:108–15.111. Rubinshtein R, Halon DA, Gaspar T, Jaffe R, Goldstein J, Karkabi B, et al. Impact <strong>of</strong> 64-slice cardiaccomputed tomographic angiography on clinical decision-making in emergency department patientswith chest pain <strong>of</strong> possible myocardial ischemic origin. Am J Cardiol 2007;100:1522–6.© Queen’s Printer <strong>and</strong> Controller <strong>of</strong> HMSO 2013. This work was produced by Goodacre et al. under the terms <strong>of</strong> a commissioning contract issued by the Secretary <strong>of</strong> Statefor Health. This issue may be freely reproduced for the purposes <strong>of</strong> private research <strong>and</strong> study <strong>and</strong> extracts (or indeed, the full report) may be included in pr<strong>of</strong>essional journalsprovided that suitable acknowledgement is made <strong>and</strong> the reproduction is not associated with any form <strong>of</strong> advertising. 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