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70 Chapter 2 57. A. Warnatsch, M. Ioannou, Q. Wang, V. Papayannopoulos. Inflammation. Neutrophil extracellular traps license macrophages for cytokine production in atherosclerosis. Science, 349 (2015), pp. 316-320 58. F. Kong, B. Ye, J. Cao, et al. Curcumin represses NLRP3 inflammasome activation via TLR4/ MyD88/NF- κ B and P2X7R signaling in PMA-induced macrophages. Front Pharmacol, 10 (2016), p. 369 59. E.J. Folco, G.K. Sukhova, T. Quillard, P. Libby. Moderate hypoxia potentiates interleukin-1â production in activated human macrophages. Circ Res, 115 (2014), pp. 875-883 60. G.S. Abela, J.K. Kalavakunta, A. Janoudi, et al. Frequency of cholesterol crystals in culprit coronary artery aspirate during acute myocardial infarction and their relation to inflammation and myocardial injury. Am J Cardiol, 120 (2017), pp. 1699-1707 61. G.J. Martínez, S. Robertson, J. Barraclough, et al. Colchicine acutely suppresses local cardiac production of inflammatory cytokines in patients with an acute coronary syndrome. J Am Heart Assoc, 4 (8) (2015), p. e002128 62. S. Aydin, K. Ugur, S. Aydin, İ. Sahin, M. Yardim. Biomarkers in acute myocardial infarction: current perspectives. Vasc Health Risk Manag, 15 (2019), pp. 1-10 63. A. Mangold, S. Alias, T. Scherz, et al. Coronary neutrophil extracellular trap burden and deoxyribonuclease activity in ST-elevation acute coronary syndrome are predictors of ST-segment resolution and infarct size. Circ Res, 116 (2015), pp. 1182-1192 64. G.S. Abela, K. Aziz. Cholesterol crystals rupture biological membranes and human plaques during acute cardiovascular events - A novel insight into plaque rupture by scanning electron microscopy. Scanning, 28 (2006), pp. 1-10 65. G.S. Abela, K. Aziz, A. Vedre, D.R. Pathak, J.D. Talbott, J. DeJong. Effect of cholesterol crystals on plaques and intima in arteries of patients with acute coronary and cerebrovascular syndromes. Am J Cardiol, 103 (2009), pp. 959-968 66. N. Gadeela, J. Rubinstein, U. Tamhane, et al. The impact of circulating cholesterol crystals on vasomotor function: Implications for no-reflow phenomenon. JACC Cardiovasc Interv, 4 (2011), pp. 521-529 67. M.H. Pervaiz, S. Durga, A. Janoudi, K. Berger, G.S. Abela. PET/CTA detection of muscle inflammation related to cholesterol crystal emboli without arterial obstruction. J Nucl Cardiol, 25 (2018), pp. 433-440 68. P. Patetsios, M. Song, W.P. Shutze, et al. Identification of uric acid and xanthine oxidase in atherosclerotic plaque. Am J Cardiol, 88 (2001), pp. 188-191 69. M. Andrés, M.A. Quintanilla, F. Sivera, et al. Silent monosodium urate crystal deposits are associated with severe coronary calcification in asymptomatic hyperuricemia: an exploratory study. Arthritis Rheumatol, 68 (2016), pp. 1531-1539 70. K.E. Berge, H. Tian, G.A. Graf, et al. Accumulation of dietary cholesterol in sitosterolemia caused by mutations in adjacent ABC transporters. Science, 290 (2000), pp. 1771-1775 71. H. Xiao, M. Lu, T.Y. Lin, et al.Sterol regulatory element binding protein 2 activation of NLRP3 inflammasome in endothelium mediates hemodynamic-induced atherosclerosis susceptibility. Circulation, 128 (2013), pp. 632-642 72. G.A. Fishbein, R.G. Micheletti, J.S. Currier, E. Singer, M.C. Fishbein. Atherosclerotic oxalosis in coronary arteries. Cardiovasc Pathol, 17 (2008), pp. 117-12