病理学的に見た冠動脈血栓症と血栓症研究の話題
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| Published in | 日本冠疾患学会雑誌 Vol. 24; no. 3; pp. 143 - 149 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
特定非営利活動法人 日本冠疾患学会
2018
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| Online Access | Get full text |
| ISSN | 1341-7703 2187-1949 |
| DOI | 10.7793/jcoron.24.027 |
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| Author | 山下, 篤 浅田, 祐士郎 |
|---|---|
| Author_xml | – sequence: 1 fullname: 山下, 篤 organization: 宮崎大学医学部病理学講座構造機能病態学分野 – sequence: 1 fullname: 浅田, 祐士郎 organization: 宮崎大学医学部病理学講座構造機能病態学分野 |
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| Copyright | 2018 日本冠疾患学会 |
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| References | 19) Quillard T, Araújo HA, Franck G, et al: TLR2 and neutrophils potentiate endothelial stress, apoptosis and detachment: implications for superficial erosion. Eur Heart J 2015; 36: 1394-1404 15) Yamashita A, Zhao Y, Zhao S, et al: Arterial(18)F-fluorodeoxyglucose uptake reflects balloon catheter-induced thrombus formation and tissue factor expression via nuclear factor-κB in rabbit atherosclerotic lesions. Circ J 2013; 77: 2626-2635 23) Honda K, Matoba T, Antoku Y, et al: Lipid-lowering therapy with ezetimibe decreases spontaneous atherothrombotic occlusions in a rabbit model of plaque erosion: a role of serum oxysterols. Arterioscler Thromb Vasc Biol 2018; 38: 757-771. 12) Okuyama N, Matsuda S, Yamashita A, et al: Human coronary thrombus formation is associated with degree of plaque disruption and expression of tissue factor and hexokinase II. Circ J 2015; 79: 2430-2438 21) Franck G, Mawson TL, Folco EJ, et al. Roles of PAD4 and NETosis in Experimental Atherosclerosis and Arterial Injury: Implications for Superficial Erosion. Circ Res 2018; 123: 33-42 18) Sameshima N, Yamashita A, Sato S, et al: The values of wall shear stress, turbulence kinetic energy and blood pressure gradient are associated with atherosclerotic plaque erosion in rabbits. J Atheroscler Thromb 2014; 21: 831-838 7) Yahagi K, Davis HR, Arbustini E, et al: Sex differences in coronary artery disease: pathological observations. Atherosclerosis 2015; 239: 260-267 26) Xu Y, Mintz GS, Tam A, et al: Prevalence, distribution, predictors, and outcomes of patients with calcified nodules in native coronary arteries: a 3-vessel intravascular ultrasound analysis from Providing Regional Observations to Study Predictors of Events in the Coronary Tree(PROSPECT). Circulation 2012; 126: 537-545 9) Yamashita A, Asada Y: Pathology of coronary atherosclerotic plaque and mechanisms of plaque disruption. Ann Nucl Cardiol 2017; 3: 66-72 14) Matsuura Y, Yamashita A, Iwakiri T, et al: Vascular wall hypoxia promotes arterial thrombus formation via augmentation of vascular thrombogenicity. Thromb Haemost 2015; 114: 158-172 16) Watanabe Y, Koyama S, Yamashita A, et al: Indoleamine 2,3-dioxygenase 1 in coronary atherosclerotic plaque enhances tissue factor expression in activated macrophages. Res Pact Thromb Haemost [In press]. 3) Nishihira K, Shibata Y, Yamashita A, et al: Relationship between thrombus age in aspirated coronary material and mid-term major adverse cardiac and cerebrovascular events in patients with acute myocardial infarction. Atherosclerosis 2018; 268: 138-144 5) Fuchs TA, Brill A, Duerschmied D, et al: racellular DNA traps promote thrombosis. Proc Natl Acad Sci USA 2010; 107: 15880-15885 24) Jia H, Abtahian F, Aguirre AD, et al: In vivo diagnosis of plaque erosion and calcified nodule in patients with acute coronary syndrome by intravascular optical coherence tomography. J Am Coll Cardiol 2013; 62: 1748-1758 25) Otsuka F, Yasuda S, Noguchi T, et al: Pathology of coronary atherosclerosis and thrombosis. Cardiovasc Diagn Ther 2016; 6: 396-408 10) Sato Y, Hatakeyama K, Marutsuka K, et al: Incidence of asymptomatic coronary thrombosis and plaque disruption: comparison of non-cardiac and cardiac deaths among autopsy cases. Thromb Res 2009; 124: 19-23 22) Sawaguchi A, Kamimura T, Yamashita A, et al: Informative three-dimensional survey of cell/tissue architectures in thick paraffin sections by simple low-vacuum scanning electron microscopy. Sci Rep. 2018; 8: 7479. 8) Sato Y, Hatakeyama K, Yamashita A, et al: Proportion of fibrin and platelets differs in thrombi on ruptured and eroded coronary atherosclerotic plaques in humans. Heart 2005; 91: 526-530 2) Rittersma SZ, van der Wal AC, Koch KT, et al: Plaque instability frequently occurs days or weeks before occlusive coronary thrombosis: a pathological thrombectomy study in primary percutaneous coronary intervention. Circulation 2005; 111: 1160-1165 17) Sumi T, Yamashita A, Matsuda S, et al: Disturbed blood flow induces erosive injury to smooth muscle cell-rich neointima and promotes thrombus formation in rabbit femoral arteries. J Thromb Haemost 2010; 8: 1394-1402 6) de Boer OJ, Li X, Teeling P, et al: Neutrophils, neutrophil extracellular traps and interleukin-17 associate with the organisation of thrombi in acute myocardial infarction. Thromb Haemost 2013; 109: 290-297 13) Sluimer JC, Gasc JM, van Wanroij JL, et al: Hypoxia, hypoxia-inducible transcription factor, and macrophages in human atherosclerotic plaques are correlated with intraplaque angiogenesis. J Am Coll Cardiol 2008; 51: 1258-1265 11) Vergallo R, Uemura S, Soeda T, et al: Prevalence and Predictors of Multiple Coronary Plaque Ruptures: In Vivo 3-Vessel Optical Coherence Tomography Imaging Study. Arterioscler Thromb Vasc Biol 2016; 36: 2229-2238 1) Yamashita A, Sumi T, Goto S, et al: Detection of von Willebrand factor and tissue factor in platelets-fibrin rich coronary thrombi in acute myocardial infarction. Am J Cardiol 2006; 97: 26-28 20) Franck G, Mawson T, Sausen G, et al: Flow Perturbation Mediates Neutrophil Recruitment and Potentiates Endothelial Injury via TLR2 in Mice: Implications for Superficial Erosion. Circ Res 2017; 121: 31-42 4) Yamashita A, Nishihira K, Matsuura Y, et al: Paucity of CD34-positive cells and increased expression of high-mobility group box 1 in coronary thrombus with type 2 diabetes mellitus. Atherosclerosis 2012; 224: 511-514 |
| References_xml | – reference: 9) Yamashita A, Asada Y: Pathology of coronary atherosclerotic plaque and mechanisms of plaque disruption. Ann Nucl Cardiol 2017; 3: 66-72 – reference: 20) Franck G, Mawson T, Sausen G, et al: Flow Perturbation Mediates Neutrophil Recruitment and Potentiates Endothelial Injury via TLR2 in Mice: Implications for Superficial Erosion. Circ Res 2017; 121: 31-42 – reference: 25) Otsuka F, Yasuda S, Noguchi T, et al: Pathology of coronary atherosclerosis and thrombosis. Cardiovasc Diagn Ther 2016; 6: 396-408 – reference: 1) Yamashita A, Sumi T, Goto S, et al: Detection of von Willebrand factor and tissue factor in platelets-fibrin rich coronary thrombi in acute myocardial infarction. Am J Cardiol 2006; 97: 26-28 – reference: 15) Yamashita A, Zhao Y, Zhao S, et al: Arterial(18)F-fluorodeoxyglucose uptake reflects balloon catheter-induced thrombus formation and tissue factor expression via nuclear factor-κB in rabbit atherosclerotic lesions. Circ J 2013; 77: 2626-2635 – reference: 24) Jia H, Abtahian F, Aguirre AD, et al: In vivo diagnosis of plaque erosion and calcified nodule in patients with acute coronary syndrome by intravascular optical coherence tomography. J Am Coll Cardiol 2013; 62: 1748-1758 – reference: 6) de Boer OJ, Li X, Teeling P, et al: Neutrophils, neutrophil extracellular traps and interleukin-17 associate with the organisation of thrombi in acute myocardial infarction. Thromb Haemost 2013; 109: 290-297 – reference: 11) Vergallo R, Uemura S, Soeda T, et al: Prevalence and Predictors of Multiple Coronary Plaque Ruptures: In Vivo 3-Vessel Optical Coherence Tomography Imaging Study. Arterioscler Thromb Vasc Biol 2016; 36: 2229-2238 – reference: 14) Matsuura Y, Yamashita A, Iwakiri T, et al: Vascular wall hypoxia promotes arterial thrombus formation via augmentation of vascular thrombogenicity. Thromb Haemost 2015; 114: 158-172 – reference: 16) Watanabe Y, Koyama S, Yamashita A, et al: Indoleamine 2,3-dioxygenase 1 in coronary atherosclerotic plaque enhances tissue factor expression in activated macrophages. Res Pact Thromb Haemost [In press]. – reference: 23) Honda K, Matoba T, Antoku Y, et al: Lipid-lowering therapy with ezetimibe decreases spontaneous atherothrombotic occlusions in a rabbit model of plaque erosion: a role of serum oxysterols. Arterioscler Thromb Vasc Biol 2018; 38: 757-771. – reference: 8) Sato Y, Hatakeyama K, Yamashita A, et al: Proportion of fibrin and platelets differs in thrombi on ruptured and eroded coronary atherosclerotic plaques in humans. Heart 2005; 91: 526-530 – reference: 12) Okuyama N, Matsuda S, Yamashita A, et al: Human coronary thrombus formation is associated with degree of plaque disruption and expression of tissue factor and hexokinase II. Circ J 2015; 79: 2430-2438 – reference: 4) Yamashita A, Nishihira K, Matsuura Y, et al: Paucity of CD34-positive cells and increased expression of high-mobility group box 1 in coronary thrombus with type 2 diabetes mellitus. Atherosclerosis 2012; 224: 511-514 – reference: 5) Fuchs TA, Brill A, Duerschmied D, et al: racellular DNA traps promote thrombosis. Proc Natl Acad Sci USA 2010; 107: 15880-15885 – reference: 10) Sato Y, Hatakeyama K, Marutsuka K, et al: Incidence of asymptomatic coronary thrombosis and plaque disruption: comparison of non-cardiac and cardiac deaths among autopsy cases. Thromb Res 2009; 124: 19-23 – reference: 22) Sawaguchi A, Kamimura T, Yamashita A, et al: Informative three-dimensional survey of cell/tissue architectures in thick paraffin sections by simple low-vacuum scanning electron microscopy. Sci Rep. 2018; 8: 7479. – reference: 18) Sameshima N, Yamashita A, Sato S, et al: The values of wall shear stress, turbulence kinetic energy and blood pressure gradient are associated with atherosclerotic plaque erosion in rabbits. J Atheroscler Thromb 2014; 21: 831-838 – reference: 26) Xu Y, Mintz GS, Tam A, et al: Prevalence, distribution, predictors, and outcomes of patients with calcified nodules in native coronary arteries: a 3-vessel intravascular ultrasound analysis from Providing Regional Observations to Study Predictors of Events in the Coronary Tree(PROSPECT). Circulation 2012; 126: 537-545 – reference: 19) Quillard T, Araújo HA, Franck G, et al: TLR2 and neutrophils potentiate endothelial stress, apoptosis and detachment: implications for superficial erosion. Eur Heart J 2015; 36: 1394-1404 – reference: 2) Rittersma SZ, van der Wal AC, Koch KT, et al: Plaque instability frequently occurs days or weeks before occlusive coronary thrombosis: a pathological thrombectomy study in primary percutaneous coronary intervention. Circulation 2005; 111: 1160-1165 – reference: 21) Franck G, Mawson TL, Folco EJ, et al. Roles of PAD4 and NETosis in Experimental Atherosclerosis and Arterial Injury: Implications for Superficial Erosion. Circ Res 2018; 123: 33-42 – reference: 17) Sumi T, Yamashita A, Matsuda S, et al: Disturbed blood flow induces erosive injury to smooth muscle cell-rich neointima and promotes thrombus formation in rabbit femoral arteries. J Thromb Haemost 2010; 8: 1394-1402 – reference: 13) Sluimer JC, Gasc JM, van Wanroij JL, et al: Hypoxia, hypoxia-inducible transcription factor, and macrophages in human atherosclerotic plaques are correlated with intraplaque angiogenesis. J Am Coll Cardiol 2008; 51: 1258-1265 – reference: 3) Nishihira K, Shibata Y, Yamashita A, et al: Relationship between thrombus age in aspirated coronary material and mid-term major adverse cardiac and cerebrovascular events in patients with acute myocardial infarction. Atherosclerosis 2018; 268: 138-144 – reference: 7) Yahagi K, Davis HR, Arbustini E, et al: Sex differences in coronary artery disease: pathological observations. Atherosclerosis 2015; 239: 260-267 |
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| Title | 病理学的に見た冠動脈血栓症と血栓症研究の話題 |
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