[1]关星绘 孙林.心脏磁共振技术在冠状动脉微循环疾病中的运用进展[J].心血管病学进展,2020,(4):345-348.[doi:10.16806/j.cnki.issn.1004-3934.2020.04.004]
　GUAN Xinghui,SUN Lin.Application Progress of Cardiac Magnetic Resonance in Coronary Microvascular Disease[J].Advances in Cardiovascular Diseases,2020,(4):345-348.[doi:10.16806/j.cnki.issn.1004-3934.2020.04.004]

点击复制

心脏磁共振技术在冠状动脉微循环疾病中的运用进展()

分享到：

参考文献/References:

[1]中华医学会心血管病学分会基础研究学组,中华医学会心血管病学分会介入心脏病学组,中华医学会心血管病学分会女性心脏健康学组,.冠状动脉微血管疾病诊断和治疗的中国专家共识[J].中国循环杂志,2017,32(5):421-430.
[2]Jespersen LHvelplund A,Abildstr? MSZ,et al. Stable angina pectoris with no obstructive coronary artery disease is associated with increased risks of major adverse cardiovascular events[J]. Eur Heart J,2012,33(6):734-744.
[3]Murthy VL,Naya M,Taqueti VR,et al.Effects of sex on coronary microvascular dysfunction and cardiac outcomes[J].Circulation,2014,129(24):2518-2527.
[4]Komaru T,Kanatsuka H.Coronary microcirculation: physiology and pharmacology[J].Pharmacol Ther,2000,86(3):217-261.
[5]Christian S,Jan N,Sam E.Non-invasive imaging of microcirculation:a technology review[J].Med Devices(Auckl),2014(7):445-452.
[6]Committee SG.Comments on the 2013 ESC guidelines on the management of stable coronary artery disease[J].Rev Esp Cardiol(Engl Ed),2014,67(2):80-86.
[7]Crea F,Camici PG,Bairey Merz CN.Coronary microvascular dysfunction:an update[J]. Eur Heart J,2014,35(17):1101-1111.
[8]Robbers LFHJ,Eerenberg ES,Teunissen PFA,et al.Magnetic resonance imaging-defined areas of microvascular obstruction after acute myocardial infarction represent microvascular destruction and haemorrhage[J].Eur Heart J,2013,34(30):2346-2353.
[9]Juan LJ,Crean AM,Wintersperger BJ.Late gadolinium enhancement imaging in assessment of myocardial viability[J].Radiol Clin North Am,2015,53(2):397-411.
[10]Jimenez JL,Crean AM,Wintersperger BJ.Late gadolinium enhancement imaging in assessment of myocardial viability: techniques and clinical applications[J]. Radiol Clin North Ama,2015,53(2):397-411.
[11]Jerosch-Herold M,Seethamraju RT,Swingen CM,et al.Analysis of myocardial perfusion MRI[J].J Magn Reson Imaging,2004,19(6):758-770.
[12]Pilz G,Jeske A,Klos M,et al.Prognostic value of normal adenosine-stress cardiac magnetic resonance imaging[J].Am J Cardiol,2008,101(10):1408-1412.
[13]Buckert D,Dewes P,Walcher T,et al.Intermediate-term prognostic value of reversible perfusion deficit diagnosed by adenosine CMR: a prospective follow-up study in a consecutive patient population[J].JACC Cardiovasc Imaging,2013,6(1):56-63.
[14]Mewton N,Liu CY,Croisille P,et al.Assessment of myocardial fibrosis with cardiovascular magnetic resonance[J].J Am Coll Cardiol,2011,57(8):891-903.
[15]Wagner A,Mahrholdt H,Holly TA,et al.Contrast-enhanced MRI and routine single photon emission computed tomography (SPECT) perfusion imaging for detection of subendocardial myocardial infarcts: an imaging study[J].Lancet,2003,361(9355):374-379.
[16]Hoef TPVD,Nolte F,Rolandi MC,et al.Coronary pressure-flow relations as basis for the understanding of coronary physiology[J].J Mol Cell Cardiol,2012,52(4):786-793.
[17]Knobelsdorff-Brenkenhoff FV,Schulz-Menger J.Cardiovascular magnetic resonance imaging in ischemic heart disease[J].J Magn Reson Imaging,2012,36(1):20-38.
[18]Wu KC.CMR of microvascular obstruction and hemorrhage in myocardial infarction[J].J Cardiovasc Magn Reson,2012,14(1):68.
[19]Kidambi A,Mather AN,Motwani M,et al.The effect of microvascular obstruction and intramyocardial hemorrhage on contractile recovery in reperfused myocardial infarction: insights from cardiovascular magnetic resonance[J].J Cardiovasc Magn Reson,2013,15(1):58-76.
[20]Mather AN,Lockie T,Nagel E,et al.Appearance of microvascular obstruction on high resolution first-pass perfusion,early and late gadolinium enhancement CMR in patients with acute myocardial infarction[J].J Cardiovasc Magn Reson,2009,11(1):33-43.
[21]Liu A,Wijesurendra RS,Francis JM,et al.Adenosine stress and rest t1 mapping can differentiate between ischemic,infarcted,remote,and normal myocardium without the need for gadolinium contrast agents[J].JACC Cardiovasc Imaging,2016,9(1):27-36.
[22]Ugander M,Bagi PS,Oki AJ,et al.Myocardial edema as detected by pre-contrast T1 and T2 CMR delineates area at risk associated with acute myocardial infarction[J].JACC Cardiovas Imaging,2012,5(6):596-603.
[23]Langhans B,Nadjiri J,J?hnichen C,et al.Reproducibility of area at risk assessment in acute myocardial infarction by T1- and T2-mapping sequences in cardiac magnetic resonance imaging in comparison to Tc99m-Sestamibi SPECT[J].J Cardiovasc Imaging.2014,30(7):1357-1363.
[24]Wassmuth R,Prothmann M,Utz W,et al.Variability and homogeneity of cardiovascular magnetic resonance myocardial T2-mapping in volunteers compared to patients with edema[J].J Cardiovasc Magn Reson,2013,15(1):27-51.
[25]Frohlich GM,Meier P,White SK,et al.Myocardial reperfusion injury: looking beyond primary PCI[J].Eur Heart J,2013,34(23):1714-1722.
[26]Verhaert D,Thavendiranathan P,Giri S,et al.Direct T2 quantification of myocardial edema in acute ischemic injury[J].JACC Cardiovasc Imaging,2011,4(3):269-278.
[27]Gupta R,Dhanani S.Cardiac MRI: T2-mapping versus T2-weighted dark-blood tse imaging for myocardial edema visualization in acute myocardial infarction[J].Rofo,2014,186(02):166-172.
[28]Abdel-Aty H,Cocker M,Meek C,et al.Edema as a very early marker for acute myocardial ischemia: a cardiovascular magnetic resonance study[J].J Am Coll Cardiol,2009,53(14):1194-1201.
[29]le Bihan D,Breton E,Lallemand D,et al.MR imaging of intravoxel incoherent motions: application to diffusion and perfusion in neurologic disorders[J].Radiology,1986,161(2):401-407.
[30]Vignaud A,Rodriguez I,Ennis D B,et al.Detection of myocardial capillary orientation with intravascular iron-oxide nanoparticles in spin-echo MRI[J]. Magn Reson Med,2006,55(4):725-730.
[31]An DA,Chen BH,Rui-Wu,et al.Diagnostic performance of intravoxel incoherent motion diffusion-weighted imaging in the assessment of the dynamic status of myocardial perfusion[J].J Magn Reson Imaging,2018,48(6):1602-1609.
[32]吴执茗,李晨,徐立彦.冠状动脉微血管功能障碍的诊断方法研究进展[J].心血管病学进展,2019,40(1):41-45.