参考文献
[1]Bom N, ten Hoff H, Lancee CT, Gussenhoven WJ, et al. Early and recent intraluminal ultrasound devices. In: Bom N, and Roeland J,eds. Intravascular ultrasound: Techniques, developments, clinical perspectives. Kluwer Academic Publishers, Dordrecht, 79-88.
[2]Cieszynski T. Intracardiac method for the investigation of structure of the heart with the aid of ultrasonics. Arch Immunol Ther Exp (Warsz), 1960; 8:551-557.
[3]Kossoff G. Diagnostic applications of ultrasound in cardiology. Australas Radiol, 1966,;10: 101-106.
[4]Peronneau P. Catheter with piezoelectric transducer, 1970, US patent 3: 542 014.
[5]Carleton RA. Diameter of heart measured by intracavity ultrasound. Medres Engng, 1969; 2: 28-32.
[6]Stegall HF, Pratt JR, Moser PF. Carotid mechanics in situ. Fed proc, 1969; 28: 585.
[7]Kardon MB, O’Rourke RA, Bishop VS. Measurement of left ventricular internal diameter by catheterization. J Appl Physiol,1971; 31(4): 613-615.
[8]Bom N, Lancee CT, van Egmond FC. An ultrasonic intracardiac scanner. Ultrasonics 1972; 10: 72-76.
[9]Olson, RM, Cooke JP. A nondestructive ultrasonic technique to measure diameter and blood flow in arteries. IEEE Trans Biomed Eng, 1974, 21(2): 168-71.
[10]Franzin L, Talano JV, Stephanides L, Loeb HS, Kopel L, Gunnar RM. Esophageal echocardiography. Circulation,1976; 54:102-108.
[11]Hughes DJ, Geddes LA, Bourland JD, et al. Dynamic imaging of the aorta in-vivo with 10MHz ultrasound. In: Metherell AF, ed.Acoustic imaging 8. New York and London: Plenum Press,1980;699-707.
[12]Stegall, HF, Stone HL, Bishof VS, et al. A cathetertip pressure and velocity sensor. Proc 20th Ann of Eng med Biol,1967(abstract), 27:4.
[13]Reid JM, Davis DL, Ricketts HJ, et al. A new Doppler flowmeter system and its operation with catheter mounted transducers.Amsterdam/London: North Holland Publishing Co,1974;8:241-243.
[14]Hartley CJ, Cole JS. An ultrasonic pulsed Doppler system for measuring blood flow in small vessels. J Appl Physiol, 1974; 37:626-629.
[15]Sibley DH, Millar HD, Hartley CJ, et al. Subselective measurement of coronary blood flow velocity using a steerable Doppler catheter. J Am Coll Cardiol, 1986; 8: 1332-1340.
[16]Kern MJ, Courtois M, Ludbrook P. A simplified method to measure coronary blood flow velocity in patients: validation and application of a Judkins-style Doppler-tipped angiographic catheter. Am Heart J, 1990; 120: 1202-1212.
[17]Ge J, Erbel R, Seidel I, et al. Experimental evaluation of accuracy and safety of intraluminal ultrasound. Z Kardiol, 1991;80: 595-601.
[18]Hausmann D, Erbel R, Alibelli-Chemarin MJ, et al. The safety of intracoronary ultrasound, a multicenter survey of 2207 examinations. Circulation, 1995; 91: 623-630.
[19]Pandian NG, Kreis A, Brockway B, et al. Ultrasound ultrasonography: real time, two-dimensional, intraluminal imaging of blood vessels. Am J Cardiol, 1988; 62: 493-494.
[20]Yock PJ, Fitzgerald PJ, Sudir K, et al. Intravascular ultrasound imaging for guidance of atherectomy and other removal techniques. Int J Cardiac Imag, 1991; 6: 179-189.
[21]Hodgson JMcB, Graham SD, Savakus AD, et al. Clinical percutaneous imaging of coronary anatomy using an over-the-wire ultrasound catheter system. Int J ardiac Imag, 1989; 4: 187-193.
[22]Smith WA. Modeling 1-3 composite piezoelectrics: hydrostatic response. IEEE Trans Ultrason Ferroelectr Freq Control, 1993;40: 41-49.
[23]Smith WA, Auld BA. Modeling 1-3 composite piezoelectrics: thickness-mode oscillations. IEEE Trans Ultrason Ferroelectr Freq Control, 1991; 38: 40-47.
[24]吴鸿宜,钱菊英,张峰,等. 血管内超声分析斑块组成与冠状动脉重构之间的关系. 中华心血管病杂志,2005; 33:894-898.
[25]Papadopoulou SL, Brugaletta S, Garcia-Garcia HM, et al. Assessment of atherosclerotic plaques at coronary bifurcations with multidetector computed tomography angiography and intravascular ultrasound-virtual histology. Eur Heart J Cardiovasc Imaging, 2012;13: 635-642.
[26]Park YH, Kim YK, Seo DJ, et al. Analysis of Plaque Composition in Coronary Chronic Total Occlusion Lesion Using Virtual Histology-Intravascular Ultrasound. Korean Circ J, 2016; 46: 33-40.
[27]Baldewsing RA1, Schaar JA, de Korte CL, et al. Intravascular Ultrasound Elastography: A Clinician’s Tool for Assessing Vulnerability and Material Composition of Plaques. Stud Health Technol Inform, 2005;113:75-96.
[28]Maurice RL1, Fromageau J, Brusseau E, et al. On the potential of the lagrangian estimator for endovascular ultrasound elastography: in vivo human coronary artery study. Ultrasound Med Biol, 2007;33:1199-1205.
[29]Ohota M, Kawasaki M, Ismail TF, et al. A histological and clinical comparison of new and conventional integrated backscatter intravascular ultrasound (IB-IVUS). Circ J, 2012;76:1678-1686.
[30]Kawasaki M, Bouma BE, Bressner J, et al. Diagnostic accuracy of optical coherence tomography and integrated backscatter intravascular ultrasound images for tissue characterization of human coronary plaques. J Am Coll Cardiol, 2006;48:81-88.
[31]葛均波主编. 血管内超声多普勒学. 北京:人民卫生出版社,2000:6.
[32]Mintz GS, Nissen SE, Anderson WD, et al. American College of Cardiology Clinical Expert Consensus Document on Standards for Acquisition, Measurement and Reporting of Intravascular Ultrasound Studies (IVUS). A report of the American College of Cardiology Task Force on Clinical Expert Consensus Documents. J Am Coll Cardiol, 2001;37:1478-1492.
[33]血管内超声在冠状动脉疾病中应用的中国专家共识专家组. 血管内超声在冠状动脉疾病中应用的中国专家共识(2018). 中华心血管病杂志, 2018;46:344-351.
[34]Ge J, Liu F, Kearney P, et al. Acute coronary closure following intracoronary ultrasound examination. Catheter Cardiovasc Diagn, 1995;35:232-235.