Advances in cardiac magnetic resonance imaging of congenital heart disease

被引:0
作者
Mieke M. P. Driessen
Johannes M. P. J. Breur
Ricardo P. J. Budde
Joep W. M. van Oorschot
Roland R. J. van Kimmenade
Gertjan Tj Sieswerda
Folkert J. Meijboom
Tim Leiner
机构
[1] University of Utrecht,Department of Radiology
[2] University Medical Center Utrecht,Department of Cardiology
[3] University of Utrecht,Department of Pediatric Cardiology
[4] University Medical Center Utrecht,undefined
[5] The Interuniversity Cardiology Institute of the Netherlands (ICIN) – Netherlands Heart Institute,undefined
[6] Wilhelmina Children’s Hospital,undefined
[7] University Medical Center Utrecht,undefined
来源
Pediatric Radiology | 2015年 / 45卷
关键词
Cardiovascular magnetic resonance; Technical advances; Congenital heart disease; Child; Magnetic resonance imaging;
D O I
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中图分类号
学科分类号
摘要
Due to advances in cardiac surgery, survival of patients with congenital heart disease has increased considerably during the past decades. Many of these patients require repeated cardiovascular magnetic resonance imaging to assess cardiac anatomy and function. In the past decade, technological advances have enabled faster and more robust cardiovascular magnetic resonance with improved image quality and spatial as well as temporal resolution. This review aims to provide an overview of advances in cardiovascular magnetic resonance hardware and acquisition techniques relevant to both pediatric and adult patients with congenital heart disease and discusses the techniques used to assess function, anatomy, flow and tissue characterization.
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页码:5 / 19
页数:14
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共 248 条
[11]  
Lowe AM(1990)Sensory stimulation by time-varying magnetic fields Magn Reson Med 14 409-414
[12]  
Colan SD(1991)Physiological effects of fast oscillating magnetic field gradients J Comput Assist Tomogr 15 909-914
[13]  
Nugent AW(1999)SENSE: sensitivity encoding for fast MRI Magn Reson Med 42 952-962
[14]  
Daubeney PE(1997)Simultaneous acquisition of spatial harmonics (SMASH): fast imaging with radiofrequency coil arrays Magn Reson Med 38 591-603
[15]  
Chondros P(2013)Subtractionless first-pass single contrast medium dose peripheral MR angiography using two-point Dixon fat suppression Eur Radiol 23 2228-2235
[16]  
Lipshultz SE(2012)MRI temporal acceleration techniques J Magn Reson Imaging 36 543-560
[17]  
Lipsitz SR(2007)Sparse MRI: The application of compressed sensing for rapid MR imaging Magn Reson Med 58 1182-1195
[18]  
Sallan SE(2011)Combined respiratory and cardiac triggering improves blood pool contrast-enhanced pediatric cardiovascular MRI Pediatr Radiol 41 1536-1544
[19]  
Hinton DP(2012)Rapid pediatric cardiac assessment of flow and ventricular volume with compressed sensing parallel imaging volumetric cine phase-contrast MRI AJR Am J Roentgenol 198 W250-259
[20]  
Wald LL(1999)Double-oblique free-breathing high resolution three-dimensional coronary magnetic resonance angiography J Am Coll Cardiol 34 524-531
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