Compressed Sensing MRI

[1]  Ai Nakajima,et al.  Evaluation of a novel reconstruction method based on the compressed sensing technique: Application to cervical spine MR imaging. , 2019, Clinical imaging.

[2]  Mathias Nittka,et al.  Advanced metal artifact reduction MRI of metal-on-metal hip resurfacing arthroplasty implants: compressed sensing acceleration enables the time-neutral use of SEMAC , 2016, Skeletal Radiology.

[3]  Taiki Nozaki,et al.  Advanced Imaging Techniques of the Wrist. , 2017, AJR. American journal of roentgenology.

[4]  Ricardo Otazo,et al.  Comparison of conventional DCE‐MRI and a novel golden‐angle radial multicoil compressed sensing method for the evaluation of breast lesion conspicuity , 2017, Journal of magnetic resonance imaging : JMRI.

[5]  Elmar Eisemann,et al.  User-guided compressed sensing for magnetic resonance angiography , 2014, 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[6]  Meng Law,et al.  Clinical Image Quality Assessment of Accelerated Magnetic Resonance Neuroimaging Using Compressed Sensing , 2013, Investigative radiology.

[7]  Sebastian Kozerke,et al.  MRI temporal acceleration techniques , 2012, Journal of magnetic resonance imaging : JMRI.

[8]  Linda Moy,et al.  Comprehensive Dynamic Contrast-Enhanced 3D Magnetic Resonance Imaging of the Breast With Fat/Water Separation and High Spatiotemporal Resolution Using Radial Sampling, Compressed Sensing, and Parallel Imaging , 2017, Investigative radiology.

[9]  Sairam Geethanath,et al.  Application of Region of Interest Compressed Sensing to accelerate magnetic resonance angiography , 2014, 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[10]  Christoph Forman,et al.  High resolution time-of-flight MR-angiography at 7 T exploiting VERSE saturation, compressed sensing and segmentation. , 2019, Magnetic resonance imaging.

[11]  Krishna S Nayak,et al.  Highly accelerated dynamic contrast enhanced imaging , 2014, Magnetic resonance in medicine.

[12]  Daniel C. Lee,et al.  Accelerated, first‐pass cardiac perfusion pulse sequence with radial k‐space sampling, compressed sensing, and k‐space weighted image contrast reconstruction tailored for visual analysis and quantification of myocardial blood flow , 2018, Magnetic resonance in medicine.

[13]  M. Lustig,et al.  Improving non‐contrast‐enhanced steady‐state free precession angiography with compressed sensing , 2009, Magnetic resonance in medicine.

[14]  M. Lustig,et al.  Compressed Sensing MRI , 2008, IEEE Signal Processing Magazine.

[15]  Tal Geva,et al.  Three‐dimensional heart locator and compressed sensing for whole‐heart MR angiography , 2016, Magnetic resonance in medicine.

[16]  Cyril Riddell,et al.  Compressed Sensing Based 3D Tomographic Reconstruction for Rotational Angiography , 2011, MICCAI.

[17]  E. Rummeny,et al.  Accelerating anatomical 2D turbo spin echo imaging of the ankle using compressed sensing. , 2019, European journal of radiology.

[18]  Christoph Forman,et al.  Non-contrast compressed sensing whole-heart coronary magnetic resonance angiography at 3T: A comparison with conventional imaging. , 2018, European journal of radiology.

[19]  Michael Lustig,et al.  Rapid pediatric cardiac assessment of flow and ventricular volume with compressed sensing parallel imaging volumetric cine phase-contrast MRI. , 2012, AJR. American journal of roentgenology.

[20]  Mathias Nittka,et al.  Instrument visualization using conventional and compressed sensing SEMAC for interventional MRI at 3T , 2018, Journal of magnetic resonance imaging : JMRI.

[21]  Esther Raithel,et al.  Comparing an accelerated 3D fast spin-echo sequence (CS-SPACE) for knee 3-T magnetic resonance imaging with traditional 3D fast spin-echo (SPACE) and routine 2D sequences , 2016, Skeletal Radiology.

[22]  Jan Fritz,et al.  Six-Fold Acceleration of High-Spatial Resolution 3D SPACE MRI of the Knee Through Incoherent k-Space Undersampling and Iterative Reconstruction—First Experience , 2016, Investigative radiology.

[23]  Peng Hu,et al.  Reducing view‐sharing using compressed sensing in time‐resolved contrast‐enhanced magnetic resonance angiography , 2015, Magnetic resonance in medicine.

[24]  Toshiyuki Tanaka,et al.  Compressed Sensing 3-Dimensional Time-of-Flight Magnetic Resonance Angiography for Cerebral Aneurysms: Optimization and Evaluation , 2016, Investigative radiology.

[25]  Yuemin Zhu,et al.  Cardiac diffusion tensor imaging based on compressed sensing using joint sparsity and low-rank approximation. , 2016, Technology and health care : official journal of the European Society for Engineering and Medicine.

[26]  Richard Kijowski,et al.  Knee imaging: Rapid three‐dimensional fast spin‐echo using compressed sensing , 2016, Journal of magnetic resonance imaging : JMRI.

[27]  D. Hippe,et al.  Compressed Sensing–Sensitivity Encoding (CS-SENSE) Accelerated Brain Imaging: Reduced Scan Time without Reduced Image Quality , 2018, American Journal of Neuroradiology.

[28]  Sajan Goud Lingala,et al.  High-resolution whole-brain DCE-MRI using constrained reconstruction: Prospective clinical evaluation in brain tumor patients. , 2016, Medical physics.

[29]  P. Speier,et al.  Clinical Evaluation of Highly Accelerated Compressed Sensing Time-of-Flight MR Angiography for Intracranial Arterial Stenosis , 2018, American Journal of Neuroradiology.

[30]  Kevin M Koch,et al.  Compressed‐Sensing multispectral imaging of the postoperative spine , 2013, Journal of magnetic resonance imaging : JMRI.

[31]  Jin-Suck Suh,et al.  Rapid acquisition of magnetic resonance imaging of the shoulder using three-dimensional fast spin echo sequence with compressed sensing. , 2017, Magnetic resonance imaging.

[32]  Peng Hu,et al.  Accelerated noncontrast‐enhanced 4‐dimensional intracranial MR angiography using golden‐angle stack‐of‐stars trajectory and compressed sensing with magnitude subtraction , 2018, Magnetic resonance in medicine.

[33]  Javad Alirezaie,et al.  Nonrigid motion compensation in compressed sensing reconstruction of cardiac cine MRI. , 2018, Magnetic resonance imaging.

[34]  Jan Fritz,et al.  CAIPIRINHA accelerated SPACE enables 10-min isotropic 3D TSE MRI of the ankle for optimized visualization of curved and oblique ligaments and tendons , 2017, European Radiology.

[35]  Sairam Geethanath,et al.  Compressed sensing MRI: a review. , 2013, Critical reviews in biomedical engineering.

[36]  Carlos Alberola-López,et al.  Space-time variant weighted regularization in compressed sensing cardiac cine MRI. , 2019, Magnetic resonance imaging.

[37]  Jan Fritz,et al.  Three-Dimensional CAIPIRINHA SPACE TSE for 5-Minute High-Resolution MRI of the Knee , 2016, Investigative radiology.

[38]  M. Lustig,et al.  SPIRiT: Iterative self‐consistent parallel imaging reconstruction from arbitrary k‐space , 2010, Magnetic resonance in medicine.

[39]  Mathias Nittka,et al.  Metal artifact reduction MRI of total ankle arthroplasty implants , 2018, European Radiology.

[40]  Jan Fritz,et al.  10‐Min 3D Turbo Spin Echo MRI of the Knee in Children: Arthroscopy‐Validated Accuracy for the Diagnosis of Internal Derangement , 2018, Journal of magnetic resonance imaging : JMRI.

[41]  Javad Alirezaie,et al.  Compressed sensing reconstruction of cardiac cine MRI using golden angle spiral trajectories. , 2015, Journal of magnetic resonance.

[42]  Manojkumar Saranathan,et al.  Accelerated breast MRI with compressed sensing. , 2012, European journal of radiology.

[43]  Dong Liang,et al.  k‐t ISD: Dynamic cardiac MR imaging using compressed sensing with iterative support detection , 2012, Magnetic resonance in medicine.

[44]  Guoxi Xie,et al.  Accelerating PS model-based dynamic cardiac MRI using compressed sensing. , 2016, Magnetic resonance imaging.

[45]  Tolga Çukur,et al.  Signal Compensation and Compressed Sensing for Magnetization-Prepared MR Angiography , 2011, IEEE Transactions on Medical Imaging.

[46]  Leslie Ying,et al.  Compressed Sensing Dynamic Cardiac Cine MRI Using Learned Spatiotemporal Dictionary , 2014, IEEE Transactions on Biomedical Engineering.

[47]  Young Cheol Yoon,et al.  Knee derangements: comparison of isotropic 3D fast spin-echo, isotropic 3D balanced fast field-echo, and conventional 2D fast spin-echo MR imaging. , 2013, Radiology.

[48]  D Hahn,et al.  Whole-Heart Cine MRI in a Single Breath-Hold – A Compressed Sensing Accelerated 3D Acquisition Technique for Assessment of Cardiac Function , 2013, Fortschritte auf dem Gebiet der Röntgenstrahlen und der bildgebenden Verfahren.

[49]  Jin-Suck Suh,et al.  Accelerating knee MR imaging: Compressed sensing in isotropic three-dimensional fast spin-echo sequence. , 2018, Magnetic resonance imaging.

[50]  Jan Fritz,et al.  MR Imaging of Knee Arthroplasty Implants. , 2015, Radiographics : a review publication of the Radiological Society of North America, Inc.

[51]  Qiang He,et al.  Feasibility of high temporal resolution breast DCE-MRI using compressed sensing theory. , 2010, Medical physics.

[52]  Kieren Grant Hollingsworth,et al.  Reducing acquisition time in clinical MRI by data undersampling and compressed sensing reconstruction , 2015, Physics in medicine and biology.

[53]  Toshiyuki Tanaka,et al.  Optimization of Regularization Parameters in Compressed Sensing of Magnetic Resonance Angiography: Can Statistical Image Metrics Mimic Radiologists' Perception? , 2016, PloS one.

[54]  Mehmet Akçakaya,et al.  Accelerated free breathing ECG triggered contrast enhanced pulmonary vein magnetic resonance angiography using compressed sensing , 2014, Journal of Cardiovascular Magnetic Resonance.

[55]  Steven Cen,et al.  Compressed Sensing MR Imaging (CS-MRI) of the Knee: Assessment of Quality, Inter-reader Agreement, and Acquisition Time , 2019, Magnetic resonance in medical sciences : MRMS : an official journal of Japan Society of Magnetic Resonance in Medicine.

[56]  Shadpour Demehri,et al.  Compressed Sensing SEMAC: 8-fold Accelerated High Resolution Metal Artifact Reduction MRI of Cobalt-Chromium Knee Arthroplasty Implants , 2016, Investigative radiology.

[57]  Ganesh Adluru,et al.  Validation of highly accelerated real‐time cardiac cine MRI with radial k‐space sampling and compressed sensing in patients at 1.5T and 3T , 2018, Magnetic resonance in medicine.

[58]  Mohammad Kayvanrad,et al.  Diagnostic quality assessment of compressed sensing accelerated magnetic resonance neuroimaging , 2016, Journal of magnetic resonance imaging : JMRI.

[59]  Guobin Li,et al.  Improving the robustness of 3D turbo spin echo imaging to involuntary motion , 2015, Magnetic Resonance Materials in Physics, Biology and Medicine.

[60]  M. Kitajima,et al.  Hybrid of Compressed Sensing and Parallel Imaging Applied to Three-dimensional Isotropic T2-weighted Turbo Spin-echo MR Imaging of the Lumbar Spine , 2019, Magnetic resonance in medical sciences : MRMS : an official journal of Japan Society of Magnetic Resonance in Medicine.

[61]  Cyril Riddell,et al.  Compressed Sensing Dynamic Reconstruction in Rotational Angiography , 2012, MICCAI.

[62]  Yi Guo,et al.  GOCART: GOlden-angle CArtesian randomized time-resolved 3D MRI. , 2016, Magnetic resonance imaging.

[63]  Li Dong,et al.  Fast carotid artery MR angiography with compressed sensing based three-dimensional time-of-flight sequence. , 2017, Magnetic resonance imaging.

[64]  Li Feng,et al.  Influence of temporal regularization and radial undersampling factor on compressed sensing reconstruction in dynamic contrast enhanced MRI of the breast , 2016, Journal of magnetic resonance imaging : JMRI.

[65]  M. Uecker,et al.  Accelerated whole‐heart MR angiography using a variable‐density poisson‐disc undersampling pattern and compressed sensing reconstruction , 2018, Magnetic resonance in medicine.

[66]  Mehmet Akçakaya,et al.  Accelerated late gadolinium enhancement cardiac MR imaging with isotropic spatial resolution using compressed sensing: initial experience. , 2012, Radiology.

[67]  R M Weisskoff,et al.  Ultra-fast imaging. , 1991, Magnetic resonance imaging.

[68]  Ravinder R Regatte,et al.  Rapid compositional mapping of knee cartilage with compressed sensing MRI , 2018, Journal of magnetic resonance imaging : JMRI.

[69]  Joshua D Robinson,et al.  Single-Shot Coronary Quiescent-Interval Slice-Selective Magnetic Resonance Angiography Using Compressed Sensing: A Feasibility Study in Patients With Congenital Heart Disease , 2018, Journal of computer assisted tomography.

[70]  P. Boesiger,et al.  SENSE: Sensitivity encoding for fast MRI , 1999, Magnetic resonance in medicine.

[71]  Marcos Martín-Fernández,et al.  Nonrigid groupwise registration for motion estimation and compensation in compressed sensing reconstruction of breath‐hold cardiac cine MRI , 2016, Magnetic resonance in medicine.

[72]  Emmanuel J. Candès,et al.  Robust uncertainty principles: exact signal reconstruction from highly incomplete frequency information , 2004, IEEE Transactions on Information Theory.

[73]  David Atkinson,et al.  Motion corrected compressed sensing for free‐breathing dynamic cardiac MRI , 2013, Magnetic resonance in medicine.

[74]  Jan Fritz,et al.  Metal artifact reduction MRI for total ankle replacement sagittal balance evaluation. , 2019, Foot and ankle surgery : official journal of the European Society of Foot and Ankle Surgeons.

[75]  D. Maintz,et al.  Accelerated MRI of the Lumbar Spine Using Compressed Sensing: Quality and Efficiency , 2018, Journal of magnetic resonance imaging : JMRI.

[76]  Oren N Jaspan,et al.  Compressed sensing MRI: a review of the clinical literature. , 2015, The British journal of radiology.

[77]  Nico Karssemeijer,et al.  Compressed Sensing for Breast MRI: Resolving the Trade-Off Between Spatial and Temporal Resolution , 2017, Investigative radiology.

[78]  D. Donoho,et al.  Sparse MRI: The application of compressed sensing for rapid MR imaging , 2007, Magnetic resonance in medicine.

[79]  Jing Liu,et al.  Clinical feasibility study of 3D intracranial magnetic resonance angiography using compressed sensing , 2019, Journal of magnetic resonance imaging : JMRI.

[80]  C. Reischauer,et al.  Common artefacts encountered on images acquired with combined compressed sensing and SENSE , 2018, Insights into Imaging.

[81]  Gitta Kutyniok,et al.  Shearlet-based compressed sensing for fast 3D cardiac MR imaging using iterative reweighting , 2017, Physics in medicine and biology.

[82]  Leon Axel,et al.  Combination of Compressed Sensing and Parallel Imaging for Highly-Accelerated 3 D First-Pass Cardiac Perfusion MRI , 2009 .

[83]  Jong Chul Ye,et al.  Motion Adaptive Patch-Based Low-Rank Approach for Compressed Sensing Cardiac Cine MRI , 2014, IEEE Transactions on Medical Imaging.

[84]  M. Kataoka,et al.  Impact of the Number of Iterations in Compressed Sensing Reconstruction on Ultrafast Dynamic Contrast-enhanced Breast MR Imaging , 2018, Magnetic resonance in medical sciences : MRMS : an official journal of Japan Society of Magnetic Resonance in Medicine.

[85]  Guoxi Xie,et al.  3D self‐gated cardiac cine imaging at 3 Tesla using stack‐of‐stars bSSFP with tiny golden angles and compressed sensing , 2018, Magnetic resonance in medicine.

[86]  Benjamin Fritz,et al.  Improved Visualization of Juxtaprosthetic Tissue Using Metal Artifact Reduction Magnetic Resonance Imaging: Experimental and Clinical Optimization of Compressed Sensing SEMAC , 2019, Investigative radiology.

[87]  Kaori Togashi,et al.  New parameters of ultrafast dynamic contrast‐enhanced breast MRI using compressed sensing , 2020, Journal of magnetic resonance imaging : JMRI.

[88]  M. Lustig,et al.  Improved pediatric MR imaging with compressed sensing. , 2010, Radiology.

[89]  Rachel W Chan,et al.  The influence of radial undersampling schemes on compressed sensing reconstruction in breast MRI , 2012, Magnetic resonance in medicine.

[90]  James Sayre,et al.  High spatial and temporal resolution dynamic contrast-enhanced magnetic resonance angiography (CE-MRA) using compressed sensing with magnitude image subtraction , 2013, Journal of Cardiovascular Magnetic Resonance.

[91]  Kaori Togashi,et al.  Ultrafast dynamic contrast‐enhanced mri of the breast using compressed sensing: breast cancer diagnosis based on separate visualization of breast arteries and veins , 2018, Journal of magnetic resonance imaging : JMRI.

[92]  Kaori Togashi,et al.  Magnetic resonance angiography with compressed sensing: An evaluation of moyamoya disease , 2018, PloS one.