Real‐Time Multipoint Gastrointestinal 19‐Fluorine Catheter Tracking

To develop MR based real‐time gastrointestinal 19‐Fluorine (19F) catheter tracking and visualization allowing for real‐time detection and feedback of 3D catheter shape and movement as well as catheter‐driven adjustments of 1H imaging geometry parameters.

[1]  Cornelius Faber,et al.  Boosting 19F MRI—SNR efficient detection of paramagnetic contrast agents using ultrafast sequences , 2013, Magnetic resonance in medicine.

[2]  P. Boesiger,et al.  19F MR imaging golden angle-based capsule tracking for intestinal transit and catheter tracking: initial in vivo experience. , 2012, Radiology.

[3]  Charles Mougenot,et al.  MatMRI and MatHIFU: Matlab{trade mark, serif} toolboxes for real-time monitoring and control of MR-HIFU , 2012 .

[4]  L. Marciani,et al.  Assessment of gastrointestinal motor functions by MRI: a comprehensive review , 2011, Neurogastroenterology and motility : the official journal of the European Gastrointestinal Motility Society.

[5]  Tobias Schaeffter,et al.  Simultaneous dual‐nuclei imaging for motion corrected detection and quantification of 19F imaging agents , 2011, Magnetic resonance in medicine.

[6]  P. Boesiger,et al.  High resolution three‐dimensional cardiac perfusion imaging using compartment‐based k‐t principal component analysis , 2011, Magnetic resonance in medicine.

[7]  Charles H Cunningham,et al.  Temporal stability of adaptive 3D radial MRI using multidimensional golden means , 2009, Magnetic resonance in medicine.

[8]  S. Caruthers,et al.  19 F/ 1 H Simultaneous 3D Radial Imaging of Atherosclerotic Rabbits Using Self-Navigated Respiratory Motion Compensation , 2009 .

[9]  Kanishka Ratnayaka,et al.  Interventional cardiovascular magnetic resonance: still tantalizing , 2008, Journal of cardiovascular magnetic resonance : official journal of the Society for Cardiovascular Magnetic Resonance.

[10]  Brian A Hargreaves,et al.  Accelerated bilateral dynamic contrast‐enhanced 3D spiral breast MRI using TSENSE , 2008, Journal of magnetic resonance imaging : JMRI.

[11]  S. Caruthers,et al.  Gadolinium‐modulated 19F signals from perfluorocarbon nanoparticles as a new strategy for molecular imaging , 2008, Magnetic resonance in medicine.

[12]  Gilles Beaudoin,et al.  In Vivo MR-Tracking Based on Magnetic Signature Selective Excitation , 2008, IEEE Transactions on Medical Imaging.

[13]  R S Razavi,et al.  The value of magnetic resonance guided cardiac catheterisation , 2005, Heart.

[14]  E. Wellnhofer,et al.  Magnetic resonance imaging guided catheterisation for assessment of pulmonary vascular resistance: in vivo validation and clinical application in patients with pulmonary hypertension , 2005, Heart.

[15]  Shinji Yoshinaga,et al.  Cancer risks among radiologists and radiologic technologists: review of epidemiologic studies. , 2004, Radiology.

[16]  Jeffrey L Duerk,et al.  The catheter-driven MRI scanner: a new approach to intravascular catheter tracking and imaging-parameter adjustment for interventional MRI. , 2004, AJR. American journal of roentgenology.

[17]  Vivek Muthurangu,et al.  Visualization and tracking of an inflatable balloon catheter using SSFP in a flow phantom and in the heart and great vessels of patients , 2004, Magnetic resonance in medicine.

[18]  Alastair J. Martin,et al.  Steady‐state imaging for visualization of endovascular interventions , 2003, Magnetic resonance in medicine.

[19]  F. Mettler,et al.  Radiation injuries after fluoroscopic procedures. , 2002, Seminars in ultrasound, CT, and MR.

[20]  Philipp Beerbaum,et al.  Noninvasive Quantification of Left-to-Right Shunt in Pediatric Patients: Phase-Contrast Cine Magnetic Resonance Imaging Compared With Invasive Oximetry , 2001, Circulation.

[21]  Volker Rasche,et al.  Continuous radial data acquisition for dynamic MRI , 1995, Magnetic resonance in medicine.

[22]  L. J. Busse,et al.  MR imaging of the lung using liquid perfluorocarbons. , 1986, Journal of computer assisted tomography.

[23]  J. D. O'Sullivan,et al.  A Fast Sinc Function Gridding Algorithm for Fourier Inversion in Computer Tomography , 1985, IEEE Transactions on Medical Imaging.