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Robert J. Lederman
Researcher at National Institutes of Health
Publications - 283
Citations - 9529
Robert J. Lederman is an academic researcher from National Institutes of Health. The author has contributed to research in topics: Interventional magnetic resonance imaging & Mitral valve replacement. The author has an hindex of 48, co-authored 256 publications receiving 8170 citations. Previous affiliations of Robert J. Lederman include Durham University & Duke University.
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Sheathless Transcaval Transcatheter Aortic Valve Implantation Through an Abdominal Aortic Graft
TL;DR: This case illustrates the feasibility of sheathless transcaval TAVI without relevant hemodynamic compromise and the expectation of aortocaval fistulous decompression of blood around the T AVI catheter.
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Framework for Planning TMVR using 3-D Imaging, In Silico Modeling, and Virtual Reality
Keshav Kohli,Zhenglun Alan Wei,Vahid Sadri,Thomas F. Easley,Eric L. Pierce,Yingnan Nancy Zhang,Dee Dee Wang,Adam Greenbaum,John Lisko,Jaffar M. Khan,Robert J. Lederman,Philipp Blanke,John N. Oshinski,John N. Oshinski,Vasilis Babaliaros,Ajit P. Yoganathan +15 more
TL;DR: Transcatheter mitral valve replacement (TMVR) is an emerging therapy for patients with severe mitral valves disease considered unsuitable for conventional surgery.
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Towards Transcatheter Leaflet Removal With the CATHEDRAL Procedure
Vasilis Babaliaros,Patrick Gleason,Joe X. Xie,Jaffar M. Khan,Christopher G Bruce,Isida Byku,Kendra J. Grubb,Gaetano Paone,Toby Rogers,Robert J. Lederman,Adam Greenbaum +10 more
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A 20-gauge active needle design with thin-film printed circuitry for interventional MRI at 0.55T.
Dursun Korel Yildirim,Christopher G Bruce,Dogangun Uzun,Toby Rogers,Kendall J. O’Brien,Rajiv Ramasawmy,Adrienne E. Campbell-Washburn,Daniel A. Herzka,Robert J. Lederman,Ozgur Kocaturk +9 more
TL;DR: In this paper, the authors used conductive ink to print thin-film RF antenna components on metallic needle surfaces using biocompatible polyester tubing and conductively ink to develop an active interventional MRI needle for clinical use.
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Interventional cardiovascular MR—The next stage in pediatric cardiology
TL;DR: Real-time magnetic resonance imaging is attractive to guide minimally invasive treatment of structural heart disease not only because it can spare radiation but also because soft tissue imaging may add value.