Wissenschaftliche Publikationen Suche Suche Autor/in Forschungsgruppe Veröffentlichungsdatum Suchen Sortieren nach RelevanceFrom A-ZAuthored onDate/Time RangeRelease date Reihenfolge AufsteigendAbsteigend Luft, Friedrich Prof. Dr. (1) Schulz-Menger, Jeanette Prof. Dr. (14) Waiczies, Helmar Dr. (1) Waiczies, Sonia PD Dr. (2) Winter, Lukas Dr. (3) (-) Niendorf, Thoralf Prof. Dr. (6) AG Müller/Dechend (ECRC) (1) Angeborene Immunität & Neuroinflammation (1) Experimentelle Ultrahochfeld-MR (15) Hochschulambulanz für Neuroimmunologie (3) Hypertonie-vermittelter Endorganschaden (1) Hypertonie bedingte Endorganschäden (1) (-) Kardiale MRT (6) Magnetic Resonance (15) Proteom Dynamik (1) RNA Biologie und Posttranscriptionale Regulation (2) 2007 (1) 2008 (1) 2010 (4) 2011 (1) (-) 2012 (6) 2013 (5) 2014 (1) 2015 (4) 2016 (2) 2017 (4) 2018 (1) 2019 (2) 2023 (1) 6 Ergebnisse: Active Filter: Niendorf, Thoralf Prof. Dr.Kardiale MRT2012 Sortieren: Treffgenauigkeit Neueste nach älteste Älteste nach neueste 01. Oktober 2012 / Eur Radiol Comparison of three multichannel transmit/receive radiofrequency coil configurations for anatomic and functional cardiac MRI at 7.0T: implications for clinical imaging L. Winter P. Kellman W. Renz A. Graessl F. Hezel C. Thalhammer F. von Knobelsdorff-Brenkenhoff V. Tkachenko J. Schulz-Menger T. Niendorf 01. Oktober 2012 / J Magn Reson Imaging Two-Dimensional sixteen channel transmit/receive coil array for cardiac MRI at 7.0 T: Design, evaluation, and application C. Thalhammer W. Renz L. Winter F. Hezel J. Rieger H. Pfeiffer A. Graessl F. Seifert W. Hoffmann F. von Knobelsdorff-Brenkenhoff V. Tkachenko J. Schulz-Menger P. Kellman T. Niendorf 01. August 2012 / Med Phys Design, construction, and evaluation of a dynamic MR compatible cardiac left ventricle model M.A. Dieringer J. Hentschel T. de Quadros F. von Knobelsdorff-Brenkenhoff W. Hoffmann T. Niendorf J. Schulz-Menger 01. August 2012 / PLoS ONE Functional and morphological cardiac magnetic resonance imaging of mice using a cryogenic quadrature radiofrequency coil B. Wagenhaus A. Pohlmann M.A. Dieringer A. Els H. Waiczies S. Waiczies J. Schulz-Menger T. Niendorf 21. November 2012 / PLoS ONE Detailing radio frequency heating induced by coronary stents: a 7.0 tesla magnetic resonance study D. Santoro L. Winter A. Mueller J. Vogt W. Renz C. Ozerdem A. Graessl V. Tkachenko J. Schulz-Menger T. Niendorf 14. Dezember 2012 / PLoS ONE High spatial resolution and temporally resolved t(2) (*) mapping of normal human myocardium at 7.0 tesla: an ultrahigh field magnetic resonance feasibility study F. Hezel C. Thalhammer S. Waiczies J. Schulz-Menger T. Niendorf
01. Oktober 2012 / Eur Radiol Comparison of three multichannel transmit/receive radiofrequency coil configurations for anatomic and functional cardiac MRI at 7.0T: implications for clinical imaging L. Winter P. Kellman W. Renz A. Graessl F. Hezel C. Thalhammer F. von Knobelsdorff-Brenkenhoff V. Tkachenko J. Schulz-Menger T. Niendorf
01. Oktober 2012 / J Magn Reson Imaging Two-Dimensional sixteen channel transmit/receive coil array for cardiac MRI at 7.0 T: Design, evaluation, and application C. Thalhammer W. Renz L. Winter F. Hezel J. Rieger H. Pfeiffer A. Graessl F. Seifert W. Hoffmann F. von Knobelsdorff-Brenkenhoff V. Tkachenko J. Schulz-Menger P. Kellman T. Niendorf
01. August 2012 / Med Phys Design, construction, and evaluation of a dynamic MR compatible cardiac left ventricle model M.A. Dieringer J. Hentschel T. de Quadros F. von Knobelsdorff-Brenkenhoff W. Hoffmann T. Niendorf J. Schulz-Menger
01. August 2012 / PLoS ONE Functional and morphological cardiac magnetic resonance imaging of mice using a cryogenic quadrature radiofrequency coil B. Wagenhaus A. Pohlmann M.A. Dieringer A. Els H. Waiczies S. Waiczies J. Schulz-Menger T. Niendorf
21. November 2012 / PLoS ONE Detailing radio frequency heating induced by coronary stents: a 7.0 tesla magnetic resonance study D. Santoro L. Winter A. Mueller J. Vogt W. Renz C. Ozerdem A. Graessl V. Tkachenko J. Schulz-Menger T. Niendorf
14. Dezember 2012 / PLoS ONE High spatial resolution and temporally resolved t(2) (*) mapping of normal human myocardium at 7.0 tesla: an ultrahigh field magnetic resonance feasibility study F. Hezel C. Thalhammer S. Waiczies J. Schulz-Menger T. Niendorf