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2010 – 2019
- 2018
[c34]Auranuch Lorsakul, Jörg Bredno, Robert L. Ochs, Larry Morrison, William Day:
Validation of multiplex immunohistochemistry assays using automated image analysis. Medical Imaging: Digital Pathology 2018: 105810J- 2017
- [c33]Auranuch Lorsakul, Emilia Andersson, Suzana Vega Harring, Hadassah Sade, Oliver Grimm, Jörg Bredno:
Automated wholeslide analysis of multiplex-brightfield IHC images for cancer cells and carcinoma-associated fibroblasts. Medical Imaging: Digital Pathology 2017: 1014007 - 2015
- [c32]Kien Nguyen, Jörg Bredno, David A. Knowles:
Using contextual information to classify nuclei in histology images. ISBI 2015: 995-998 - [c31]Kien Nguyen, Ting Chen, Jörg Bredno, Chukka Srinivas, Christophe Chefd'Hotel, Solange Romagnoli, Astrid Heller, Oliver Grimm, Fabien Gaire:
Adaptive whole slide tissue segmentation to handle inter-slide tissue variability. Medical Imaging: Digital Pathology 2015: 94200P
2000 – 2009
- 2008
- [j4]Irina Wächter, Jörg Bredno, Roel Hermans, Jürgen Weese, Dean C. Barratt, David J. Hawkes:
Model-based blood flow quantification from rotational angiography. Medical Image Anal. 12(5): 586-602 (2008) - [c30]Irina Wächter, Jörg Bredno, Roel Hermans, Dean C. Barratt, Jürgen Weese, David J. Hawkes:
Quantifying blood flowdivision at bifurcations from rotational angiography. ISBI 2008: 1549-1552 - 2007
- [c29]Irina Wächter, Jörg Bredno, Dean C. Barratt, Jürgen Weese, David J. Hawkes:
Quantification of Blood Flow from Rotational Angiography. MICCAI (1) 2007: 634-641 - 2005
- [j3]Thomas Martin Lehmann, Jörg Bredno:
Viewpoint Paper: Strategies to Configure Image Analysis Algorithms for Clinical Usage. J. Am. Medical Informatics Assoc. 12(5): 497-504 (2005) - [c28]Alexandru Condurache, Til Aach, Kai Eck, Jörg Bredno, Stephan Grzybowski, Hans-Günther Machens:
Vessel Segmentation for Angiographic Enhancement and Analysis. Bildverarbeitung für die Medizin 2005: 173-177 - [c27]Kai Eck, Jörg Bredno, T. Stehle:
Absolute alignment of breathing states using image similarity derivatives. Medical Imaging: Image-Guided Procedures 2005 - [c26]Barbara Martin-Leung, Kai Eck, Jörg Bredno, Til Aach:
X-IVUS: integrated x-ray and IVUS system for the Cathlab. Medical Imaging: Image-Guided Procedures 2005 - [c25]Alexandru Condurache, Til Aach, Kai Eck, Jörg Bredno, Thomas Stehle:
Fast and robust diaphragm detection and tracking in cardiac x-ray projection images. Medical Imaging: Image Processing 2005 - 2004
- [c24]Alexandru Condurache, Til Aach, Kai Eck, Jörg Bredno:
Fast Detection and Processing of Arbitrary Contrast Agent Injections in Coronary Angiography and Fluoroscopy. Bildverarbeitung für die Medizin 2004: 5-9 - [c23]Til Aach, Alexandru Paul Condurache, Kai Eck, Jörg Bredno:
Statistical-model-based identification of complete vessel-tree frames in coronary angiograms. Computational Imaging 2004: 283-294 - [c22]Jörg Bredno, Barbara Martin-Leung, Kai Eck:
Algorithmic solutions for live device-to-vessel match. Medical Imaging: Image Processing 2004 - [c21]Kai Eck, Irina Wächter, Jörg Bredno:
Synthesis of angiographic images using iterative approximation. Medical Imaging: Image Processing 2004 - 2003
- [j2]Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
A General Discrete Contour Model in Two, Three, and Four Dimensions for Topology-Adaptive Multichannel Segmentation. IEEE Trans. Pattern Anal. Mach. Intell. 25(5): 550-563 (2003) - [c20]Barbara Martin-Leung, Kai Eck, Ingo Stuke, Jörg Bredno, Til Aach:
Mutual information based respiration detection. CARS 2003: 1085-1092 - 2002
- [c19]Mark Oliver Güld, Jörg Bredno, Daniel Keysers, Michael Kohnen, Christian Thies, Henning Schubert, Berthold B. Wein, Thomas Martin Lehmann:
Eine verteilte Systemarchitektur für IRMA: (Image Retrieval in Medical Applications). Bildverarbeitung für die Medizin 2002: 175-178 - 2001
- [j1]Thomas Martin Lehmann, Jörg Bredno, Volker Metzler, Gary Brook, Wilhelm Nacimiento:
Computer-assisted quantification of axo-somatic boutons at the cell membrane of motoneurons. IEEE Trans. Biomed. Eng. 48(6): 706-717 (2001) - [c18]Thomas Martin Lehmann, Jörg Bredno, Klaus Spitzer:
Silberstandards aus Fourier-basierter Textursynthese zur Evaluierung von Segmentierungsalgorithmen. Bildverarbeitung für die Medizin 2001: 192-196 - [c17]Jörg Bredno, Reinhold Schwippert, Thomas Martin Lehmann, Walter Oberschelp:
Finite-Elemente-Segmentierung mit Formwissen: Hybridisierung aus Aktiver Kontur und Point-Distribution-Modell. Bildverarbeitung für die Medizin 2001: 217-221 - [c16]Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
Texturadaptive Paramentierung aktiver Konturmodelle. Bildverarbeitung für die Medizin 2001: 242-246 - [c15]Michael Kohnen, Henning Schubert, Berthold B. Wein, Rolf W. Günther, Jörg Bredno, Thomas Martin Lehmann, Jörg Dahmen:
Qualität von DICOM-Informationen in Bilddaten aus der klinischen Routine. Bildverarbeitung für die Medizin 2001: 419-423 - [c14]Thomas Martin Lehmann, Jörg Bredno, Klaus Spitzer:
Texture-Adaptive Active Contour Models. ICAPR 2001: 387-396 - [c13]Thomas Martin Lehmann, Jörg Bredno, Klaus Spitzer:
Silver standards obtained from Fourier-based texture synthesis to evaluate segmentation procedures. Medical Imaging: Image Processing 2001 - 2000
- [c12]Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
Automatische Parameterwahl für Ballon-Modelle. Bildverarbeitung für die Medizin 2000: 71-75 - [c11]Thomas Martin Lehmann, Berthold B. Wein, Jörg Dahmen, Jörg Bredno, Frank Vogelsang, Michael Kohnen:
Ein strukturiertes Konzept zum inahltsbasierten Zugriff auf medizinische Bildarchive. Bildverarbeitung für die Medizin 2000: 218-222 - [c10]Jörg Bredno, Sebastian Brandt, Jörg Dahmen, Berthold B. Wein, Thomas Martin Lehmann:
Kategorisierung von Röntgenbildern mit aktiven Konturmodellen. Bildverarbeitung für die Medizin 2000: 356-360 - [c9]Michael Kohnen, Frank Vogelsang, Frank Weiler, Jörg Bredno, Jörg Dahmen:
Kategorisierung von digitalen Röntgenbildern mit parametrisierbaren Formmodellen. Bildverarbeitung für die Medizin 2000: 366-370 - [c8]Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
General finite element model for segmentation in 2, 3, and 4 dimensions. Medical Imaging: Image Processing 2000 - [c7]Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
Automatic parameter setting for balloon models. Medical Imaging: Image Processing 2000 - [c6]Michael Kohnen, Frank Vogelsang, Berthold B. Wein, Markus W. Kilbinger, Rolf W. Günther, Frank Weiler, Jörg Bredno, Jörg Dahmen:
Knowledge-based automated feature extraction to categorize secondary digitized radiographs. Medical Imaging: Image Processing 2000 - [c5]Thomas Martin Lehmann, Berthold B. Wein, Jörg Dahmen, Jörg Bredno, Frank Vogelsang, Michael Kohnen:
Content-based image retrieval in medical applications: a novel multistep approach. Storage and Retrieval for Media Databases 2000: 312-320 - [c4]Jörg Bredno, Michael Kohnen, Jörg Dahmen, Frank Vogelsang, Berthold B. Wein, Thomas Martin Lehmann:
Synergetic impact obtained by a distributed development platform for image retrieval in medical applications (IRMA). Storage and Retrieval for Media Databases 2000: 321-331
1990 – 1999
- 1999
- [c3]Jörg Bredno, Frank Vogelsang, Jörg Dahmen, Thomas Martin Lehmann, Markus Kilbinger, Berthold B. Wein, Rolf W. Günther, Hermann Ney, Klaus Spitzer:
Eine Entwicklungsumgebung für die interdisziplinäre Zusammenarbeit bei der Entwicklung des Image-Retrieval-Systems IRMA. Bildverarbeitung für die Medizin 1999: 362-366 - 1998
- [c2]Jörg Bredno, Volker Metzler, Wilhelm Nacimiento, Thomas Martin Lehmann, Klaus Spitzer:
Detektion und Quantifizierung der Membranstrukturen von Nervenzellen. Bildverarbeitung für die Medizin 1998 - [c1]Volker H. Metzler, Jörg Bredno, Thomas Martin Lehmann, Klaus Spitzer:
Deformable membrane for the segmentation of cytological samples. Medical Imaging: Image Processing 1998
Coauthor Index
aka: Thomas Martin Lehmann
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