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1. Fast refacing of MR images with a generative neural network lowers re-identification risk and preserves volumetric consistency

Author

Molchanova, Nataliia, Maréchal, Bénédicte, Thiran, Jean-Philippe, Kober, Tobias, Huelnhagen, Till, and Richiardi, Jonas

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

With the rise of open data, identifiability of individuals based on 3D renderings obtained from routine structural magnetic resonance imaging (MRI) scans of the head has become a growing privacy concern. To protect subject privacy, several algorithms have been developed to de-identify imaging data using blurring, defacing or refacing. Completely removing facial structures provides the best re-identification protection but can significantly impact post-processing steps, like brain morphometry. As an alternative, refacing methods that replace individual facial structures with generic templates have a lower effect on the geometry and intensity distribution of original scans, and are able to provide more consistent post-processing results by the price of higher re-identification risk and computational complexity. In the current study, we propose a novel method for anonymised face generation for defaced 3D T1-weighted scans based on a 3D conditional generative adversarial network. To evaluate the performance of the proposed de-identification tool, a comparative study was conducted between several existing defacing and refacing tools, with two different segmentation algorithms (FAST and Morphobox). The aim was to evaluate (i) impact on brain morphometry reproducibility, (ii) re-identification risk, (iii) balance between (i) and (ii), and (iv) the processing time. The proposed method takes 9 seconds for face generation and is suitable for recovering consistent post-processing results after defacing., Comment: preprint

Published
2023
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3. Cortical lesions, central vein sign, and paramagnetic rim lesions in multiple sclerosis: emerging machine learning techniques and future avenues

Author

La Rosa, Francesco, Wynen, Maxence, Al-Louzi, Omar, Beck, Erin S, Huelnhagen, Till, Maggi, Pietro, Thiran, Jean-Philippe, Kober, Tobias, Shinohara, Russell T, Sati, Pascal, Reich, Daniel S, Granziera, Cristina, Absinta, Martina, and Cuadra, Meritxell Bach

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning
Abstract

The current multiple sclerosis (MS) diagnostic criteria lack specificity, and this may lead to misdiagnosis, which remains an issue in present-day clinical practice. In addition, conventional biomarkers only moderately correlate with MS disease progression. Recently, advanced MS lesional imaging biomarkers such as cortical lesions (CL), the central vein sign (CVS), and paramagnetic rim lesions (PRL), visible in specialized magnetic resonance imaging (MRI) sequences, have shown higher specificity in differential diagnosis. Moreover, studies have shown that CL and PRL are potential prognostic biomarkers, the former correlating with cognitive impairments and the latter with early disability progression. As machine learning-based methods have achieved extraordinary performance in the assessment of conventional imaging biomarkers, such as white matter lesion segmentation, several automated or semi-automated methods have been proposed for CL, CVS, and PRL as well. In the present review, we first introduce these advanced MS imaging biomarkers and their imaging methods. Subsequently, we describe the corresponding machine learning-based methods that were used to tackle these clinical questions, putting them into context with respect to the challenges they are still facing, including non-standardized MRI protocols, limited datasets, and moderate inter-rater variability. We conclude by presenting the current limitations that prevent their broader deployment and suggesting future research directions.

Published
2022

5. Neuroimaging Harmonization Using cGANs: Image Similarity Metrics Poorly Predict Cross-Protocol Volumetric Consistency

Author

Ravano, Veronica, Démonet, Jean-François, Damian, Daniel, Meuli, Reto, Piredda, Gian Franco, Huelnhagen, Till, Maréchal, Bénédicte, Thiran, Jean-Philippe, Kober, Tobias, Richiardi, Jonas, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Abdulkadir, Ahmed, editor, Bathula, Deepti R., editor, Dvornek, Nicha C., editor, Habes, Mohamad, editor, Kia, Seyed Mostafa, editor, Kumar, Vinod, editor, and Wolfers, Thomas, editor

Published
2022
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6. Fast refacing of MR images with a generative neural network lowers re‐identification risk and preserves volumetric consistency.

Author

Molchanova, Nataliia, Maréchal, Bénédicte, Thiran, Jean‐Philippe, Kober, Tobias, Huelnhagen, Till, and Richiardi, Jonas

Subjects
GENERATIVE adversarial networks, MAGNETIC resonance imaging, COMPUTATIONAL complexity
Abstract

With the rise of open data, identifiability of individuals based on 3D renderings obtained from routine structural magnetic resonance imaging (MRI) scans of the head has become a growing privacy concern. To protect subject privacy, several algorithms have been developed to de‐identify imaging data using blurring, defacing or refacing. Completely removing facial structures provides the best re‐identification protection but can significantly impact post‐processing steps, like brain morphometry. As an alternative, refacing methods that replace individual facial structures with generic templates have a lower effect on the geometry and intensity distribution of original scans, and are able to provide more consistent post‐processing results by the price of higher re‐identification risk and computational complexity. In the current study, we propose a novel method for anonymized face generation for defaced 3D T1‐weighted scans based on a 3D conditional generative adversarial network. To evaluate the performance of the proposed de‐identification tool, a comparative study was conducted between several existing defacing and refacing tools, with two different segmentation algorithms (FAST and Morphobox). The aim was to evaluate (i) impact on brain morphometry reproducibility, (ii) re‐identification risk, (iii) balance between (i) and (ii), and (iv) the processing time. The proposed method takes 9 s for face generation and is suitable for recovering consistent post‐processing results after defacing. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Contributors

Author

Akçakaya, Mehmet, primary, Alpendurada, Francisco, additional, Appelbaum, Evan, additional, Arai, Andrew, additional, Auger, Dominique, additional, Balaban, Robert S., additional, Bax, Jeroen J., additional, Bellenger, Nicholas G., additional, Bluemke, David A., additional, Botnar, René M., additional, Butler, Craig Ronald, additional, Caravan, Peter, additional, Celeng, Csilla, additional, Chuang, Michael L., additional, de Roos, Albert, additional, Delgado, Victoria, additional, Dharmakumar, Rohan, additional, Dweck, Marc R., additional, Farzaneh-Far, Afshin, additional, Fayad, Zahi A., additional, Firmin, David, additional, Fogel, Mark A., additional, Frank, Herbert, additional, Friedrich, Matthias G., additional, Gale, Eric M., additional, Geva, Tal, additional, Grizzard, John D., additional, Halliday, Brian P., additional, Hansen, Michael, additional, Hauser, Thomas H., additional, Hong, Susie N., additional, Huelnhagen, Till, additional, Hundley, W. Gregory, additional, Ibrahim, El-Sayed H., additional, Ipek, Esra Gucuk, additional, Jerosch-Herold, Michael, additional, Judd, Robert M., additional, Keegan, Jennifer, additional, Kellman, Peter, additional, Khan, Muhammad Shahzeb, additional, Khosa, Faisal, additional, Khurshid, Kiran, additional, Kilner, Philip J., additional, Kim, Daniel H., additional, Kim, Raymond J., additional, Kim, W. Yong, additional, Kramer, Christopher M., additional, Krieger, Eric V., additional, Kwong, Raymond Y., additional, Leb, Jay S., additional, Lederman, Robert, additional, Leiner, Tim, additional, Li, Debiao, additional, Lopez, David, additional, Maceira, Alicia M., additional, Mahrholdt, Heiko, additional, Makowski, Marcus R., additional, Manning, Warren J., additional, Marcu, Constantin B., additional, Maron, Martin S., additional, Mohiaddin, Raad H., additional, Moon, James C., additional, Motwani, Manish, additional, Nakamori, Shiro, additional, Nazarian, Saman, additional, Nensa, Felix, additional, Neubauer, Stefan, additional, Nezafat, Reza, additional, Nienaber, Christoph A., additional, Niendorf, Thoralf, additional, Partington, Sara L., additional, Paterson, Ian, additional, Paul, Katharina, additional, Pennell, Dudley J., additional, Peshock, Ronald M., additional, Peters, Dana C., additional, Planken, R. Nils, additional, Plein, Sven, additional, Powell, Andrew J., additional, Prasad, Sanjay, additional, Prieto, Claudia, additional, Pushparajah, Kuberan, additional, Rashid, Imran, additional, Razavi, Reza S., additional, Rehwald, Wolfgang G., additional, Robson, Philip M., additional, Rodgers, Christopher T., additional, Rogers, Toby, additional, Rowin, Ethan J., additional, Rudd, James H.F., additional, Sakuma, Hajime, additional, Salerno, Michael, additional, Schlosser, Thomas, additional, Schwitter, Juerg, additional, Sechtem, Udo P., additional, Stacey, R. Brandon, additional, Stuber, Matthias, additional, Sykora, Teresa, additional, Tayal, Upasana, additional, te Riele, Anneline S.J.M., additional, Treibel, Thomas A., additional, Tsaftaris, Sotirios A., additional, Valente, Anne Marie, additional, van den Bosch, Harrie, additional, van der Bijl, Pieter, additional, van Rossum, Albert C., additional, Wendell, David C., additional, Westenberg, Jos J.M., additional, Westwood, Mark A., additional, Wilke, Norbert, additional, Winter, Lukas, additional, and Yang, Hsin-Jung, additional

Published
2019
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15. Myocardial T2* mapping at ultrahigh magnetic fields: in vivo myocardial tissue characteri-zation and assessment of cardiac physiology with magnetic resonance imaging

Author

Huelnhagen Till, Flemming Bert, Seeliger Erdmann, Schulz-Menger Jeanette, and Niendorf Thoralf

Subjects
magnetic resonance imaging, myocardial tissue characterization, physiology, ultrahigh field mr, Medicine
Abstract

Mapping the effective transverse relaxation time T2* represents an emerging MRI tool for non-invasive myocardial tissue characterization and holds the promise to provide means for assessing myocardial (patho)physiology in vivo. This work takes advantage of the linear increase of susceptibility effects with magnetic field strength which renders it appealing to perform T2* mapping at ultrahigh magnetic fields and enables temporally resolved T2* mapping. Recognizing this potential this study examines the applicability of myocardial CINE T2* mapping in healthy volunteers and hypertrophic cardiomyopathy (HCM) patients at 7.0 Tesla and investigates its capability to distinguish between healthy myocardium and myocardium affected by HCM.

Published
2017
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19. Cortical lesions, central vein sign, and paramagnetic rim lesions in multiple sclerosis: Emerging machine learning techniques and future avenues

Author

UCL - SSS/IONS/CEMO - Pôle Cellulaire et moléculaire, La Rosa, Francesco, Wynen, Maxence, Al-Louzi, Omar, Beck, Erin S, Huelnhagen, Till, Maggi, Pietro, Thiran, Jean-Philippe, Kober, Tobias, Shinohara, Russell T, Sati, Pascal, Reich, Daniel S, Granziera, Cristina, Absinta, Martina, Bach Cuadra, Meritxell, UCL - SSS/IONS/CEMO - Pôle Cellulaire et moléculaire, La Rosa, Francesco, Wynen, Maxence, Al-Louzi, Omar, Beck, Erin S, Huelnhagen, Till, Maggi, Pietro, Thiran, Jean-Philippe, Kober, Tobias, Shinohara, Russell T, Sati, Pascal, Reich, Daniel S, Granziera, Cristina, Absinta, Martina, and Bach Cuadra, Meritxell

Abstract

The current diagnostic criteria for multiple sclerosis (MS) lack specificity, and this may lead to misdiagnosis, which remains an issue in present-day clinical practice. In addition, conventional biomarkers only moderately correlate with MS disease progression. Recently, some MS lesional imaging biomarkers such as cortical lesions (CL), the central vein sign (CVS), and paramagnetic rim lesions (PRL), visible in specialized magnetic resonance imaging (MRI) sequences, have shown higher specificity in differential diagnosis. Moreover, studies have shown that CL and PRL are potential prognostic biomarkers, the former correlating with cognitive impairments and the latter with early disability progression. As machine learning-based methods have achieved extraordinary performance in the assessment of conventional imaging biomarkers, such as white matter lesion segmentation, several automated or semi-automated methods have been proposed as well for CL, PRL, and CVS. In the present review, we first introduce these MS biomarkers and their imaging methods. Subsequently, we describe the corresponding machine learningbased methods that were proposed to tackle these clinical questions, putting them into context with respect to the challenges they are facing, including nonstandardized MRI protocols, limited datasets, and moderate inter-rater variability. We conclude by presenting the current limitations that prevent their broader deployment and suggesting future research directions.

Published
2022

21. Cortical lesions, central vein sign, and paramagnetic rim lesions in multiple sclerosis: Emerging machine learning techniques and future avenues

Author

La Rosa, Francesco, primary, Wynen, Maxence, additional, Al-Louzi, Omar, additional, Beck, Erin S, additional, Huelnhagen, Till, additional, Maggi, Pietro, additional, Thiran, Jean-Philippe, additional, Kober, Tobias, additional, Shinohara, Russell T, additional, Sati, Pascal, additional, Reich, Daniel S, additional, Granziera, Cristina, additional, Absinta, Martina, additional, and Bach Cuadra, Meritxell, additional

Published
2022
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23. Magnetic Resonance Imaging (MRI) Metrics in Routine Clinical Practice: Proof of Concept in MS PATHS (Multiple Sclerosis Partners Advancing Technology for Health Solutions) (1356)

Author

Fisher, Elizabeth, primary, Kober, Tobias, additional, Tsang, Adrian, additional, Corredor-Jerez, Ricardo, additional, Liao, Shirley, additional, Benzinger, Tammie L.S., additional, Blefari, Maria Laura, additional, Calabresi, Peter A., additional, Fartaria, Mario J., additional, Hersh, Carrie M., additional, Huelnhagen, Till, additional, Jones, Stephen E., additional, Kitzler, Hagen H., additional, Krupp, Lauren, additional, Levitt, Nicholas, additional, Lui, Yvonne W., additional, Makaretz, Sara J., additional, Naismith, Robert, additional, Nakamura, Kunio, additional, Ontaneda, Dan, additional, Perea, Rodrigo D., additional, Rao, Stephen, additional, Rovira, Alex, additional, Tivarus, Madalina E., additional, Williams, James R., additional, and Rudick, Richard A., additional

Published
2020
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24. Brain Iron and Metabolic Abnormalities in C19orf12 Mutation Carriers: A 7.0 Tesla MRI Study in Mitochondrial Membrane Protein–Associated Neurodegeneration

Author

Dusek, Petr, primary, Mekle, Ralf, additional, Skowronska, Marta, additional, Acosta‐Cabronero, Julio, additional, Huelnhagen, Till, additional, Robinson, Simon Daniel, additional, Schubert, Florian, additional, Deschauer, Marcus, additional, Els, Antje, additional, Ittermann, Bernd, additional, Schottmann, Gudrun, additional, Madai, Vince I., additional, Paul, Friedemann, additional, Klopstock, Thomas, additional, Kmiec, Tomasz, additional, Niendorf, Thoralf, additional, Wuerfel, Jens, additional, and Schneider, Susanne A., additional

Published
2019
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26. Myocardial T(2)* mapping with ultrahigh field magnetic resonance: physics and frontier applications

Author

Huelnhagen, Till, Paul, Katharina, Ku, Min-Chi, Serradas Duarte, Teresa, and Niendorf, Thoralf

Subjects
ultrahigh field, myocardial tissue characterization, cardiac physiology, Physics, Materials Science (miscellaneous), Biophysics, General Physics and Astronomy, magnetic resonance, MR technology, Cardiovascular and Metabolic Diseases, cardiovascular imaging, Physical and Theoretical Chemistry, Technology Platforms, Mathematical Physics, MRI, magnetic susceptibility
Abstract

Cardiovascular magnetic resonance imaging (CMR) has become an indispensable clinical tool for the assessment of morphology, function and structure of the heart muscle. By exploiting quantification of the effective transverse relaxation time (T2*) CMR also affords myocardial tissue characterization and probing of cardiac physiology, both being in the focus of ongoing research. These developments are fueled by the move to ultrahigh magnetic field strengths, which permits enhanced sensitivity and spatial resolution that help to overcome limitations of current clinical MR systems with the goal to contribute to a better understanding of myocardial (patho)physiology in vivo. In this context, the aim of this report is to introduce myocardial T2* mapping at ultrahigh magnetic fields as a promising technique to non-invasively assess myocardial (patho)physiology. For this purpose the basic principles of T2* assessment, the biophysical mechanisms determining T2* and (pre)clinical applications of myocardial T2* mapping are presented. Technological challenges and solutions for T2* sensitized CMR at ultrahigh magnetic field strengths are discussed followed by a review of acquisition techniques and post-processing approaches. Preliminary results derived from myocardial T2* mapping in healthy subjects and cardiac patients at 7.0 T are presented. A concluding section discusses remaining questions and challenges and provides an outlook on future developments and potential clinical applications.

Published
2017

27. Brain iron and metabolic abnormalities in C19orf12 mutation carriers: A 7.0 tesla MRI study in mitochondrial membrane protein-associated neurodegeneration.

Author

Dusek, Petr, Mekle, Ralf, Skowronska, Marta, Acosta‐Cabronero, Julio, Huelnhagen, Till, Robinson, Simon Daniel, Schubert, Florian, Deschauer, Marcus, Els, Antje, Ittermann, Bernd, Schottmann, Gudrun, Madai, Vince I., Paul, Friedemann, Klopstock, Thomas, Kmiec, Tomasz, Niendorf, Thoralf, Wuerfel, Jens, Schneider, Susanne A., and Acosta-Cabronero, Julio

Subjects
IRON metabolism, BRAIN metabolism, PROTEINS, BRAIN, RESEARCH, GENETIC mutation, CELL membranes, RESEARCH methodology, MITOCHONDRIAL membranes, MAGNETIC resonance imaging, EVALUATION research, MITOCHONDRIA, COMPARATIVE studies, RESEARCH funding, MEMBRANE proteins
Abstract

Background: Mitochondrial membrane protein-associated neurodegeneration is an autosomal-recessive disorder caused by C19orf12 mutations and characterized by iron deposits in the basal ganglia.Objectives: The aim of this study was to quantify iron concentrations in deep gray matter structures using quantitative susceptibility mapping MRI and to characterize metabolic abnormalities in the pyramidal pathway using 1 H MR spectroscopy in clinically manifesting membrane protein-associated neurodegeneration patients and asymptomatic C19orf12 gene mutation heterozygous carriers.Methods: We present data of 4 clinically affected membrane protein-associated neurodegeneration patients (mean age: 21.0 ± 2.9 years) and 9 heterozygous gene mutation carriers (mean age: 50.4 ± 9.8 years), compared to age-matched healthy controls. MRI assessments were performed on a 7.0 Tesla whole-body system, consisting of whole-brain gradient-echo scans and short echo time, single-volume MR spectroscopy in the white matter of the precentral/postcentral gyrus. Quantitative susceptibility mapping, a surrogate marker for iron concentration, was performed using a state-of-the-art multiscale dipole inversion approach with focus on the globus pallidus, thalamus, putamen, caudate nucleus, and SN.Results and Conclusion: In membrane protein-associated neurodegeneration patients, magnetic susceptibilities were 2 to 3 times higher in the globus pallidus (P = 0.02) and SN (P = 0.02) compared to controls. In addition, significantly higher magnetic susceptibility was observed in the caudate nucleus (P = 0.02). Non-manifesting heterozygous mutation carriers exhibited significantly increased magnetic susceptibility (relative to controls) in the putamen (P = 0.003) and caudate nucleus (P = 0.001), which may be an endophenotypic marker of genetic heterozygosity. MR spectroscopy revealed significantly increased levels of glutamate, taurine, and the combined concentration of glutamate and glutamine in membrane protein-associated neurodegeneration, which may be a correlate of corticospinal pathway dysfunction frequently observed in membrane protein-associated neurodegeneration patients. © 2019 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2020
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28. Myocardial Effective Transverse Relaxation Time T 2 * is Elevated in Hypertrophic Cardiomyopathy: A 7.0 T Magnetic Resonance Imaging Study

Author

Huelnhagen, Till, primary, Ku, Min-Chi, additional, Reimann, Henning Matthias, additional, Serradas Duarte, Teresa, additional, Pohlmann, Andreas, additional, Flemming, Bert, additional, Seeliger, Erdmann, additional, Eichhorn, Christina, additional, A. Ferrari, Victor, additional, Prothmann, Marcel, additional, Schulz-Menger, Jeanette, additional, and Niendorf, Thoralf, additional

Published
2018
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29. Cover Image, Volume 31, Issue 3

Author

Paul, Katharina, primary, Huelnhagen, Till, additional, Oberacker, Eva, additional, Wenz, Daniel, additional, Kuehne, André, additional, Waiczies, Helmar, additional, Schmitter, Sebastian, additional, Stachs, Oliver, additional, and Niendorf, Thoralf, additional

Published
2018
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30. Millimeter spatial resolution in vivo sodium MRI of the human eye at 7 T using a dedicated radiofrequency transceiver array

Author

Wenz, Daniel, primary, Kuehne, Andre, additional, Huelnhagen, Till, additional, Nagel, Armin M., additional, Waiczies, Helmar, additional, Weinberger, Oliver, additional, Oezerdem, Celal, additional, Stachs, Oliver, additional, Langner, Soenke, additional, Seeliger, Erdmann, additional, Flemming, Bert, additional, Hodge, Russell, additional, and Niendorf, Thoralf, additional

Published
2018
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32. Experimental MRI Monitoring of Renal Blood Volume Fraction Variations En Route to Renal Magnetic Resonance Oximetry

Author

Pohlmann, Andreas, primary, Cantow, Kathleen, additional, Huelnhagen, Till, additional, Grosenick, Dirk, additional, Periquito, Joāo dos Santos, additional, Boehmert, Laura, additional, Gladytz, Thomas, additional, Waiczies, Sonia, additional, Flemming, Bert, additional, Seeliger, Erdmann, additional, and Niendorf, Thoralf, additional

Published
2017
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33. Enhanced Fluorine-19 MRI Sensitivity using a Cryogenic Radiofrequency Probe: Technical Developments and Ex Vivo Demonstration in a Mouse Model of Neuroinflammation

Author

Waiczies, Sonia, primary, Millward, Jason M., additional, Starke, Ludger, additional, Delgado, Paula Ramos, additional, Huelnhagen, Till, additional, Prinz, Christian, additional, Marek, Daniel, additional, Wecker, Didier, additional, Wissmann, Ralph, additional, Koch, Stefan P., additional, Boehm-Sturm, Philipp, additional, Waiczies, Helmar, additional, Niendorf, Thoralf, additional, and Pohlmann, Andreas, additional

Published
2017
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38. The choice of embedding media affects image quality, tissue R2*, and susceptibility behaviors in post‐mortem brain MR microscopy at 7.0T.

Author

Dusek, Petr, Madai, Vince Istvan, Huelnhagen, Till, Bahn, Erik, Matej, Radoslav, Sobesky, Jan, Niendorf, Thoralf, Acosta‐Cabronero, Julio, and Wuerfel, Jens

Abstract

Purpose: The quality and precision of post‐mortem MRI microscopy may vary depending on the embedding medium used. To investigate this, our study evaluated the impact of 5 widely used media on: (1) image quality, (2) contrast of high spatial resolution gradient‐echo (T1 and T2*‐weighted) MR images, (3) effective transverse relaxation rate (R2*), and (4) quantitative susceptibility measurements (QSM) of post‐mortem brain specimens. Methods: Five formaldehyde‐fixed brain slices were scanned using 7.0T MRI in: (1) formaldehyde solution (formalin), (2) phosphate‐buffered saline (PBS), (3) deuterium oxide (D2O), (4) perfluoropolyether (Galden), and (5) agarose gel. SNR and contrast‐to‐noise ratii (SNR/CNR) were calculated for cortex/white matter (WM) and basal ganglia/WM regions. In addition, median R2* and QSM values were extracted from caudate nucleus, putamen, globus pallidus, WM, and cortical regions. Results: PBS, Galden, and agarose returned higher SNR/CNR compared to formalin and D2O. Formalin fixation, and its use as embedding medium for scanning, increased tissue R2*. Imaging with agarose, D2O, and Galden returned lower R2* values than PBS (and formalin). No major QSM offsets were observed, although spatial variance was increased (with respect to R2* behaviors) for formalin and agarose. Conclusions: Embedding media affect gradient‐echo image quality, R2*, and QSM in differing ways. In this study, PBS embedding was identified as the most stable experimental setup, although by a small margin. Agarose and Galden were preferred to formalin or D2O embedding. Formalin significantly increased R2* causing noisier data and increased QSM variance. [ABSTRACT FROM AUTHOR]

Published
2019
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40. Magnetic resonance safety and compatibility of tantalum markers used in proton beam therapy for intraocular tumors: A 7.0 Tesla study

Author

Oberacker, Eva, primary, Paul, Katharina, additional, Huelnhagen, Till, additional, Oezerdem, Celal, additional, Winter, Lukas, additional, Pohlmann, Andreas, additional, Boehmert, Laura, additional, Stachs, Oliver, additional, Heufelder, Jens, additional, Weber, Andreas, additional, Rehak, Matus, additional, Seibel, Ira, additional, and Niendorf, Thoralf, additional

Published
2016
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42. High Spatial Resolution Cardiovascular Magnetic Resonance at 7.0 Tesla in Patients with Hypertrophic Cardiomyopathy – First Experiences: Lesson Learned from 7.0 Tesla

Author

Prothmann, Marcel, primary, von Knobelsdorff-Brenkenhoff, Florian, additional, Töpper, Agnieszka, additional, Dieringer, Matthias A., additional, Shahid, Etham, additional, Graessl, Andreas, additional, Rieger, Jan, additional, Lysiak, Darius, additional, Thalhammer, C., additional, Huelnhagen, Till, additional, Kellman, Peter, additional, Niendorf, Thoralf, additional, and Schulz-Menger, Jeanette, additional

Published
2016
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44. Advancing Cardiovascular, Neurovascular, and Renal Magnetic Resonance Imaging in Small Rodents Using Cryogenic Radiofrequency Coil Technology

Author

Niendorf, Thoralf, primary, Pohlmann, Andreas, additional, Reimann, Henning M., additional, Waiczies, Helmar, additional, Peper, Eva, additional, Huelnhagen, Till, additional, Seeliger, Erdmann, additional, Schreiber, Adrian, additional, Kettritz, Ralph, additional, Strobel, Klaus, additional, Ku, Min-Chi, additional, and Waiczies, Sonia, additional

Published
2015
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45. Diffusion-Sensitized Ophthalmic Magnetic Resonance Imaging Free of Geometric Distortion at 3.0 and 7.0 T

Author

Paul, Katharina, primary, Graessl, Andreas, additional, Rieger, Jan, additional, Lysiak, Darius, additional, Huelnhagen, Till, additional, Winter, Lukas, additional, Heidemann, Robin, additional, Lindner, Tobias, additional, Hadlich, Stefan, additional, Zimpfer, Annette, additional, Pohlmann, Andreas, additional, Endemann, Beate, additional, Krüger, Paul-Christian, additional, Langner, Sönke, additional, Stachs, Oliver, additional, and Niendorf, Thoralf, additional

Published
2015
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46. W(h)ither human cardiac and body magnetic resonance at ultrahigh fields? technical advances, practical considerations, applications, and clinical opportunities

Author

Niendorf, Thoralf, primary, Paul, Katharina, additional, Oezerdem, Celal, additional, Graessl, Andreas, additional, Klix, Sabrina, additional, Huelnhagen, Till, additional, Hezel, Fabian, additional, Rieger, Jan, additional, Waiczies, Helmar, additional, Frahm, Jens, additional, Nagel, Armin M., additional, Oberacker, Eva, additional, and Winter, Lukas, additional

Published
2015
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47. Cardiovascular magnetic resonance at 7.0 Tesla in patients with hypertrophic cardiomyopathy - a pilot study

Author

Prothmann, Marcel, primary, Shahid, Etham, additional, Toepper, Agnieszka, additional, von Knobelsdorff-Brenkenhoff, Florian, additional, Graessl, Andreas, additional, Rieger, Jan, additional, Lysiak, Darius Georg, additional, Thalhammer, Christof, additional, Huelnhagen, Till, additional, Niendorf, Thoralf, additional, and Schulz-Menger, Jeanette, additional

Published
2015
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48. On the subjective acceptance during cardiovascular magnetic resonance imaging at 7.0 Tesla

Author

Klix, Sabrina, primary, Els, Antje, additional, Paul, Katharina, additional, Graessl, Andreas, additional, Oezerdem, Celal, additional, Weinberger, Oliver, additional, Winter, Lukas, additional, Thalhammer, Christof, additional, Huelnhagen, Till, additional, Rieger, Jan, additional, Mehling, Heidrun, additional, Schulz-Menger, Jeanette, additional, and Niendorf, Thoralf, additional

Published
2015
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49. Myocardial T2* mapping at ultrahigh magnetic fields: in vivo myocardial tissue characteri-zation and assessment of cardiac physiology with magnetic resonance imaging.

Author

Huelnhagen, Till, Flemming, Bert, Seeliger, Erdmann, Schulz-Menger, Jeanette, and Niendorf, Thoralf

Abstract

Mapping the effective transverse relaxation time T2* represents an emerging MRI tool for non-invasive myocardial tissue characterization and holds the promise to provide means for assessing myocardial (patho)physiology in vivo. This work takes advantage of the linear increase of susceptibility effects with magnetic field strength which renders it appealing to perform T2* mapping at ultrahigh magnetic fields and enables temporally resolved T2* mapping. Recognizing this potential this study examines the applicability of myocardial CINE T2* mapping in healthy volunteers and hypertrophic cardiomyopathy (HCM) patients at 7.0 Tesla and investigates its capability to distinguish between healthy myocardium and myocardium affected by HCM. [ABSTRACT FROM AUTHOR]

Published
2017
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50. Myocardial effective transverse relaxation time.

Author

Huelnhagen, Till, Hezel, Fabian, Serradas Duarte, Teresa, Pohlmann, Andreas, Oezerdem, Celal, Flemming, Bert, Seeliger, Erdmann, Prothmann, Marcel, Schulz ‐ Menger, Jeanette, and Niendorf, Thoralf

Abstract

Purpose Myocardial effective relaxation time [ABSTRACT FROM AUTHOR]

Published
2017
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