Patricia Leutz-Schmidt1,2,3, Monika Eichinger4,5,6, Mirjam Stahl5,7,8, Olaf Sommerburg5,7,8, Jürgen Biederer4,5,6,9, Hans-Ulrich Kauczor4,5,6,8, Michael U Puderbach4,5,6,10, Marcus A Mall5,8,11,12, Mark O Wielpütz4,5,6. 1. Department of Diagnostic and Interventional Radiology, Subdivision Pulmonary Imaging, University Hospital of Heidelberg, University of Heidelberg, Im Neuenheimer Feld 110, 69120, Heidelberg, Germany. Patricia.Leutz@med.uni-heidelberg.de. 2. Translational Lung Research Center Heidelberg (TLRC), German Lung Research Center (DZL), Im Neuenheimer Feld 156, 69120, Heidelberg, Germany. Patricia.Leutz@med.uni-heidelberg.de. 3. Department of Diagnostic and Interventional Radiology with Nuclear Medicine, Thoraxklinik, University Hospital of Heidelberg, Röntgenstr. 1, 69126, Heidelberg, Germany. Patricia.Leutz@med.uni-heidelberg.de. 4. Department of Diagnostic and Interventional Radiology, Subdivision Pulmonary Imaging, University Hospital of Heidelberg, University of Heidelberg, Im Neuenheimer Feld 110, 69120, Heidelberg, Germany. 5. Translational Lung Research Center Heidelberg (TLRC), German Lung Research Center (DZL), Im Neuenheimer Feld 156, 69120, Heidelberg, Germany. 6. Department of Diagnostic and Interventional Radiology with Nuclear Medicine, Thoraxklinik, University Hospital of Heidelberg, Röntgenstr. 1, 69126, Heidelberg, Germany. 7. Division of Pediatric Pulmonology & Allergy and Cystic Fibrosis Center, Department of Pediatrics, University of Heidelberg, Heidelberg, Germany. 8. Department of Translational Pulmonology, University Hospital Heidelberg, Im Neuenheimer Feld 156, 69120, Heidelberg, Germany. 9. Faculty of Medicine, University of Latvia, Raina bulvaris 19, LV-1586, Riga, Latvia. 10. Department of Diagnostic and Interventional Radiology, Hufeland Hospital, Rudolph-Weiss-Straße 1-5, 99947, Bad Langensalza, Germany. 11. Department of Pediatric Pulmonology, Immunology and Intensive Care Medicine, Charité-Universitätsmedizin Berlin, Augustenburger Platz 1, 13353, Berlin, Germany. 12. Berlin Institute of Health (BIH), Anna-Louisa-Karsch-Str. 2, 10178, Berlin, Germany.
Abstract
BACKGROUND: Despite recent advances in our knowledge about the pathophysiology and treatment of cystic fibrosis (CF), pulmonary involvement remains the most important determinant of morbidity and mortality in patients with CF. Since lung function testing may not be sensitive enough for subclinical disease progression, and because young children may have normal spirometry results over a longer period of time, imaging today plays an increasingly important role in clinical routine and research for the monitoring of CF lung disease. In this regard, chest magnetic resonance imaging (MRI) could serve as a radiation-free modality for structural and functional lung imaging. METHODS: Our research agenda encompassed the entire process of development, implementation, and validation of appropriate chest MRI protocols for use with infant and adult CF patients alike. RESULTS: After establishing a general MRI protocol for state-of-the-art clinical 1.5-T scanners based on the available sequence technology, a semiquantitative scoring system was developed followed by cross-validation of the method against the established modalities of computed tomography, radiography, and lung function testing. Cross-sectional studies were then set up to determine the sensitivity of the method for the interindividual variation of the disease and for changes in disease severity after treatment. Finally, the MRI protocol was implemented at multiple sites to be validated in a multicenter setting. CONCLUSION: After more than a decade, lung MRI has become a valuable tool for monitoring CF in clinical routine application and as an endpoint for clinical studies.
BACKGROUND: Despite recent advances in our knowledge about the pathophysiology and treatment of cystic fibrosis (CF), pulmonary involvement remains the most important determinant of morbidity and mortality in patients with CF. Since lung function testing may not be sensitive enough for subclinical disease progression, and because young children may have normal spirometry results over a longer period of time, imaging today plays an increasingly important role in clinical routine and research for the monitoring of CF lung disease. In this regard, chest magnetic resonance imaging (MRI) could serve as a radiation-free modality for structural and functional lung imaging. METHODS: Our research agenda encompassed the entire process of development, implementation, and validation of appropriate chest MRI protocols for use with infant and adult CF patients alike. RESULTS: After establishing a general MRI protocol for state-of-the-art clinical 1.5-T scanners based on the available sequence technology, a semiquantitative scoring system was developed followed by cross-validation of the method against the established modalities of computed tomography, radiography, and lung function testing. Cross-sectional studies were then set up to determine the sensitivity of the method for the interindividual variation of the disease and for changes in disease severity after treatment. Finally, the MRI protocol was implemented at multiple sites to be validated in a multicenter setting. CONCLUSION: After more than a decade, lung MRI has become a valuable tool for monitoring CF in clinical routine application and as an endpoint for clinical studies.
Entities:
Keywords:
Chest; Functional imaging; Lung; Magnetic resonance imaging; Validation
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