Description
SPRINGER Preclinical Mri Of The Kidney Methods And Protocols (Hb 2021) by POHLMANN A.
This Open Access volume provides readers with an open access protocol collection and wide-ranging recommendations for preclinical renal MRI used in translational research. The chapters in this book are interdisciplinary in nature and bridge the gaps between physics, physiology, and medicine. They are designed to enhance training in renal MRI sciences and improve the reproducibility of renal imaging research. Chapters provide guidance for exploring, using and developing small animal renal MRI in your laboratory as a unique tool for advanced in vivo phenotyping, diagnostic imaging, and research into potential new therapies. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Cutting-edge and thorough, Preclinical MRI of the Kidney: Methods and Protocols is a valuable resource and will be of importance to anyone interested in the preclinical aspect of renal and cardiorenal diseases in the fields of physiology, nephrology, radiology, and cardiology. This publication is based upon work from COST Action PARENCHIMA, supported by European Cooperation in Science and Technology (COST). COST (www.cost.eu) is a funding agency for research and innovation networks. COST Actions help connect research initiatives across Europe and enable scientists to grow their ideas by sharing them with their peers. This boosts their research, career and innovation. PARENCHIMA (renalmri.org) is a community-driven Action in the COST program of the European Union, which unites more than 200 experts in renal MRI from 30 countries with the aim to improve the reproducibility and standardization of renal MRI biomarkers. Preface...Table of Contents...Contributing Authors...Part I Introduction1. Recommendations for Preclinical Renal MRI: A Comprehensive Open-Access Protocol Collection to Improve Training, Reproducibility, and Comparability of StudiesAndreas Pohlmann, Susan J. Back, Andrea Fekete, Iris Friedli, Stefanie Hectors, Neil Peter Jerome, Min-Chi Ku, Dario Livio Longo, Martin Meier, Jason M. Millward, Joao S. Periquito, Erdmann Seeliger, Suraj D. Serai, Sonia Waiczies, Steven Sourbron, Christoffer Laustsen, and Thoralf NiendorfPart II Animal Models, Preparation, Monitoring, and Physiological Interventions2. Animal Models of Renal Pathophysiology and DiseaseAdam Hosszu, Tamas Kaucsar, Erdmann Seeliger, and Andrea Fekete3. Preparation and Monitoring of Small Animals in Renal MRITamas Kaucsar, Adam Hosszu, Erdmann Seeliger, Henning M. Reimann, and Andrea Fekete4. Reversible (Patho-)Physiologically Relevant Test Interventions: Rationale and Examples Kathleen Cantow, Mechthild Ladwig-Wiegard, Bert Flemming, Andrea Fekete, Adam Hosszu, Erdmann Seeliger5. Preparation of Ex Vivo Rodent Phantoms for Developing, Testing, and Training MR Imaging of the Kidney and Other Organs Jason M. Millward, Joao S. Periquito, Paula Ramos Delgado, Christian Prinz, Thoralf Niendorf, and Sonia WaicziesPart III Basic Concepts of Measurement Techniques6. Quantitative Assessment of Renal Perfusion and Oxygenation by Invasive Probes: Basic ConceptsKathleen Cantow, Roger G. Evans, Dirk Grosenick, Thomas Gladytz, Thoralf Niendorf, Bert Flemming, and Erdmann Seeliger7. Ultrasound and Photoacoustic Imaging of the Kidney: Basic Concepts and ProtocolsSandra Meyer, Dieter Fuchs, and Martin Meier8. Hardware Considerations for Preclinical Magnetic Resonance of the KidneyPaula Ramos Delgado, Ekkehard Kustermann, Andre Kuhne, Jason M. Millward, Thoralf Niendorf, Andreas Pohlmann, and Martin Meier9. MRI Mapping of Renal T1: Basic ConceptStefanie Hectors, Sabrina Doblas, Philippe Garteiser, Gwenael Page, Bernard E. Van Beers, John C. Waterton, and Octavia Bane10. MRI Mapping of the Blood Oxygenation Sensitive Parameter T2* in the Kidney: Basic ConceptLu-Ping Li, Bradley Hack, Erdmann Seeliger, and Pottumarthi V. Prasad11. Renal Diffusion Weighted Imaging (DWI) for Apparent Diffusion Coefficient (ADC), Intra Voxel Incoherent Motion (IVIM), and Diffusion Tensor Imaging (DTI): Basic ConceptNeil Peter Jerome, Anna Caroli, and Alexandra Ljimani12. Dynamic Contrast Enhancement (DCE)-MRI Derived Renal Perfusion and Filtration: Basic ConceptsMichael Pedersen, Pietro Irrera, Walter Dastru, Frank G. Zoellner, Kevin M. Bennett, Scott C. Beeman, G. Larry Bretthorst, Joel R. Garbow, and Dario Livio Longo13. Non-Invasive Renal Perfusion Measurement Using Arterial Spin Labelling (ASL) MRI: Basic ConceptMin-Chi Ku, Maria A. Fernandez-Seara, Frank Kober, and Thoralf Niendorf14. Renal pH Imaging Using Chemical Exchange Saturation Transfer (CEST)-MRI: Basic ConceptsDario Livio Longo, Pietro Irrera, Lorena Consolino, Phillip Zhe Sun, and Michael T. McMahon15. Sodium (23Na) MRI of the Kidney: Basic ConceptJames T. Grist, Esben Sovso Hansen, Frank G. Zoellner, and Christoffer Laustsen16. Hyperpolarized Carbon (13C) MRI of the Kidneys: Basic ConceptsCornelius von Morze, Galen D. Reed, Zhen J. Wang, Michael A. Ohliger, and Christoffer Laustsen17. Functional Imaging Using Fluorine (19F) MR Methods: Basic ConceptsSonia Waiczies, Christian Prinz, Ludger Starke, Jason M. Millward, Paula Ramos Delgado, Jens Rosenberg, Marc Nazare, Helmar Waiczies, Andreas Pohlmann, and Thoralf Niendorf18. MR Elastography of the Abdomen: Basic ConceptsSuraj D. Serai and Meng YinPart IV Experimental Protocols19. Monitoring Renal Hemodynamics and Oxygenation by Invasive Probes: Experimental ProtocolKathleen Cantow, Mechthild Ladwig-Wiegard, Bert Flemming, Andreas Pohlmann, Thoralf Niendorf, and Erdmann Seeliger20. Essential Practical Steps for MRI of the Kidney in Experimental Research Andreas Pohlmann, Joao S. Periquito, and Thoralf Niendorf21. Assessment of Renal Volume with MRI: Experimental ProtocolAndreas Muller and Martin Meier22. Experimental Protocols for MRI Mapping of Renal T1Philippe Garteiser, Octavia Bane, Sabrina Doblas, Iris Friedli, Stefanie Hectors, Gwenael Page, Bernard E. Van Beers, and John C. Waterton23. Experimental Protocols for MRI Mapping of the Blood Oxygenation Sensitive Parameters T2* and T2 in the KidneyAndreas Pohlmann, Kaixuan Zhao, Sean B. Fain, Pottumarthi V. Prasad, and Thoralf Niendorf24. Renal MRI Diffusion: Experimental Protocol Joao S. Periquito, Martin Meier, Thoralf Niendorf, Andreas Pohlmann, and Neil Peter Jerome25. Dynamic Contrast Enhanced (DCE)-MRI Derived Renal Perfusion and Filtration: Experimental ProtocolPietro Irrera, Lorena Consolino, Walter Dastru, Michael Pedersen, Frank G. Zoellner, Dario Livio Longo26. Renal Blood Flow Using Arterial Spin Labeling (ASL)-MRI: Experimental Protocol and PrinciplesKai-Hsiang Chuang, Martin Meier, Maria A. Fernandez-Seara, Frank Kober, and Min-Chi Ku27. Renal pH Mapping Using Chemical Exchange Saturation Transfer (CEST)-MRI: Experimental ProtocolKowsalya Devi Pavuluri, Lorena Consolino, Dario Livio Longo, Pietro Irrera, Phillip Zhe Sun, and Michael T. McMahon28. Sodium (23Na) MRI of the Kidney: Experimental ProtocolJames T. Grist, Esben Sovso Hansen, Frank G. Zoellner, and Christoffer Laustsen29. Hyperpolarized Carbon (13C) MRI of the Kidney: Experimental Protocol Christoffer Laustsen, Cornelius von Morze, and Galen Reed30. Fluorine (19F) MRI for Assessing Inflammatory Cells in the Kidney: Experimental ProtocolMin-Chi Ku, Adrian Schreiber, Paula Ramos Delgado, Philipp Boehm-Sturm, Ralph Kettritz, Thoralf Niendorf, Andreas Pohlmann, and Sonia Waiczies31. Fluorine (19F) MRI to Measure Renal Oxygen Tension and Blood Volume: Experimental Protocol Lingzhi Hu, Hua Pan, and Samuel A. Wickline32. MR Elastography of the Abdomen: Experimental ProtocolsSuraj D. Serai and Meng YinPart V Protocols for Advanced Analyses33. Subsegmentation of the Kidney in Experimental MR Images Using Morphology-Based Regions-of-Interest or Multiple-Layer Concentric ObjectsLeili Riazy, Bastien Milani, Joao S. Periquito, Kathleen Cantow, Thoralf Niendorf, Menno Pruijm, Erdmann Seeliger, and Andreas Pohlmann34. De-Noising for Improved Parametric MRI of the Kidney: Protocol for Non-Local Means Filtering Ludger Starke, Karsten Tabelow, Thoralf Niendorf, and Andreas Pohlmann35. Analysis Protocols for MRI Mapping of Renal T1Philippe Garteiser, Gwenael Page, Sabrina Doblas, Octavia Bane, Stefanie Hectors, Iris Friedli, Bernard E. Van Beers, and John C. Waterton36. Analysis Protocols for MRI Mapping of the Blood Oxygenation Sensitive Parameters T2* and T2 in the KidneyJoao S. Periquito, Ludger Starke, Carlota M. Santos, Andreia C. Freitas, Nuno Loucao, Pablo Garcia Polo, Rita G. Nunes, Thoralf Niendorf, and Andreas Pohlmann37. Analysis of Renal Diffusion Weighted Imaging (DWI) Using Apparent Diffusion Coefficient (ADC) and Intra Voxel Incoherent Motion (IVIM) ModelsNeil Peter Jerome and Joao S. Periquito38. Analysis Protocol for Dynamic Contrast Enhanced (DCE)-MRI of Renal Perfusion and Filtration Frank G. Zoellner, Walter Dastru, Pietro Irrera, Dario Livio Longo, Kevin M. Bennett, Scott C. Beeman, G. Larry Bretthorst, and Joel R. Garbow39. Quantitative Analysis of Renal Perfusion by Arterial Spin LabelingKai-Hsiang Chuang, Frank Kober, and Min-Chi Ku40. Analysis Protocol for the Quantification of Renal pH Using Chemical Exchange Saturation Transfer (CEST)-MRIHahnsung Kim, Yin Wu, Daisy Villano, Dario Livio Longo, Michael T. McMahon, and Phillip Zhe Sun41. Analysis Protocol for Renal Sodium (23Na) MR ImagingJames T. Grist, Esben Sovso Hansen, Frank G. Zoellner, and Christoffer Laustsen42. Analysis Methods for Hyperpolarized Carbon (13C) MRI of the KidneyGalen D. Reed, Natalie J. Korn, Christoffer Laustsen, and Cornelius von Morze43. Data Preparation Protocol for Low Signal-to-Noise Ratio Fluorine-19 MRILudger Starke, Thoralf Niendorf, and Sonia WaicziesSubject Index List...show more