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Field Free Line Magnetic Particle Imaging / / by Marlitt Erbe



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Autore: Erbe Marlitt Visualizza persona
Titolo: Field Free Line Magnetic Particle Imaging / / by Marlitt Erbe Visualizza cluster
Pubblicazione: Wiesbaden : , : Springer Fachmedien Wiesbaden : , : Imprint : Springer Vieweg, , 2014
Edizione: 1st ed. 2014.
Descrizione fisica: 1 online resource (175 p.)
Disciplina: 003.3
629.045
Soggetto topico: Biomedical engineering
Computer simulation
Medical physics
Radiation
Biomedical Engineering and Bioengineering
Simulation and Modeling
Medical and Radiation Physics
Note generali: Description based upon print version of record.
Nota di bibliografia: Includes bibliographical references.
Nota di contenuto: ""Preface by the Series Editor""; ""Geleitwort""; ""Acknowledgements""; ""Abstract""; ""Kurzfassung""; ""Contents""; ""List of Figures""; ""List of Tables""; ""CHAPTER 1 Introduction""; ""1.1 Motivation""; ""1.2 Implemented Devices""; ""1.3 Publications""; ""1.4 Structuring""; ""CHAPTER 2 Magnetic Particle Imaging""; ""2.1 Medical Applications""; ""2.2 Fingerprint of the MPI Tracer""; ""2.2.1 Composition of SPIO Nanoparticles""; ""2.2.2 Phenomenology of Superparamagnetism""; ""2.2.3 Magnetic Moment""; ""2.2.4 Magnetization""; ""2.2.5 Langevin Theory of Paramagnetism""
""2.2.6 Distribution of SPIO Nanoparticle Core Diameters""""2.2.7 Anisotropy Effects""; ""2.3 Signal Reception""; ""2.4 Signal Encoding The Drive Field""; ""2.5 Spatial Encoding The Selection Field""; ""2.6 The System Function""; ""2.6.1 System Function in Time Space""; ""2.6.2 System Function in Frequency Space""; ""2.6.3 Measurement-based System Function""; ""2.6.4 Model-based System Function""; ""2.6.5 Hybrid Approach""; ""2.6.6 1D System Function for Ideal Conditions""; ""2.7 Reconstruction""; ""2.8 MPI Signal Chain""
""CHAPTER 3 Introduction of a Field Free Line for Magnetic Particle Imaging""""3.1 Motivation""; ""3.1.1 Increased Sensitivity""; ""3.1.2 FFL versus FFP Imaging: a Simulation Study""; ""3.1.3 Efficient Radon-based Reconstruction Algorithms""; ""3.2 The FFL Field and Trajectory""; ""3.3 The FFL Scanner Design""; ""3.4 Field Free Line Imaging Techniques""; ""3.4.1 Preliminaries: Static Field Free Line Generation""; ""3.4.2 Field Free Line Projection Imaging""; ""3.4.3 Dynamic Field Free Line Imaging""; ""CHAPTER 4 Theory of Magnetic Field Free Line Generation""; ""4.1 FFP Field Generation""
""4.2 On Axis FFL Field Generation""""4.3 FFL Field Rotation""; ""4.4 Current Considerations""; ""4.5 FFL Field Translation""; ""CHAPTER 5 A Field Free Line Field Demonstrator""; ""5.1 Introduction""; ""5.2 Materials and Methods""; ""5.2.1 FFL Field Demonstrator Construction""; ""5.2.2 FFL Field Demonstrator Electromagnetic Coils""; ""5.2.3 FFL Field Demonstrator Measurement Process""; ""5.3 Results""; ""5.3.1 FFL Rotation""; ""5.3.2 FFL Translation""; ""5.3.3 Magnetic Field Quality""; ""5.4 Discussion""
""CHAPTER 6 Scanner Efficiency and Magnetic Field Quality Analysis for Different Coil Topologies""""6.1 Dynamic FFL Selection Field Generation""; ""6.1.1 Coil Topologies for Dynamic FFL Selection Field Generation""; ""6.1.2 Current Optimization""; ""6.1.3 Magnetic Field Quality""; ""6.1.4 Electrical Power Consumption""; ""6.1.5 Summary""; ""6.1.6 Experimental Validation""; ""6.1.7 Discussion""; ""6.2 FFL Drive Field Generation""; ""CHAPTER 7 Efficient Reconstruction Algorithms""; ""7.1 Theory""; ""7.1.1 Magnetic Fields""; ""7.1.2 Particle Magnetization""; ""7.1.3 Induced Signal""
""7.1.4 Signal Transformations""
Sommario/riassunto: Marlitt Erbe provides a detailed introduction into the young research field of Magnetic Particle Imaging (MPI) and field free line (FFL) imaging in particular. She derives a mathematical description of magnetic field generation for FFL imaging in MPI. To substantiate the simulation studies on magnetic FFL generation with a proof-of-concept, the author introduces the FFL field demonstrator, which provides the world’s first experimentally generated rotated and translated magnetic FFL field complying with the requirements for FFL reconstruction. Furthermore, she proposes a scanner design of considerably enhanced magnetic field quality and efficiency. The author discusses the influence of magnetic field quality optimization on the image quality achieved using efficient Radon-based reconstruction methods, which arise for a line detection scheme, and based on this optimized design, presents a dynamic FFL scanner assembly. Contents Introduction of a Field Free Line for Magnetic Particle Imaging Magnetic Field Free Line Generation A Field Free Line Field Demonstrator Scanner Efficiency and Magnetic Field Quality Analysis Efficient Reconstruction Algorithms A Dynamic Field Free Line Imaging Device Target Groups Academics and practitioners in the fields of magnetic particle imaging, computed tomography, and medical imaging; radiologists and physicians. The Author Marlitt Erbe earned her doctoral degree at the Institute of Medical Engineering, University of Lübeck, under the supervision of Prof. Thorsten M. Buzug. The Editor The series Aktuelle Forschung Medizintechnik is edited by Thorsten M. Buzug.
Titolo autorizzato: Field Free Line Magnetic Particle Imaging  Visualizza cluster
ISBN: 3-658-05337-2
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910300327603321
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Serie: Aktuelle Forschung Medizintechnik – Latest Research in Medical Engineering, . 2625-9354