Bibliografische Daten
ISBN/EAN: 9780387251431
Sprache: Englisch
Umfang: xxii, 294 S., 123 s/w Illustr., 9 s/w Tab., 294 p.
Einband: gebundenes Buch
Beschreibung
Inhaltsangabe- Preface -Biomedical Significance of Small-Animal Imaging -Detectors for Small-Animal SPECT I -Detectors for Small-Animal SPECT II -The Animal in Animal Imaging -Objective Assessment of Image Quality -SPECT Imager Design and Data-Acquisition Systems -Computational Algorithms in Small-Animal Imaging -Reconstruction Algorithm with Resolution Deconvolution in a Small-Animal PET Imager -Estimates of Axial and Transaxial Resolution for One-, Two-, and Three-Camera Helical Pinhole SPECT -Pinhole Aperture Design for Small-Animal Imaging -Comparison of CsI(Ti) and Scintillating Plastic in a Multi-Pinhole/CCD-Based Gamma Camera for Small-Animal Low-Energy SPECT -Calibration of Scintillation Cameras and Pinhole SPECT Imaging Systems -Imaging Dopamine Transporters in a Mouse Brain with Single-Pinhole SPECT -A Micro-SPECT/CT System for Imaging of AA-Amyloidosis in Mice -Feasibility of Micro-SPECT/CT Imaging of Atherosclerotic Plaques in a Transgenic Mouse Model -Effect of Respiratory Motion on Plaque Imaging in the Mouse Using Tc-99m Labeled Annexin-V -Calibration and Performance of the Fully Engineered YAP-(S)PET Scanner for Small Rodents -A Small-Animal SPECT Imaging System Utilizing Position Tracking of Unanesthetized Mice -A Multidetector High-Resolution SPECT/CT Scanner with Continuous Scanning Capability -High-Resolution Multi-Pinhole Imaging Using Silicon Detectors -Development and Characterization of a High-Resolution MicroSPECT System -High-Resolution Radionuclide Imaging Using Focusing Gamma-Ray Optics -SPECT/Micro-CT Imaging of Bronchial Angiogenesis in a Rat -Projection and Pinhole-Based Data Acquisition for Small-Animal SPECT Using Storage Phosphor Technology -Index
Autorenportrait
Inhaltsangabe- Preface -Biomedical Significance of Small-Animal Imaging -Detectors for Small-Animal SPECT I -Detectors for Small-Animal SPECT II -The Animal in Animal Imaging -Objective Assessment of Image Quality -SPECT Imager Design and Data-Acquisition Systems -Computational Algorithms in Small-Animal Imaging -Reconstruction Algorithm with Resolution Deconvolution in a Small-Animal PET Imager -Estimates of Axial and Transaxial Resolution for One-, Two-, and Three-Camera Helical Pinhole SPECT -Pinhole Aperture Design for Small-Animal Imaging -Comparison of CsI(Ti) and Scintillating Plastic in a Multi-Pinhole/CCD-Based Gamma Camera for Small-Animal Low-Energy SPECT -Calibration of Scintillation Cameras and Pinhole SPECT Imaging Systems -Imaging Dopamine Transporters in a Mouse Brain with Single-Pinhole SPECT -A Micro-SPECT/CT System for Imaging of AA-Amyloidosis in Mice -Feasibility of Micro-SPECT/CT Imaging of Atherosclerotic Plaques in a Transgenic Mouse Model -Effect of Respiratory Motion on Plaque Imaging in the Mouse Using Tc-99m Labeled Annexin-V -Calibration and Performance of the Fully Engineered YAP-(S)PET Scanner for Small Rodents -A Small-Animal SPECT Imaging System Utilizing Position Tracking of Unanesthetized Mice -A Multidetector High-Resolution SPECT/CT Scanner with Continuous Scanning Capability -High-Resolution Multi-Pinhole Imaging Using Silicon Detectors -Development and Characterization of a High-Resolution MicroSPECT System -High-Resolution Radionuclide Imaging Using Focusing Gamma-Ray Optics -SPECT/Micro-CT Imaging of Bronchial Angiogenesis in a Rat -Projection and Pinhole-Based Data Acquisition for Small-Animal SPECT Using Storage Phosphor Technology -Index
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