Introduction to Biomedical Imaging

Introduction to Biomedical Imaging

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Introduction to Biomedical Imaging

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Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

12.12.2002

Verlag

John Wiley & Sons

Seitenzahl

352

Maße (L/B/H)

24/16.1/1.9 cm

Beschreibung

Rezension

"...we recommend this book to anyone with an interest in the challenging and expanding field of biomedical imaging." ( Annals of Biomedical Engineering , December 2003)
"...a useful resource for anyone working in biomedical imaging...recommended to anyone with an interest in the challenging and expanding field..." ( Annals of Biomedical Engineering , Issue 31:11)

"I recommend this book as a reference and education guide..." ( Biomedical Instrumentation & Technology , July-August 2003)

"...a well-written book for all...highly recommended..." ( Medical Physics , August 2003)

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

12.12.2002

Verlag

John Wiley & Sons

Seitenzahl

352

Maße (L/B/H)

24/16.1/1.9 cm

Gewicht

492 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-0-471-23766-2

Weitere Bände von IEEE Press Series on Biomedical Engineering

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Die Leseprobe wird geladen.
  • Introduction to Biomedical Imaging
  • Preface.
    Acknowledgments.

    1. X-Ray Imaging and Computed Tomography.

    1.1 General Principles of Imaging with X-Rays.

    1.2 X-Ray Production.

    1.3 Interactions of X-Rays with Tissue.

    1.4 Linear and Mass Attenuation Coefficients of X-Rays in Tissue.

    1.5 Instrumentation for Planar X-Ray Imaging.

    1.6 X-Ray Image Characteristics.

    1.7 X-Ray Contrast Agents.

    1.8 X-Ray Imaging Methods.

    1.9 Clinical Applications of X-Ray Imaging.

    1.10 Computed Tomography.

    1.11 Image Processing for Computed Tomography.

    1.12 Spiral/Helical Computed Tomography.

    1.13 Multislice Spiral Computed Tomography.

    1.14 Radiation Dose.

    1.15 Clinical Applications of Computed Tomography.

    2. Nuclear Medicine.

    2.1 General Principles of Nuclear Medicine.

    2.2 Radioactivity.

    2.3 The Production of Radionuclides.

    2.4 Types of Radioactive Decay.

    2.5 The Technetium Generator.

    2.6 The Biodistribution of Technetium-Based Agents within the Body.

    2.7 Instrumentation: The Gamma Camera.

    2.8 Image Characteristics.

    2.9 Single Photon Emission Computed Tomography.

    2.10 Clinical Applications of Nuclear Medicine.

    2.11 Positron Emission Tomography.

    3. Ultrasonic Imaging.

    3.1 General Principles of Ultrasonic Imaging.

    3.2 Wave Propagation and Characteristic Acoustic Impedance.

    3.3 Wave Reflection and Refraction.

    3.4 Energy Loss Mechanisms in Tissue.

    3.5 Instrumentation.

    3.6 Diagnostic Scanning Modes.

    3.7 Artifacts in Ultrasonic Imaging.

    3.8 Image Characteristics.

    3.9 Compound Imaging.

    3.10 Blood Velocity Measurements Using Ultrasound.

    3.11 Ultrasound Contrast Agents, Harmonic Imaging, and Pulse Inversion Techniques.

    3.12 Safety and Bioeffects in Ultrasonic Imaging.

    3.13 Clinical Applications of Ultrasound.

    4. Magnetic Resonance Imaging.

    4.1 General Principles of Magnetic Resonance Imaging.

    4.2 Nuclear Magnetism.

    4.3 Magnetic Resonance Imaging.

    4.4 Instrumentation.

    4.5 Imaging Sequences.

    4.6 Image Characteristics.

    4.7 MRI Contrast Agents.

    4.8 Magnetic Resonance Angiography.

    4.9 Diffusion-Weighted Imaging.

    4.10 In Vivo Localized Spectroscopy.

    4.11 Functional MRI.

    4.12 Clinical Applications of MRI.

    5. General Image Characteristics.

    5.1 Introduction.

    5.2 Spatial Resolution.

    5.3 Signal-to-Noise Ratio.

    5.4 Contrast-to-Noise Ratio.

    5.5 Image Filtering.

    5.6 The Receiver Operating Curve.

    Appendix A: The Fourier Transform.

    Appendix B: Backprojection and Filtered Backprojection.

    Abbreviations.

    Index.