| Titre : | Biomedical imaging : principles and applications | | Type de document : | texte imprimé | | Auteurs : | Reiner Salzer, Auteur | | Editeur : | Hoboken,New jersey : John Wiley & Sons, Inc | | Année de publication : | 2012 | | Importance : | 423 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 24 cm. | | ISBN/ISSN/EAN : | 978-0-470-64847-6 | | Langues : | Anglais (eng) | | Catégories : | GÉNIE BIOMÉDICAL
| | Index. décimale : | 35-03 Traitement d'images médicales | | Résumé : | This book presents and describes imaging technologies that can be used to study chemical processes and structural interactions in dynamic systems, principally in biomedical systems. The imaging technologies, largely biomedical imaging technologies such as MRT, Fluorescence mapping, raman mapping, nanoESCA, and CARS microscopy, have been selected according to their application range and to the chemical information content of their data. These technologies allow for the analysis and evaluation of delicate biological samples, which must not be disturbed during the profess. Ultimately, this may mean fewer animal lab tests and clinical trials. | | Note de contenu : | Contents:
1 Evaluation of Spectroscopic Images
1.2 Data Analysis
1.3 Applications
2 Evaluation of Tomographic Data
2.2 Image Reconstruction
2.3 Image Data Representation: Pixel Size and Image Resolution
2.4 Consequences of Limited Spatial Resolution
2.5 Tomographic Data Evaluation: Tasks
3 X-Ray Imaging
3.1 Basics
3.2 Instrumentation
3.3 Clinical Applications
3.4 Radiation Exposure to Patients and Employees
4 Computed Tomography
4.1 Basics
4.2 Instrumentation
4.3 Measurement Techniques
4.4 Applications
4.4.1 Clinical Applications of Computed Tomography,
4.4.2 Radiation Dose in Typical Clinical Applications and Methods for Dose Reduction
4.5 Outlook
5 Magnetic Resonance Technology
5.2 Magnetic Nuclei Spin in a Magnetic Field
5.3 Image Creation
5.6 Noise in the Image
5.11 Reading the Mind—Functional MRI
6 Toward A 3D View of Cellular Architecture: Correlative Light Microscopy and Electron Tomography
6.3 Stains for CLEM
6.5 CLEM Applications
7 Tracer Imaging
7.2 Instrumentation
7.3 Measurement Techniques
7.4 Applications
8 Fluorescence Imaging
8.2 Contrast Mechanisms
8.3 Direct Methods: Fluorescent Probes
8.4 Indirect Methods: Fluorescent Proteins
8.5 Microscopy
8.7 Planar Imaging
8.8 Tomography
9 Infrared and Raman Spectroscopic Imaging
9.2 Instrumentation
9.3 Raman Imaging
9.4 Sampling Techniques
9.5 Data Analysis and Image Evaluation
10 Coherent Anti-Stokes Raman Scattering Microscopy
10.1 Basics
10.3 CARS Microscopy in Practice
10.5 Laser Sources
10.6 Data Acquisition
10.7 Measurement Techniques
11 Biomedical Sonography
11.1 Basic Principles
11.2 Instrumentation of Real-Time Ultrasound Imaging
11.3 Measurement Techniques of Real-Time Ultrasound Imaging
11.4 Application Examples of Biomedical Sonography
12 Acoustic Microscopy for Biomedical Applications
12.1 Sound Waves and Basics of Acoustic Microscopy
12.2 Types of Acoustic Microscopy
12.3 Biomedical Applications of Acoustic Microscopy
12.4 Examples of Tissue Investigations using SAM
Index
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Biomedical imaging : principles and applications [texte imprimé] / Reiner Salzer, Auteur . - Hoboken,New jersey : John Wiley & Sons, Inc, 2012 . - 423 p. : couv. ill. en coul., ill. ; 24 cm. ISBN : 978-0-470-64847-6 Langues : Anglais ( eng) | Catégories : | GÉNIE BIOMÉDICAL
| | Index. décimale : | 35-03 Traitement d'images médicales | | Résumé : | This book presents and describes imaging technologies that can be used to study chemical processes and structural interactions in dynamic systems, principally in biomedical systems. The imaging technologies, largely biomedical imaging technologies such as MRT, Fluorescence mapping, raman mapping, nanoESCA, and CARS microscopy, have been selected according to their application range and to the chemical information content of their data. These technologies allow for the analysis and evaluation of delicate biological samples, which must not be disturbed during the profess. Ultimately, this may mean fewer animal lab tests and clinical trials. | | Note de contenu : | Contents:
1 Evaluation of Spectroscopic Images
1.2 Data Analysis
1.3 Applications
2 Evaluation of Tomographic Data
2.2 Image Reconstruction
2.3 Image Data Representation: Pixel Size and Image Resolution
2.4 Consequences of Limited Spatial Resolution
2.5 Tomographic Data Evaluation: Tasks
3 X-Ray Imaging
3.1 Basics
3.2 Instrumentation
3.3 Clinical Applications
3.4 Radiation Exposure to Patients and Employees
4 Computed Tomography
4.1 Basics
4.2 Instrumentation
4.3 Measurement Techniques
4.4 Applications
4.4.1 Clinical Applications of Computed Tomography,
4.4.2 Radiation Dose in Typical Clinical Applications and Methods for Dose Reduction
4.5 Outlook
5 Magnetic Resonance Technology
5.2 Magnetic Nuclei Spin in a Magnetic Field
5.3 Image Creation
5.6 Noise in the Image
5.11 Reading the Mind—Functional MRI
6 Toward A 3D View of Cellular Architecture: Correlative Light Microscopy and Electron Tomography
6.3 Stains for CLEM
6.5 CLEM Applications
7 Tracer Imaging
7.2 Instrumentation
7.3 Measurement Techniques
7.4 Applications
8 Fluorescence Imaging
8.2 Contrast Mechanisms
8.3 Direct Methods: Fluorescent Probes
8.4 Indirect Methods: Fluorescent Proteins
8.5 Microscopy
8.7 Planar Imaging
8.8 Tomography
9 Infrared and Raman Spectroscopic Imaging
9.2 Instrumentation
9.3 Raman Imaging
9.4 Sampling Techniques
9.5 Data Analysis and Image Evaluation
10 Coherent Anti-Stokes Raman Scattering Microscopy
10.1 Basics
10.3 CARS Microscopy in Practice
10.5 Laser Sources
10.6 Data Acquisition
10.7 Measurement Techniques
11 Biomedical Sonography
11.1 Basic Principles
11.2 Instrumentation of Real-Time Ultrasound Imaging
11.3 Measurement Techniques of Real-Time Ultrasound Imaging
11.4 Application Examples of Biomedical Sonography
12 Acoustic Microscopy for Biomedical Applications
12.1 Sound Waves and Basics of Acoustic Microscopy
12.2 Types of Acoustic Microscopy
12.3 Biomedical Applications of Acoustic Microscopy
12.4 Examples of Tissue Investigations using SAM
Index
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