"Molecular Imaging: Fundamentals and Applications" is a comprehensive monograph which describes not only the theory of the underlying algorithms and key technologies but also introduces a prototype system and its applications, bringing together theory, technology and applications. By explaining the basic concepts and principles of molecular imaging, imaging techniques, as well as research and applications in detail, the book provides both detailed theoretical background information and technical methods for researchers working in medical imaging and the life sciences. Clinical doctors and…mehr
"Molecular Imaging: Fundamentals and Applications" is a comprehensive monograph which describes not only the theory of the underlying algorithms and key technologies but also introduces a prototype system and its applications, bringing together theory, technology and applications. By explaining the basic concepts and principles of molecular imaging, imaging techniques, as well as research and applications in detail, the book provides both detailed theoretical background information and technical methods for researchers working in medical imaging and the life sciences. Clinical doctors and graduate students will also benefit from this book. Jie Tian is a professor at the Institute of Automation, Chinese Academy of Sciences, China.
Produktdetails
Produktdetails
Advanced Topics in Science and Technology in China
Introduction.- Molecular Optical Simulation Environment.- Diffuse Optical Tomography.- Fluorescence Molecular Tomography.- Bioluminescence Tomography.- Positron Emission Tomography.- Radioisotope Labeled Molecular Imaging in SPECT.- MRI Facility-Based Molecular Imaging.- Other Molecular Imaging Technology.- Optical Multi-Modality Molecular Imaging.- Medical Image Processing and Analysis.-
Part II: Molecular Probes.-
Opportunities and Challenges of Radiolabeled Molecular Probes.- Oligonucleotide Probes.- Quantum Dots for Biological Imaging.- RGD-Based Molecular Probes for Integrin vbeta3 Imaging.-
Part III: Applications of Molecular Imaging.-
Basics of Molecular Biology.- Molecular Imaging Techniques in Clinical Practice of Tumors.- Using Molecular Imaging Techniques to Study Protein-Protein Interactions.- Application of Molecular Imaging in Transgenic Animals.- Molecular Imaging Methods in Diabetes-Related Studies.
Part I: Molecular Imaging Theory and System.-
Introduction.- Molecular Optical Simulation Environment.- Diffuse Optical Tomography.- Fluorescence Molecular Tomography.- Bioluminescence Tomography.- Positron Emission Tomography.- Radioisotope Labeled Molecular Imaging in SPECT.- MRI Facility-Based Molecular Imaging.- Other Molecular Imaging Technology.- Optical Multi-Modality Molecular Imaging.- Medical Image Processing and Analysis.-
Part II: Molecular Probes.-
Opportunities and Challenges of Radiolabeled Molecular Probes.- Oligonucleotide Probes.- Quantum Dots for Biological Imaging.- RGD-Based Molecular Probes for Integrin αvβ3 Imaging.-
Part III: Applications of Molecular Imaging.-
Basics of Molecular Biology.- Molecular Imaging Techniques in Clinical Practice of Tumors.- Using Molecular Imaging Techniques to Study Protein-Protein Interactions.- Application of Molecular Imaging in Transgenic Animals.- Molecular Imaging Methods in Diabetes-Related Studies.
Introduction.- Molecular Optical Simulation Environment.- Diffuse Optical Tomography.- Fluorescence Molecular Tomography.- Bioluminescence Tomography.- Positron Emission Tomography.- Radioisotope Labeled Molecular Imaging in SPECT.- MRI Facility-Based Molecular Imaging.- Other Molecular Imaging Technology.- Optical Multi-Modality Molecular Imaging.- Medical Image Processing and Analysis.-
Part II: Molecular Probes.-
Opportunities and Challenges of Radiolabeled Molecular Probes.- Oligonucleotide Probes.- Quantum Dots for Biological Imaging.- RGD-Based Molecular Probes for Integrin vbeta3 Imaging.-
Part III: Applications of Molecular Imaging.-
Basics of Molecular Biology.- Molecular Imaging Techniques in Clinical Practice of Tumors.- Using Molecular Imaging Techniques to Study Protein-Protein Interactions.- Application of Molecular Imaging in Transgenic Animals.- Molecular Imaging Methods in Diabetes-Related Studies.
Part I: Molecular Imaging Theory and System.-
Introduction.- Molecular Optical Simulation Environment.- Diffuse Optical Tomography.- Fluorescence Molecular Tomography.- Bioluminescence Tomography.- Positron Emission Tomography.- Radioisotope Labeled Molecular Imaging in SPECT.- MRI Facility-Based Molecular Imaging.- Other Molecular Imaging Technology.- Optical Multi-Modality Molecular Imaging.- Medical Image Processing and Analysis.-
Part II: Molecular Probes.-
Opportunities and Challenges of Radiolabeled Molecular Probes.- Oligonucleotide Probes.- Quantum Dots for Biological Imaging.- RGD-Based Molecular Probes for Integrin αvβ3 Imaging.-
Part III: Applications of Molecular Imaging.-
Basics of Molecular Biology.- Molecular Imaging Techniques in Clinical Practice of Tumors.- Using Molecular Imaging Techniques to Study Protein-Protein Interactions.- Application of Molecular Imaging in Transgenic Animals.- Molecular Imaging Methods in Diabetes-Related Studies.
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