Personalized Pathway-Activated Systems Imaging in Oncology - Principal and Instrumentation

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This comprehensive volume covers radiopharmaceuticals developed for pathway-directed systems in imaging and theranostic applications. We now are at the cutting edge of providing personalized treatment with increased use in oncology of these new radiopharmaceuticals. Trends in high-resolution instrumentation development, quality assurance systems and regulatory compliance for radiopharmaceuticals, clinical evaluation of radiopharmaceuticals, and benefits and pitfalls of the current clinical FDG PET are discussed.
Radiopharmaceuticals are used for diagnosis of diseases of the central nervous and cardiovascular systems and for staging, restaging, and treatment planning for cancers. Nuclear biomarkers allow precise measurement of molecular pathways on a whole-body image upon administration of functional radiolabeled agents, and nuclear imaging agentshave potential use in patient selection, pharmacokinetic, dosage-finding, and proof-of-concept studies. Nuclear imaging agents and hybrid instrumentation also provide sensitive and specific answers for differential responsiveness in therapeutic outcome.
This book serves as a reference for moving the discovery and development of radiopharmaceuticals from the workbench to clinical applications. It thus benefits not only clinicians but also translational research scientists-molecular biologists, chemists, imaging scientists, pharmaceutical developers, physicists, and support staff.

List of contents

Part 1: Chemical Biology Aspect.- Chapter 1: PET Radiotracers for Tumor Imaging (Ming Rong Zhang).- Chapter 2. Theranostic tracers for pathway-activated systems in oncology (Lan V. Pham, Jerry L. Bryant, David Yang, and Richard J. Ford).- Chapter 3. Optimization of Aseptic Production in PET Radiopharmaceuticals for Compliance to the Most Current GMP (Chih-Hao K. Kao) - Part 2: Engineering and Instrumentation Aspect.- Chapter 4. OpenPET enabling PET imaging during radiotherapy (Taiga Yamaya and Hideaki Tashima).- Chapter 5. High Resolution PET/CT development (Wai-Hoi Wong, and Yuxuan Zhang).- Part 3: Social Aspect.- Chapter 6. Ethics, Regulations and Clinical Development of Precision Medicine: Activating with molecular imaging (Chieko Kurihara, and Tomio Inoue).- Chapter 7. Optical Imaging: How far can we go (Wenbin Ma, Sara Herrera-Rodriguez, and Hector Martinez-Valdez).- Part 4: Clinic Aspect.- Chapter 8. Applications of UIH High Resolution PET/CT in Zhongshan Hospital (Jun Zhou, Hongcheng Shi).- Chapter 9. Clinical evaluation of focused high-resolution breast PET (Kanae Kawai Miyake, Yuji Nakamoto).- Chapter 10. Recent Developments with Large-bore PET/CT (Tomohiro Kaneta, Tomio Inoue).- Chapter 11. Copper-labeled radiopharmaceuticals in oncology (Hiroaki Kurihara).- Chapter 12. PET radiopharmaceuticals in oncology beyond FDG (Shao-Li Song, Pan-Li Li, Gang Huang).- Chapter 13. Molecular Imaging in Oncology: Challenges and Opportunities in 21^st Century (Ya-Ming Li, Ya-Ming Li, David J. Yang, and Xue-Na Li).- Chapter 14. Visualization of Apoptosis: Annexin V imaging (Skye Hsin-Hsien Yeh, Fan-Lin Kong, Ming-Hsien Lin).

About the author

Dr. Tomio Inoue
President, Yokohama City University Medical Center

Dr. David J. Yang
Professor and Section Chief, Radiotheranostic Section,
Department of Cancer System Imaging,
Division of Diagnostic Imaging,
MD Anderson Cancer Center,
Consultant and Professor at The University of Tennessee Health Science Center,
Vice-president for Vyripharm Biopharmaceuticals

Dr. Gang Huang

Chairman, Institute of Nuclear Medicine,
Shanghai JiaoTong University School of Medicine

Summary

This comprehensive volume covers radiopharmaceuticals developed for pathway-directed systems in imaging and theranostic applications. We now are at the cutting edge of providing personalized treatment with increased use in oncology of these new radiopharmaceuticals. Trends in high-resolution instrumentation development, quality assurance systems and regulatory compliance for radiopharmaceuticals, clinical evaluation of radiopharmaceuticals, and benefits and pitfalls of the current clinical FDG PET are discussed.
Radiopharmaceuticals are used for diagnosis of diseases of the central nervous and cardiovascular systems and for staging, restaging, and treatment planning for cancers. Nuclear biomarkers allow precise measurement of molecular pathways on a whole-body image upon administration of functional radiolabeled agents, and nuclear imaging agentshave potential use in patient selection, pharmacokinetic, dosage-finding, and proof-of-concept studies. Nuclear imaging agents and hybrid instrumentation also provide sensitive and specific answers for differential responsiveness in therapeutic outcome.
This book serves as a reference for moving the discovery and development of radiopharmaceuticals from the workbench to clinical applications. It thus benefits not only clinicians but also translational research scientists—molecular biologists, chemists, imaging scientists, pharmaceutical developers, physicists, and support staff.