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Molecular Imaging Probes For Cancer Research

Molecular Imaging Probes For Cancer Research
Author: Xiaoyuan (Shawn) Chen
Publisher: World Scientific
Total Pages: 1102
Release: 2012-07-31
Genre: Medical
ISBN: 9814434655
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This review volume integrates the advances in cancer biology, molecular imaging techniques and imaging probes for visualization and quantitative measurement of anatomical, functional, and molecular profiles of cancer. The volume also presents a comprehensive summary of the state-of-the-art technology in molecular imaging probe design and applications in radionuclide (PET and SPECT), magnetic resonance (MR), optical (fluorescence, Raman, photoacoustic), ultrasound, CT, and multimodality imaging. Bringing together the fundamentals of molecular imaging, and the basic principles of each molecular imaging modality in this volume, readers' understanding in this field is further enhanced. With a strong emphasis on the chemistry of the design of appropriate molecular imaging probes for early cancer detection, therapy-response monitoring, and anti-cancer drug development, the process of translating novel cancer imaging probes from bench to bedside is extensively discussed.

Molecular Imaging in Oncology

Molecular Imaging in Oncology
Author: Otmar Schober
Publisher: Springer Science & Business Media
Total Pages: 421
Release: 2012-11-28
Genre: Medical
ISBN: 3642108539
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The impact of molecular imaging on diagnostics, therapy, and follow-up in oncology is increasing steadily. Many innovative molecular imaging probes have already entered clinical practice, and there is no doubt that the future emphasis will be on multimodality imaging in which morphological, functional, and molecular imaging techniques are combined in a single clinical investigation. This handbook addresses all aspects of molecular imaging in oncology, from basic research to clinical applications. The first section is devoted to technology and probe design, and examines a variety of PET and SPECT tracers as well as multimodality probes. Preclinical studies are then discussed in detail, with particular attention to multimodality imaging. In the third section, diverse clinical applications are presented, and the book closes by looking at future challenges. This handbook will be of value to all who are interested in the revolution in diagnostic oncology that is being brought about by molecular imaging.

Emerging Applications of Molecular Imaging to Oncology

Emerging Applications of Molecular Imaging to Oncology
Author:
Publisher: Elsevier
Total Pages: 415
Release: 2014-09-27
Genre: Science
ISBN: 0124116345
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Advances in Cancer Research provides invaluable information on the exciting and fast-moving field of cancer research. Here, once again, outstanding and original reviews are presented on a variety of topics. This volume, number 124, covers emerging applications of molecular imaging to oncology, including molecular-genetic imaging, imaging the tumor microenvironment, tracking cells and vaccines in vivo, and more. Provides information on cancer research Outstanding and original reviews Suitable for researchers and students

Molecular Imaging in Oncology

Molecular Imaging in Oncology
Author: Otmar Schober
Publisher: Springer Nature
Total Pages: 911
Release: 2020-06-27
Genre: Medical
ISBN: 3030426181
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This book discusses the most significant recent advances in oncological molecular imaging, covering the full spectrum from basic and preclinical research to clinical practice. The content is divided into five sections, the first of which is devoted to standardized and emerging technologies and probe designs for different modalities, such as PET, SPECT, optical and optoacoustic imaging, ultrasound, CT, and MRI. The second section focuses on multiscale preclinical applications ranging from advanced microscopy and mass spectroscopy to whole-body imaging. In the third section, various clinical applications are presented, including image-guided surgery and the radiomic analysis of multiple imaging features. The final two sections are dedicated to the emerging, crucial role that molecular imaging can play in the planning and monitoring of external and internal radiotherapy, and to future challenges and prospects in multimodality imaging. Given its scope, the handbook will benefit all readers who are interested in the revolution in diagnostic and therapeutic oncology that is now being brought about by molecular imaging.

Molecular Imaging

Molecular Imaging
Author: Alexei Bogdanov
Publisher: Springer Science & Business Media
Total Pages: 278
Release: 2004-10-07
Genre: Medical
ISBN: 9783540210214
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The continuous progress in the understanding of molecular processes of disease formation and progression attributes an increasing importance to biomedical molecular imaging methods. The purpose of this workshop was to discuss and overview multiple applications and emerging technologies in the area of diagnostic imaging including its fundamental capabilities in preclinical research, the opportunities for medical care, and the options involving therapeutic concepts. The book provides the reader with state-of-the-art information on the different aspects of diagnostic imaging, illuminating new developments in molecular biology, imaging agents and molecular probe design, and therapeutic techniques.

New Probe for Molecular Imaging

New Probe for Molecular Imaging
Author: Enrico Chiavazza
Publisher: LAP Lambert Academic Publishing
Total Pages: 132
Release: 2013
Genre:
ISBN: 9783659416200
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Nowadays, imaging techniques are an indispensable tool in cancer research, clinical trials and medical practice and they are of great aid for oncologists to localize and characterize abnormal tissues. Detection and characterization of lesions, especially tumors, can be achieved by using specific tracers or contrast media that are capable of selectively interact with the biological target. This approach is defined as Molecular Imaging. A MI probe is usually composed of a biologically active component (vector) that interacts with the intended molecular target, an imaging reporter that should produce a detectable signal and a linker between the two components. Among the different imaging modalities only a few are characterized by the merging of these functional units into one molecular identity: PET tracers and Hyperpolarized MRI probes use labeled nuclides (either radioactive or stable) as imaging reporters within the biologically active molecule. My work has dealt with the development of hyperpolarized MRI tracers, which are able to overcome the sensitivity issue typical of the MRI methodology avoiding the radiological concerns that negatively affect the use of nuclear techniques.

Targeted Molecular Imaging

Targeted Molecular Imaging
Author: Michael J. Welch
Publisher: CRC Press
Total Pages: 390
Release: 2012-02-24
Genre: Science
ISBN: 1439841950
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Targeted Molecular Imaging covers the development of novel diagnostic approaches that use an imaging probe and agent to noninvasively visualize cellular processes in normal and disease states. It discusses the concept, development, preclinical studies, and, in many cases, translation to the clinic of targeted imaging agents. The many case studies that form the core of this book deal with the development and translation of non-nuclear probes and radiotracers; other sections address critical topics such as In vitro studies, small animal research, and the application of targeted probes for nuclear, optical and MRI imaging. The chapters use a common format to demonstrate how various investigators approach the comprehensive task of validating a new targeted probe. Targeted Molecular Imaging is a timely resource for a rapidly advancing field, and addresses: Various methods of validating a new targeted probe through examples from human studies with imaging of breast cancer, cardiovascular disease, and neurodegenerative diseases Basic principles, disease models, imaging studies in animals, imaging in initial human studies, and the application of molecular imaging in pharmacy and drug discovery In vitro studies, small animal studies, and targeted radiopharmaceuticals Using these case studies, investigators can generalize and apply the information to their own specific targeted probe. The insights provided by the contributors, experts who have developed these approaches in their own groups, help guide scientists planning to translate imaging agents from the concept stage to clinical application.

Molecular Imaging Probes for Cancer Research

Molecular Imaging Probes for Cancer Research
Author: Xiaoyuan Chen
Publisher: World Scientific
Total Pages: 1102
Release: 2012
Genre: Medical
ISBN: 9814293679
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This review volume integrates the advances in cancer biology, molecular imaging techniques and imaging probes for visualization and quantitative measurement of anatomical, functional, and molecular profiles of cancer. The volume also presents a comprehensive summary of the state-of-the-art technology in molecular imaging probe design and applications in radionuclide (PET and SPECT), magnetic resonance (MR), optical (fluorescence, Raman, photoacoustic), ultrasound, CT, and multimodality imaging. Bringing together the fundamentals of molecular imaging, and the basic principles of each molecular imaging modality in this volume, readers' understanding in this field is further enhanced. With a strong emphasis on the chemistry of the design of appropriate molecular imaging probes for early cancer detection, therapy-response monitoring, and anti-cancer drug development, the process of translating novel cancer imaging probes from bench to bedside is extensively discussed.

The Chemistry of Imaging Probes

The Chemistry of Imaging Probes
Author: Lorenzo Tei
Publisher: Frontiers Media SA
Total Pages: 129
Release: 2018-10-19
Genre:
ISBN: 288945598X
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Over the past decades, the field of molecular imaging has been rapidly growing involving multiple disciplines such as medicine, biology, chemistry, pharmacology and biomedical engineering. Any molecular imaging procedure requires an imaging probe that is an agent used to visualize, characterize and quantify biological processes in living systems. Such a probe typically consists of an agent that usually produces signal for imaging purpose, a targeting moiety, and a linker connecting the targeting moiety and the signaling agent. Many challenging problems of molecular imaging can be addressed by exploiting the great possibilities offered by modern synthetic organic and coordination chemistry and the powerful procedures provided by conjugation chemistry. Thus, chemistry plays a decisive role in the development of this cutting-edge methodology. Currently, the diagnostic imaging modalities include Magnetic Resonance Imaging (MRI), Computed Tomography (CT), Ultrasound (US), Nuclear Imaging (PET, SPECT), Optical Imaging (OI) and Photoacoustic Imaging (PAI). Each of these imaging modalities has its own advantages and disadvantages, and therefore, a multimodal approach combining two techniques is often adopted to generate complementary anatomical and functional information of the disease. The basis for designing imaging probes for a given application is dictated by the chosen imaging modality, which in turn is dependent upon the concentration and localization profile (vascular, extracellular matrix, cell membrane, intracellular, near or at the cell nucleus) of the target molecule. The development of high-affinity ligands and their conjugation to the targeting vector is also one of the key steps for pursuing efficient molecular imaging probes. Other excellent reviews, text and monographs describe the principles of biomedical imaging, focusing on molecular biology or on the physics behind the techniques. This Research Topic aims to show how chemistry can offer molecular imaging the opportunity to express all its potential.

Recent Advances in Bioimaging for Cancer Research

Recent Advances in Bioimaging for Cancer Research
Author: Jae-Woo Lim
Publisher:
Total Pages:
Release: 2018
Genre: Science
ISBN:
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Molecular imaging techniques as well as nanoparticle applicable to molecular imaging are being explored to improve the cancer detection accuracy, which help to manage efficiently at the early stage. Among the various imaging technologies, optical imaging is a highly sensitive detection technique that allows direct observation of specific molecular events, biological pathways, and disease processes in real time through imaging probes that emit light in a range of wavelengths. Recently, nanoparticles have provided significant progresses that can be simultaneously used for cancer diagnosis and therapy (cancer theranostics). Theranostics aims to provide "image-guided cancer therapy," by integrating therapeutic and imaging agents in a single platform. In addition, molecular imaging techniques facilitate "image-guided surgery" enabling maximization of tumor excision and minimization of side effects. The optical signals generated by fluorescence nanoparticles offer the possibility to distinguish tumor sites and normal tissues during surgery by real-time guidance, thereby increasing the long-term patient survival. These techniques will considerably contribute to reducing cancer recurrence and developing more effective cures. In this chapter, we will introduce diverse research on nanomaterials-based optical imaging for effective cancer therapy.