7 Non-radioactive imaging strategies for in vivo immune cell tracking
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Łukasz Kiraga
Abstract
In vivo tracking of administered cells chosen for specific disease treatment may be conducted by diagnostic imaging techniques preceded by cell labeling with special contrast agents. The most commonly used agents are those with radioactive properties, however their use in research is often impossible. This review paper focuses on the essential aspect of cell tracking with the exclusion of radioisotope tracers, therefore we compare application of different types of non-radioactive contrast agents (cell tracers), methods of cell labeling and application of various techniques for cell tracking, which are commonly used in preclinical or clinical studies. We discuss diagnostic imaging methods belonging to three groups: (1) Contrast-enhanced X-ray imaging, (2) Magnetic resonance imaging, and (3) Optical imaging. In addition, we present some interesting data from our own research on tracking immune cell with the use of discussed methods. Finally, we introduce an algorithm which may be useful for researchers planning leukocyte targeting studies, which may help to choose the appropriate cell type, contrast agent and diagnostic technique for particular disease study.
Abstract
In vivo tracking of administered cells chosen for specific disease treatment may be conducted by diagnostic imaging techniques preceded by cell labeling with special contrast agents. The most commonly used agents are those with radioactive properties, however their use in research is often impossible. This review paper focuses on the essential aspect of cell tracking with the exclusion of radioisotope tracers, therefore we compare application of different types of non-radioactive contrast agents (cell tracers), methods of cell labeling and application of various techniques for cell tracking, which are commonly used in preclinical or clinical studies. We discuss diagnostic imaging methods belonging to three groups: (1) Contrast-enhanced X-ray imaging, (2) Magnetic resonance imaging, and (3) Optical imaging. In addition, we present some interesting data from our own research on tracking immune cell with the use of discussed methods. Finally, we introduce an algorithm which may be useful for researchers planning leukocyte targeting studies, which may help to choose the appropriate cell type, contrast agent and diagnostic technique for particular disease study.
Chapters in this book
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors XIII
- 1 Personalized and targeted therapies 1
- 2 Advancements in cancer chemotherapy 27
- 3 Principles of radiation therapy 51
- 4 Advanced cell culture techniques for cancer research 81
- 5 Natural substances in cancer—do they work? 103
- 6 The application of the natural killer cells, macrophages and dendritic cells in treating various types of cancer 137
- 7 Non-radioactive imaging strategies for in vivo immune cell tracking 173
- 8 Present trends in the encapsulation of anticancer drugs 193
- 9 3D tumor model – a platform for anticancer drug development 213
- Index 241
Chapters in this book
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors XIII
- 1 Personalized and targeted therapies 1
- 2 Advancements in cancer chemotherapy 27
- 3 Principles of radiation therapy 51
- 4 Advanced cell culture techniques for cancer research 81
- 5 Natural substances in cancer—do they work? 103
- 6 The application of the natural killer cells, macrophages and dendritic cells in treating various types of cancer 137
- 7 Non-radioactive imaging strategies for in vivo immune cell tracking 173
- 8 Present trends in the encapsulation of anticancer drugs 193
- 9 3D tumor model – a platform for anticancer drug development 213
- Index 241
