Radiomics and Radiogenomics: Technical Basis and Clinical Applications: Imaging in Medical Diagnosis and Therapy
Editat de Ruijiang Li, Lei Xing, Sandy Napel, Daniel L. Rubinen Limba Engleză Paperback – 31 mar 2021
Features
- Provides a first complete overview of the technical underpinnings and clinical applications of radiomics and radiogenomics
- Shows how they are improving diagnostic and prognostic decisions with greater efficacy
- Discusses the image informatics, quantitative imaging, feature extraction, predictive modeling, software tools, and other key areas
- Covers applications in oncology and beyond, covering all major disease sites in separate chapters
- Includes an introduction to basic principles and discussion of emerging research directions with a roadmap to clinical translation
Toate formatele și edițiile | Preț | Express |
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Paperback (1) | 324.85 lei 6-8 săpt. | |
CRC Press – 31 mar 2021 | 324.85 lei 6-8 săpt. | |
Hardback (1) | 1220.15 lei 6-8 săpt. | |
CRC Press – 28 iun 2019 | 1220.15 lei 6-8 săpt. |
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Specificații
ISBN-13: 9780367779580
ISBN-10: 0367779587
Pagini: 484
Dimensiuni: 178 x 254 x 39 mm
Greutate: 0.45 kg
Ediția:1
Editura: CRC Press
Colecția Chapman and Hall/CRC
Seria Imaging in Medical Diagnosis and Therapy
ISBN-10: 0367779587
Pagini: 484
Dimensiuni: 178 x 254 x 39 mm
Greutate: 0.45 kg
Ediția:1
Editura: CRC Press
Colecția Chapman and Hall/CRC
Seria Imaging in Medical Diagnosis and Therapy
Cuprins
Part I: Introduction
1. Principles and rationale of radiomics and radiogenomics
Sandy Napel
Part II: Technical Basis
2. Imaging informatics: an overview
Assaf Hoogi, Daniel Rubin
3. Quantitative imaging using CT
Lin Lu, Lawrence H. Schwartz, Binsheng Zhao
4. Quantitative PET/CT for radiomics
Stephen R. Bowen, Paul E. Kinahan, George A. Sandison, Matthew J. Nyflot
5. Common techniques of quantitative MRI
David Hormuth II, Jack Virostko, Ashley Stokes, Adrienne Dula, Anna G. Sorace, Jennifer G. Whisenant, Jared Weis, C. Chad Quarles, Michael I. Miga, Thomas E. Yankeelov
6. Tumor segmentation
Spyridon Bakas, Rhea Chitalia, Despina Kontos, Yong Fan, Christos Davatzikos
7. Habitat imaging of tumor evolution by magnetic resonance imaging (MRI)
Bruna Victorasso Jardim-Perassi, Gary Martinez, Robert Gillies
8. Feature extraction and qualification
Lise Wei, Issam El Naqa
9. Predictive modeling, machine learning, and statistical issues
Panagiotis Korfiatis, Timothy L. Kline, Zeynettin Akkus, Kenneth Philbrick, Bradley J. Erikson
10. Radiogenomics: rationale and methods
Olivier Gevaert
11. Resources and datasets for radiomics
Ken Chang, Andrew Beers, James Brown, Jayashree Kalpathy-Cramer
Part III: Clinical Applications
12. Roles of radiomics and radiogenomics in clinical practice
Tianyue Niu, Xiaoli Sun, Pengfei Yang, Guohong Cao, Khin K. Tha, Hiroki Shirato, Kathleen Horst, Lei Xing
13. Brain cancer
William D. Dunn Jr, Rivka Colen
14. Breast cancer
Hui Li, Maryellen L. Giger
15. Lung cancer
Dong Di, Jie Tian, Shuo Wang
16. The essence of R in head and neck cancer
Hesham Elhalawani, Arvind Rao, Clifton D. Fuller
17. Gastrointestinal cancers
Zaiyi Liu
18. Radiomics in genitourinary cancers: prostate cancer
Satish Viswanath, Anant Madabhushi
19. Radiomics analysis for gynecologic cancers
Harini Veeraraghavan
20. Applications of imaging genomics beyond oncology
Xiaohui Yao, Jingwen Yan, Li Shen
Part IV: Future Outlook
21. Quantitative imaging to guide mechanism based modeling of cancer
David A. Hormouth II, Matthew T. McKenna, Thomas E. Yankeelov
22. Looking Ahead: Opportunities and Challenges in Radiomics and Radiogenomics
1. Principles and rationale of radiomics and radiogenomics
Sandy Napel
Part II: Technical Basis
2. Imaging informatics: an overview
Assaf Hoogi, Daniel Rubin
3. Quantitative imaging using CT
Lin Lu, Lawrence H. Schwartz, Binsheng Zhao
4. Quantitative PET/CT for radiomics
Stephen R. Bowen, Paul E. Kinahan, George A. Sandison, Matthew J. Nyflot
5. Common techniques of quantitative MRI
David Hormuth II, Jack Virostko, Ashley Stokes, Adrienne Dula, Anna G. Sorace, Jennifer G. Whisenant, Jared Weis, C. Chad Quarles, Michael I. Miga, Thomas E. Yankeelov
6. Tumor segmentation
Spyridon Bakas, Rhea Chitalia, Despina Kontos, Yong Fan, Christos Davatzikos
7. Habitat imaging of tumor evolution by magnetic resonance imaging (MRI)
Bruna Victorasso Jardim-Perassi, Gary Martinez, Robert Gillies
8. Feature extraction and qualification
Lise Wei, Issam El Naqa
9. Predictive modeling, machine learning, and statistical issues
Panagiotis Korfiatis, Timothy L. Kline, Zeynettin Akkus, Kenneth Philbrick, Bradley J. Erikson
10. Radiogenomics: rationale and methods
Olivier Gevaert
11. Resources and datasets for radiomics
Ken Chang, Andrew Beers, James Brown, Jayashree Kalpathy-Cramer
Part III: Clinical Applications
12. Roles of radiomics and radiogenomics in clinical practice
Tianyue Niu, Xiaoli Sun, Pengfei Yang, Guohong Cao, Khin K. Tha, Hiroki Shirato, Kathleen Horst, Lei Xing
13. Brain cancer
William D. Dunn Jr, Rivka Colen
14. Breast cancer
Hui Li, Maryellen L. Giger
15. Lung cancer
Dong Di, Jie Tian, Shuo Wang
16. The essence of R in head and neck cancer
Hesham Elhalawani, Arvind Rao, Clifton D. Fuller
17. Gastrointestinal cancers
Zaiyi Liu
18. Radiomics in genitourinary cancers: prostate cancer
Satish Viswanath, Anant Madabhushi
19. Radiomics analysis for gynecologic cancers
Harini Veeraraghavan
20. Applications of imaging genomics beyond oncology
Xiaohui Yao, Jingwen Yan, Li Shen
Part IV: Future Outlook
21. Quantitative imaging to guide mechanism based modeling of cancer
David A. Hormouth II, Matthew T. McKenna, Thomas E. Yankeelov
22. Looking Ahead: Opportunities and Challenges in Radiomics and Radiogenomics
Notă biografică
Ruijiang Li, PhD, is an Assistant Professor and ABR-certified medical physicist in the Department of Radiation Oncology at Stanford University School of Medicine. He is also an affiliated faculty member of the Integrative Biomedical Imaging Informatics at Stanford (IBIIS), a departmental section within Radiology. He has a broad background and training in medical imaging, with specific expertise in quantitative image analysis and machine learning as well as their applications in radiology and radiation oncology. He has received many nationally recognized awards, including the NIH Pathway to Independence (K99/R00) Award, ASTRO Clinical/Basic Science Research Award, ASTRO Basic/Translational Science Award, etc.
Dr. Lei Xing is the Jacob Haimson Professor of Medical Physics and Director of Medical Physics Division of Radiation Oncology Department at Stanford University. He also holds affiliate faculty positions in Department of Electrical engineering, Medical Informatics, Bio-X and Molecular Imaging Program at Stanford. Dr. Xing’s research has been focused on inverse treatment planning, tomographic image reconstruction, CT, optical and PET imaging instrumentations, image guided interventions, nanomedicine, imaging informatics and analysis, and applications of molecular imaging in radiation oncology. Dr. Xing is an author on more than 280 peer reviewed publications, a co-inventor on many issued and pending patents, and a co-investigator or principal investigator on numerous NIH, DOD, ACS and corporate grants. He is a fellow of AAPM (American Association of Physicists in Medicine) and AIMBE (American Institute for Medical and Biological Engineering).
Dr. Sandy Napel is Professor of Radiology, and Professor of Medicine and Electrical Engineering (by courtesy) at Stanford University. His primary interests are in developing diagnostic and therapy-planning applications and strategies for the acquisition, visualization, and quantitation of multi-dimensional medical imaging data. He is the co-director of the Radiology 3D and Quantitative Imaging Lab, and co-Director of IBIIS (Integrative Biomedical Imaging Informatics at Stanford).
Daniel L. Rubin, MD, MS, is Associate Professor of Radiology and Medicine (Biomedical Informatics Research) at Stanford University. He is Principal Investigator of two centers in the National Cancer Institute's Quantitative Imaging Network (QIN), Chair of the QIN Executive Committee, Chair of the Informatics Committee of the ECOG-ACRIN cooperative group, and past Chair of the RadLex Steering Committee of the Radiological Society of North America. His NIH-funded research program focuses on quantitative imaging and integrating imaging data with clinical and molecular data to discover imaging phenotypes that can predict the underlying biology, define disease subtypes, and personalize treatment. He is a Fellow of the American College of Medical Informatics and haspublished over 160 scientific publications in biomedical imaging informatics and radiology.
Recenzii
"Despite an abundance of research papers and some review articles, there have not been many comprehensive books devoted to these special audiences. Two first‐edition books published in 2019 by the Taylor and Francis Group, Radiomics and Radiogenomics (edited by Ruijiang Li, Lei Xing, Sandy Napel, and Daniel L. Rubin) and Big Data in Radiation Oncology (edited by Jun Deng and Lei Xing), have opportunely filled this void, and provided a comprehensive review as well as valuable insights on these key new advances. .... From these two books, readers can gain a fundamental understanding of radiomic feature definition and computation, processing steps (such as voxel resampling, MRI field bias correction and normalization, and other data harmonization), and processing parameters (such as fixed bin size vs fixed bin number and voxel neighborhood size). Readers can also develop a deeper appreciation of proper data management in modeling from both texts. As such, the technical knowledge from the books can assist researchers in optimizing their own study design."
-Dandan Zheng, in the Journal of Applied Clinical Medical Physics, July 2020
-Dandan Zheng, in the Journal of Applied Clinical Medical Physics, July 2020
Descriere
This book provides a first summary of the overlapping fields of radiomics and radiogenomics, showcasing how they are being used to evaluate disease characteristics and correlate with treatment response and patient prognosis.