Main description:

Radiomics and Radiogenomics: Technical Basis and Clinical Applications 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. It explains the fundamental principles, technical bases, and clinical applications with a focus on oncology. The book's expert authors present computational approaches for extracting imaging features that help to detect and characterize disease tissues for improving diagnosis, prognosis, and evaluation of therapy response. This book is intended for audiences including imaging scientists, medical physicists, as well as medical professionals and specialists such as diagnostic radiologists, radiation oncologists, and medical oncologists.

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

Contents:

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

Ruijiang Li, Yan Wu, Michael Gensheimer, Masoud Badiei Khuzani, Lei Xing