Handbook of Medical Image Computing and Computer Assisted Intervention. The MICCAI Society book Series

Table of Contents

1. Image synthesis and superresolution in medical imaging Jerry L. Prince, Aaron Carass, Can Zhao, Blake E. Dewey, Snehashis Roy, Dzung L. Pham 2. Machine learning for image reconstruction Kerstin Hammernik, Florian Knoll 3. Liver lesion detection in CT using deep learning techniques Avi Ben-Cohen, Hayit Greenspan 4. CAD in lung Kensaku Mori 5. Text mining and deep learning for disease classification Yifan Peng, Zizhao Zhang, Xiaosong Wang, Lin Yang, Le Lu 6. Multiatlas segmentation Bennett A. Landman, Ilwoo Lyu, Yuankai Huo, Andrew J. Asman 7. Segmentation using adversarial image-to-image networks Dong Yang, Tao Xiong, Daguang Xu, S. Kevin Zhou 8. Multimodal medical volumes translation and segmentation with generative adversarial network Zizhao Zhang, Lin Yang, Yefeng Zheng 9. Landmark detection and multiorgan segmentation: Representations and supervised approaches S. Kevin Zhou, Zhoubing Xu 10. Deep multilevel contextual networks for biomedical image segmentation Hao Chen, Qi Dou, Xiaojuan Qi, Jie-Zhi Cheng, Pheng-Ann Heng 11. LOGISMOS-JEI: Segmentation using optimal graph search and just-enough interaction Honghai Zhang, Kyungmoo Lee, Zhi Chen, Satyananda Kashyap, Milan Sonka 12. Deformable models, sparsity and learning-based segmentation for cardiac MRI based analytics Dimitris N. Metaxas, Zhennan Yan 13. Image registration with sliding motion Mattias P. Heinrich, Bartlomiej W. Papiez? 14. Image registration using machine and deep learning Xiaohuan Cao, Jingfan Fan, Pei Dong, Sahar Ahmad, Pew-Thian Yap, Dinggang Shen 15. Imaging biomarkers in Alzheimer's disease Carole H. Sudre, M. Jorge Cardoso, Marc Modat, Sebastien Ourselin 16. Machine learning based imaging biomarkers in large scale population studies: A neuroimaging perspective Guray Erus, Mohamad Habes, Christos Davatzikos 17. Imaging biomarkers for cardiovascular diseases Avan Suinesiaputra, Kathleen Gilbert, Beau Pontre, Alistair A. Young 18. Radiomics Martijn P.A. Starmans, Sebastian R. van der Voort, Jose M. Castillo Tovar, Jifke F. Veenland, Stefan Klein, Wiro J. Niessen 19. Random forests in medical image computing Ender Konukoglu, Ben Glocker 20. Convolutional neural networks Jonas Teuwen, Nikita Moriakov 21. Deep learning: RNNs and LSTM Robert DiPietro, Gregory D. Hager 22. Deep multiple instance learning for digital histopathology Maximilian Ilse, Jakub M. Tomczak, Max Welling 23. Deep learning: Generative adversarial networks and adversarial methods Jelmer M. Wolterink, Konstantinos Kamnitsas, Christian Ledig, Ivana Isgum 24. Linear statistical shape models and landmark location T.F. Cootes 25. Computer-integrated interventional medicine: A 30 year perspective Russell H. Taylor 26. Technology and applications in interventional imaging: 2D X-ray radiography/fluoroscopy and 3D cone-beam CT Sebastian Schafer, Jeffrey H. Siewerdsen 27. Interventional imaging: MR Eva Rothgang, William S. Anderson, Elodie Breton, Afshin Gangi, Julien Garnon, Bennet Hensen, Brendan F. Judy, Urte K�gebein, Frank K. Wacker 28. Interventional imaging: Ultrasound Ilker Hacihaliloglu, Elvis C.S. Chen, Parvin Mousavi, Purang Abolmaesumi, Emad Boctor, Cristian A. Linte 29. Interventional imaging: Vision Stefanie Speidel, Sebastian Bodenstedt, Francisco Vasconcelos, Danail Stoyanov 30. Interventional imaging: Biophotonics Daniel S. Elson 31. External tracking devices and tracked tool calibration Elvis C.S. Chen, Andras Lasso, Gabor Fichtinger 32. Image-based surgery planning Caroline Essert, Leo Joskowicz 33. Human-machine interfaces for medical imaging and clinical interventions Roy Eagleson, Sandrine de Ribaupierre 34. Robotic interventions Sang-Eun Song 35. System integration Andras Lasso, Peter Kazanzides 36. Clinical translation Aaron Fenster 37. Interventional procedures training Tamas Ungi, Matthew Holden, Boris Zevin, Gabor Fichtinger 38. Surgical data science Gregory D. Hager, Lena Maier-Hein, S. Swaroop Vedula 39. Computational biomechanics for medical image analysis Adam Wittek, Karol Miller 40. Challenges in Computer Assisted Interventions P. Stefan, J. Traub, C. Hennersperger, M. Esposito, N. Navab

Authors

S. Kevin Zhou Principal Key Expert, Medical Image Analysis, Siemens Healthcare Technology Center, Princeton, New Jersey, USA. S. Kevin Zhou, Ph.D. is currently a Principal Key Expert Scientist at Siemens Healthcare Technology Center, leading a team of full time research scientists and students dedicated to researching and developing innovative solutions for medical and industrial imaging products. His research interests lie in computer vision and machine/deep learning and their applications to medical image analysis, face recognition and modeling, etc. He has published over 150 book chapters and peer-reviewed journal and conference papers, registered over 250 patents and inventions, written two research monographs, and edited three books. He has won multiple technology, patent and product awards, including R&D 100 Award and Siemens Inventor of the Year. He is an editorial board member for Medical Image Analysis journal and a fellow of American Institute of Medical and Biological Engineering (AIMBE). Daniel Rueckert Professor of Visual Information Processing and Head, Department of Computing, Imperial College London. Professor Daniel Rueckert is Head of the Department of Computing at Imperial College London. He joined the Department of Computing as a lecturer in 1999 and became senior lecturer in 2003. Since 2005 he is Professor of Visual Information Processing. He has founded and leads the Biomedical Image Analysis group. His research interests include: Development of algorithms for image acquisition, image analysis and image interpretation, in particular in the areas of reconstruction, registration, tracking, segmentation and modelling; and novel machine learning approaches for the extraction of clinically useful information from medical images with application to computer-aided detection and diagnosis, computer-aided treatment planning, computer-guided interventions and therapy. He is an associate editor of IEEE Transactions on Medical Imaging, a member of the editorial board of Medical Image Analysis, Image & Vision Computing, MICCAI/Elsevier Book Series, and a referee for a number of international medical imaging journals and conferences. He has served as a member of organizing and program committees at numerous conferences, e.g. general co-chair of MMBIA 2006 and FIMH 2013 as well as program co-chair of MICCAI 2009, ISBI 2012 and WBIR 2012. He was elected as a Fellow of MICCAI in 2014, Fellow of the Royal Academy of Engineering in 2015 and, most recently, a Fellow of the Academy of Medical Sciences in 2019. Gabor Fichtinger Professor and Canada Research Chair in Computer-Integrated Surgery, School of Computing, Queen's University, Ontario, Canada. Professor Gabor Fichtinger is a Canada Research Chair in Computer-Integrated Surgery, at the School of Computing, Queen's University, Canada. His research and teaching interests are Computer-Assisted Interventions, involving medical imaging, medical image analysis, visualization, surgical planning and navigation, robotics, biosensors, and integrating these component technologies into workable clinical systems. He further specializes in minimally invasive percutaneous (through the skin) interventions performed under image guidance, with primary application in the detection and treatment of cancer. He is an associate editor of IEEE Transactions on Biomedical Engineering, a member of the editorial board of Medical Image Analysis, and a deputy editor for the International Journal of Computer-Assisted Radiology and Surgery. He has served on the program and organizing committees of leading international conferences, including SPIE Medical Imaging and IPCAI; he was general co-chair for MICCAI 2011, and program co-chair for MICCAI 2008 and 2018. Professor Fichtinger is a Fellow of IEEE and a Fellow of MICCAI.