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Biomedical Image Synthesis and Simulation Summary

Biomedical Image Synthesis and Simulation: Methods and Applications by Ninon Burgos (CNRS Researcher, Brain and Spine Institute (ICM), ARAMIS Lab, Paris, France)

Biomedical Image Synthesis and Simulation: Methods and Applications presents the basic concepts and applications in image-based simulation and synthesis used in medical and biomedical imaging. The first part of the book introduces and describes the simulation and synthesis methods that were developed and successfully used within the last twenty years, from parametric to deep generative models. The second part gives examples of successful applications of these methods. Both parts together form a book that gives the reader insight into the technical background of image synthesis and how it is used, in the particular disciplines of medical and biomedical imaging. The book ends with several perspectives on the best practices to adopt when validating image synthesis approaches, the crucial role that uncertainty quantification plays in medical image synthesis, and research directions that should be worth exploring in the future.

About Ninon Burgos (CNRS Researcher, Brain and Spine Institute (ICM), ARAMIS Lab, Paris, France)

Ninon Burgos is a CNRS researcher at the Paris Brain Institute, in the ARAMIS Lab, and a fellow of PR[AI]RIE, the Paris Artificial Intelligence Research Institute, France. She completed her PhD at University College London, UK, with a thesis on image synthesis for the attenuation correction and analysis of hybrid positron emission tomography/magnetic resonance imaging data. In 2019, she received the ERCIM Cor Baayen Young Researcher Award. Her research focuses on the processing and analysis of medical images, the use of images to guide the diagnosis of neurological diseases, and the application of these methods to the clinic. David Svoboda is an associate professor at the Department of visual computing of the Faculty of Informatics, Masaryk University, Brno, Czech Republic. He completed his PhD in computer science with a thesis on segmentation of volumetric histopathological images. He spent a half-year research visit at Manchester Metropolitan University, Manchester, UK, in the signal processing group, where he focused on the problems on edge detection using the statistics-based filtering. Since 2006, he has been with the Centre for Biomedical Image Analysis at Masaryk University. His current research fields include the manipulation of huge image data and the generation of synthetic microscopy image data, both static and time-lapse sequences.

Table of Contents

1. Introduction to Medical and Biomedical Image Synthesis 2. Parametric model-based approaches 3. Monte Carlo Simulations for Medical and Biomedical Applications 4. Medical Image Synthesis using Segmentation and Registration 5. Dictionary Learning for Medical Image Synthesis 6. Convolutional Neural Networks for Image Synthesis 7. Generative Adversarial Networks for Medical Image Synthesis 8. Autoencoders and Variational Autoencoders in Medical Image Analysis 9. Optimization of the MR Imaging Pipeline Using Simulation 10. Synthesis for Image Analysis Across Modalities: Application to Registration and Segmentation 11. Medical Image Harmonization Through Synthesis 12. Medical Image Super-Resolution With Deep Networks 13. Medical Image Denoising 14. Data Augmentation for Medical Image Analysis 15. Unsupervised Abnormality Detection in Medical Images with Deep Generative Methods 16. Regularising Disentangled Representations with Anatomical Temporal Consistency 17. Image Imputation in Cardiac MRI and Quality Assessment 18. Image Synthesis for Low-count PET Acquisitions: Lower Dose, Shorter Time 19. PET/MRI attenuation correction 20. Image Synthesis for MRI-only Radiotherapy Treatment Planning 21. Review of Cell Image Synthesis for Image Processing 22. Generative Models for Synthesis of Colorectal Cancer Histology Images 23. Spatiotemporal Image Generation for Embryomics Applications 24. Biomolecule Trafficking and Network Tomography-based Simulations 25. Validation and Evaluation Metrics for Medical and Biomedical Image Synthesis 26. Uncertainty Quantification in Medical Image Synthesis 27. Future trends

Additional information

NPB9780128243497
9780128243497
012824349X
Biomedical Image Synthesis and Simulation: Methods and Applications by Ninon Burgos (CNRS Researcher, Brain and Spine Institute (ICM), ARAMIS Lab, Paris, France)
New
Paperback
Elsevier Science Publishing Co Inc
2022-06-23
674
N/A
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