Purpose: Image registration is the process of aligning images, and it is a fundamental task in medical image analysis. While many tasks in the field of image analysis, such as image segmentation, are handled almost entirely with deep learning and exceed the accuracy of conventional algorithms, currently available deformable image registration methods are often still conventional. Deep learning methods for medical image registration have recently reached the accuracy of conventional algorithms. However, they are often based on a weakly supervised learning scheme using multilabel image segmentations during training. The creation of such detailed annotations is very time-consuming. Approach: We propose a weakly supervised learning scheme for deformable image registration. By calculating the loss function based on only bounding box labels, we are able to train an image registration network for large displacement deformations without using densely labeled images. We evaluate our model on interpatient three-dimensional abdominal CT and MRI images. Results: The results show an improvement of ∼ 10 % (for CT images) and 20% (for MRI images) in comparison to the unsupervised method. When taking into account the reduced annotation effort, the performance also exceeds the performance of weakly supervised training using detailed image segmentations. Conclusion: We show that the performance of image registration methods can be enhanced with little annotation effort using our proposed method.
Purpose: Image registration is the process of aligning images, and it is a fundamental task in medical image analysis. While many tasks in the field of image analysis, such as image segmentation, are handled almost entirely with deep learning and exceed the accuracy of conventional algorithms, currently available deformable image registration methods are often still conventional. Deep learning methods for medical image registration have recently reached the accuracy of conventional algorithms. However, they are often based on a weakly supervised learning scheme using multilabel image segmentations during training. The creation of such detailed annotations is very time-consuming. Approach: We propose a weakly supervised learning scheme for deformable image registration. By calculating the loss function based on only bounding box labels, we are able to train an image registration network for large displacement deformations without using densely labeled images. We evaluate our model on interpatient three-dimensional abdominal CT and MRI images. Results: The results show an improvement of ∼ 10 % (for CT images) and 20% (for MRI images) in comparison to the unsupervised method. When taking into account the reduced annotation effort, the performance also exceeds the performance of weakly supervised training using detailed image segmentations. Conclusion: We show that the performance of image registration methods can be enhanced with little annotation effort using our proposed method.
Authors: Marc Modat; Gerard R Ridgway; Zeike A Taylor; Manja Lehmann; Josephine Barnes; David J Hawkes; Nick C Fox; Sébastien Ourselin Journal: Comput Methods Programs Biomed Date: 2009-10-08 Impact factor: 5.428
Authors: Stefan Klein; Marius Staring; Keelin Murphy; Max A Viergever; Josien P W Pluim Journal: IEEE Trans Med Imaging Date: 2009-11-17 Impact factor: 10.048
Authors: A Emre Kavur; N Sinem Gezer; Mustafa Barış; Sinem Aslan; Pierre-Henri Conze; Vladimir Groza; Duc Duy Pham; Soumick Chatterjee; Philipp Ernst; Savaş Özkan; Bora Baydar; Dmitry Lachinov; Shuo Han; Josef Pauli; Fabian Isensee; Matthias Perkonigg; Rachana Sathish; Ronnie Rajan; Debdoot Sheet; Gurbandurdy Dovletov; Oliver Speck; Andreas Nürnberger; Klaus H Maier-Hein; Gözde Bozdağı Akar; Gözde Ünal; Oğuz Dicle; M Alper Selver Journal: Med Image Anal Date: 2020-12-25 Impact factor: 8.545
Authors: Juan J Cerrolaza; Mauricio Reyes; Ronald M Summers; Miguel Ángel González-Ballester; Marius George Linguraru Journal: Med Image Anal Date: 2015-04-15 Impact factor: 8.545
Authors: Alessa Hering; Sven Kuckertz; Stefan Heldmann; Mattias P Heinrich Journal: Int J Comput Assist Radiol Surg Date: 2019-09-19 Impact factor: 2.924
Authors: Martin Rajchl; Matthew C H Lee; Ozan Oktay; Konstantinos Kamnitsas; Jonathan Passerat-Palmbach; Wenjia Bai; Mellisa Damodaram; Mary A Rutherford; Joseph V Hajnal; Bernhard Kainz; Daniel Rueckert Journal: IEEE Trans Med Imaging Date: 2016-11-09 Impact factor: 10.048