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Learning-Based Shape Model Matching: Training Accurate Models with Minimal Manual Input

Lindner, C; Thomson, J; The arcOGEN Consortium; Cootes, TF

In: Navab, N; Hornegger, J; Wells, WM; Frangi, AF. The 18th International Conference on Medical Image Computing and Computer Assisted Intervention (MICCAI 2015, Part III): International Conference on Medical Image Computing and Computer Assisted Intervention (MICCAI); Munich, Germany. Springer; 2015. p. 580-587.

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Abstract

Recent work has shown that statistical model-based methods lead to accurate and robust results when applied to the segmentation of bone shapes from radiographs. To achieve good performance, model-based matching systems require large numbers of annotations, which can be very time-consuming to obtain. Non-rigid registration can be applied to unlabelled images to obtain correspondences from which models can be built. However, such models are rarely as effective as those built from careful manual annotations, and the accuracy of the registration is hard to measure. In this paper, we show that small numbers of manually annotated points can be used to guide the registration, leading to significant improvements in performance of the resulting model matching system, and achieving results close to those of a model built from dense manual annotations. Placing such sparse points manually is much less time-consuming than a full dense annotation, allowing good models to be built for new bone shapes more quickly than before. We describe detailed experiments on varying the number of sparse points, and demonstrate that manually annotating fewer than 30% of the points is sufficient to create robust and accurate models for segmenting hip and knee bones in radiographs. The proposed method includes a very effective and novel way of estimating registration accuracy in the absence of ground truth.

Bibliographic metadata

Content type:
Conference contribution
Type of conference contribution:
Conference paper (reviewed)
Conference contribution title:
Learning-Based Shape Model Matching: Training Accurate Models with Minimal Manual Input
Publication date:
2015
Author(s):
Conference title:
International Conference on Medical Image Computing and Computer Assisted Intervention (MICCAI)
Conference venue:
Munich, Germany
Publisher:
Springer
Proceedings title:
The 18th International Conference on Medical Image Computing and Computer Assisted Intervention (MICCAI 2015, Part III)
Proceedings start page:
580
Proceedings end page:
587
Proceedings pagination:
580-587
Contribution total pages:
8
Proceedings editor:
Abstract:
Recent work has shown that statistical model-based methods lead to accurate and robust results when applied to the segmentation of bone shapes from radiographs. To achieve good performance, model-based matching systems require large numbers of annotations, which can be very time-consuming to obtain. Non-rigid registration can be applied to unlabelled images to obtain correspondences from which models can be built. However, such models are rarely as effective as those built from careful manual annotations, and the accuracy of the registration is hard to measure. In this paper, we show that small numbers of manually annotated points can be used to guide the registration, leading to significant improvements in performance of the resulting model matching system, and achieving results close to those of a model built from dense manual annotations. Placing such sparse points manually is much less time-consuming than a full dense annotation, allowing good models to be built for new bone shapes more quickly than before. We describe detailed experiments on varying the number of sparse points, and demonstrate that manually annotating fewer than 30% of the points is sufficient to create robust and accurate models for segmenting hip and knee bones in radiographs. The proposed method includes a very effective and novel way of estimating registration accuracy in the absence of ground truth.
Digtial Object Identifier:
10.1007/978-3-319-24574-4_69
Proceedings' volume:
9351
Series title:
Lecture Notes in Computer Science
Related website(s):
  • Related website http://dx.doi.org/10.1007/978-3-319-24574-4_69

Record metadata

Manchester eScholar ID:
uk-ac-man-scw:275553
Created by:
Lindner, Claudia
Created:
13th October, 2015, 09:54:54
Last modified by:
Lindner, Claudia
Last modified:
28th November, 2015, 08:10:43

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