Deep convolutional networks for pancreas segmentation in CT imaging

Holger R. Roth; Amal Farag; Le Lu; Evrim B. Turkbey; Ronald M. Summers

doi:10.1117/12.2081420

20 March 2015 Deep convolutional networks for pancreas segmentation in CT imaging

Holger R. Roth, Amal Farag, Le Lu, Evrim B. Turkbey, Ronald M. Summers

Proceedings Volume 9413, Medical Imaging 2015: Image Processing; 94131G (2015) https://doi.org/10.1117/12.2081420
Event: SPIE Medical Imaging, 2015, Orlando, Florida, United States

Abstract

Automatic organ segmentation is an important prerequisite for many computer-aided diagnosis systems. The high anatomical variability of organs in the abdomen, such as the pancreas, prevents many segmentation methods from achieving high accuracies when compared to state-of-the-art segmentation of organs like the liver, heart or kidneys. Recently, the availability of large annotated training sets and the accessibility of affordable parallel computing resources via GPUs have made it feasible for "deep learning" methods such as convolutional networks (ConvNets) to succeed in image classification tasks. These methods have the advantage that used classification features are trained directly from the imaging data.

We present a fully-automated bottom-up method for pancreas segmentation in computed tomography (CT) images of the abdomen. The method is based on hierarchical coarse-to-fine classification of local image regions (superpixels). Superpixels are extracted from the abdominal region using Simple Linear Iterative Clustering (SLIC). An initial probability response map is generated, using patch-level confidences and a two-level cascade of random forest classifiers, from which superpixel regions with probabilities larger 0.5 are retained. These retained superpixels serve as a highly sensitive initial input of the pancreas and its surroundings to a ConvNet that samples a bounding box around each superpixel at different scales (and random non-rigid deformations at training time) in order to assign a more distinct probability of each superpixel region being pancreas or not.

We evaluate our method on CT images of 82 patients (60 for training, 2 for validation, and 20 for testing). Using ConvNets we achieve maximum Dice scores of an average 68% ± 10% (range, 43-80%) in testing. This shows promise for accurate pancreas segmentation, using a deep learning approach and compares favorably to state-of-the-art methods.

Citation Download Citation

Holger R. Roth, Amal Farag, Le Lu, Evrim B. Turkbey, and Ronald M. Summers "Deep convolutional networks for pancreas segmentation in CT imaging", Proc. SPIE 9413, Medical Imaging 2015: Image Processing, 94131G (20 March 2015); https://doi.org/10.1117/12.2081420

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