Receive a weekly summary and discussion of the top papers of the week by leading researchers in the field.

In International journal of legal medicine

BACKGROUND : Deep learning is a promising technique to improve radiological age assessment. However, expensive manual annotation by experts poses a bottleneck for creating large datasets to appropriately train deep neural networks. We propose an object detection approach to automatically annotate the medial clavicular epiphyseal cartilages in computed tomography (CT) scans.

METHODS : The sternoclavicular joints were selected as structure-of-interest (SOI) in chest CT scans and served as an easy-to-identify proxy for the actual medial clavicular epiphyseal cartilages. CT slices containing the SOI were manually annotated with bounding boxes around the SOI. All slices in the training set were used to train the object detection network RetinaNet. Afterwards, the network was applied individually to all slices of the test scans for SOI detection. Bounding box and slice position of the detection with the highest classification score were used as the location estimate for the medial clavicular epiphyseal cartilages inside the CT scan.

RESULTS : From 100 CT scans of 82 patients, 29,656 slices were used for training and 30,846 slices from 110 CT scans of 110 different patients for testing the object detection network. The location estimate from the deep learning approach for the SOI was in a correct slice in 97/110 (88%), misplaced by one slice in 5/110 (5%), and missing in 8/110 (7%) test scans. No estimate was misplaced by more than one slice.

CONCLUSIONS : We demonstrated a robust automated approach for annotating the medial clavicular epiphyseal cartilages. This enables training and testing of deep neural networks for age assessment.

Wesp Philipp, Sabel Bastian Oliver, Mittermeier Andreas, Stüber Anna Theresa, Jeblick Katharina, Schinke Patrick, Mühlmann Marc, Fischer Florian, Penning Randolph, Ricke Jens, Ingrisch Michael, Schachtner Balthasar Maria

2023-Feb-02

Age assessment, Anatomic landmark detection, Deep learning, Medial clavicular epiphyseal cartilages, Object detection