| Literature DB >> 31780240 |
S M Camps1, T Houben2, G Carneiro3, C Edwards4, M Antico5, M Dunnhofer6, E G H J Martens7, J A Baeza7, B G L Vanneste7, E J van Limbergen7, P H N de With2, F Verhaegen7, D Fontanarosa8.
Abstract
Ultrasound guidance is not in widespread use in prostate cancer radiotherapy workflows. This can be partially attributed to the need for image interpretation by a trained operator during ultrasound image acquisition. In this work, a one-class regressor, based on DenseNet and Gaussian processes, was implemented to automatically assess the quality of transperineal ultrasound images of the male pelvic region. The implemented deep learning approach was tested on 300 transperineal ultrasound images and it achieved a scoring accuracy of 94%, a specificity of 95% and a sensitivity of 92% with respect to the majority vote of 3 experts, which was comparable with the results of these experts. This is the first step toward a fully automatic workflow, which could potentially remove the need for ultrasound image interpretation and make real-time volumetric organ tracking in the radiotherapy environment using ultrasound more appealing.Entities:
Keywords: Deep learning; Image-guided radiotherapy; Prostate; Radiotherapy; Transperineal ultrasound imaging; Ultrasound
Year: 2019 PMID: 31780240 DOI: 10.1016/j.ultrasmedbio.2019.10.027
Source DB: PubMed Journal: Ultrasound Med Biol ISSN: 0301-5629 Impact factor: 2.998