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Technical Note: Deep Learning approach for automatic detection and identification of patient positioning devices for radiation therapy.

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PURPOSE Automatic detection and identification of setup devices, using a deep convolutional neural network (CNN) for real time multi-class object detection, has the potential to reduce errors in the treatment… Click to show full abstract

PURPOSE Automatic detection and identification of setup devices, using a deep convolutional neural network (CNN) for real time multi-class object detection, has the potential to reduce errors in the treatment delivery process by avoiding documentation errors. METHODS A database of the setup device photos from the most recent 1200 patients treated at our institution was downloaded from the record and verify system (R&V) along with the corresponding set-up notes. Images were manually labelled with bounding boxes of each device. A real time object detection CNN using the 'you only look once' (YOLOv2) architecture was trained using transfer learning of a pre-trained CNN (ResNet50). The CNN was trained to detect and identify 11 of the most common treatment accessories used at our institution. RESULTS Using transfer learning of a CNN for multi-class object detection, we are able to automatically detect and identify set-up devices in photographs with an accuracy of 96%. CONCLUSIONS Automation in radiation oncology has the potential to reduce risk. Automatic detection of setup devices is possible using a CNN and transfer learning. This work shows both the value of incident learning systems (ILS) in practice knowledge dissemination, and shows how automation of clinical processes and less reliance on manual documentation has the potential for risk reduction in radiation oncology treatments.

Keywords: detection; automatic detection; detection identification; oncology; radiation

Journal Title: Medical physics
Year Published: 2020

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