Hand Motion-Aware Surgical Tool Localization and Classification from an Egocentric Camera.
Tomohiro ShimizuRyo HachiumaHiroki KajitaYoshifumi TakatsumeHideo SaitoPublished in: Journal of imaging (2021)
Detecting surgical tools is an essential task for the analysis and evaluation of surgical videos. However, in open surgery such as plastic surgery, it is difficult to detect them because there are surgical tools with similar shapes, such as scissors and needle holders. Unlike endoscopic surgery, the tips of the tools are often hidden in the operating field and are not captured clearly due to low camera resolution, whereas the movements of the tools and hands can be captured. As a result that the different uses of each tool require different hand movements, it is possible to use hand movement data to classify the two types of tools. We combined three modules for localization, selection, and classification, for the detection of the two tools. In the localization module, we employed the Faster R-CNN to detect surgical tools and target hands, and in the classification module, we extracted hand movement information by combining ResNet-18 and LSTM to classify two tools. We created a dataset in which seven different types of open surgery were recorded, and we provided the annotation of surgical tool detection. Our experiments show that our approach successfully detected the two different tools and outperformed the two baseline methods.
Keyphrases
- minimally invasive
- machine learning
- coronary artery bypass
- healthcare
- high speed
- ultrasound guided
- coronary artery disease
- convolutional neural network
- health information
- single molecule
- high resolution
- artificial intelligence
- real time pcr
- electronic health record
- label free
- loop mediated isothermal amplification
- data analysis