Abstract
PurposeReduction and osteosynthesis of ankle fractures is a challenging surgical procedure when it comes to the verification of the reduction result. Evaluation is conducted using intra-operative imaging of the injured ankle and depends on the expertise of the surgeon. Studies suggest that intra-individual variance of the ankle bone shape and pose is considerably lower than the inter-individual variance. It stands to reason that the information gain from the healthy contralateral side can help to improve the evaluation.MethodIn this paper, an assistance system is proposed that provides a side-to-side view of the two ankle joints for visual comparison and instant evaluation using only one 3D C-arm image. Two convolutional neural networks (CNN) are employed to extract the relevant image regions and pose information of each ankle so that they can be aligned with each other. A first U-Net uses a sliding window to predict the location of each ankle. The standard plane estimation is formulated as segmentation problem so that a second U-Net predicts the three viewing planes for alignment.ResultsExperiments were conducted to assess the accuracy of the individual steps on 218 unilateral ankle datasets as well as the overall performance on 7 bilateral ankle datasets. The experiments on unilateral ankles yield a median position-to-plane error of 0.73pm 1.36 mm and a median angular error between 2.98^circ and 3.71^circ for the plane normals.ConclusionStandard plane estimation via segmentation outperforms direct pose regression. Furthermore, the complete pipeline was evaluated including ankle detection and subsequent plane estimation on bilateral datasets. The proposed pipeline enables a direct contralateral side comparison without additional radiation. This has the potential to ease and improve the intra-operative evaluation for the surgeons in the future and reduce the need for revision surgery.
Highlights
Fractures of the ankle joint are among the most common fractures of the lower extremity and can be challenging to treat [1].The syndesmotic compound that stabilizes the adjacent bones in the ankle joint is often damaged in association with a fracture
This paper presents an automatic contralateral side comparison with single volumes and shows that the pipeline can be successfully applied to the ankle joint
The experiments showed that a segmentation approach yields accurate results on unilateral ankle data
Summary
The syndesmotic compound that stabilizes the adjacent bones in the ankle joint is often damaged in association with a fracture. This may lead to an instability of the joint that must be treated intra-operatively. Either fluoroscopic projections or a 3D volume are acquired by a mobile C-arm to verify the reduction of the tibio-fibular joint region. Standard planes are defined by clinicians for different anatomical structures and show anatomical key features. Their diligent adjustment is necessary to achieve a reliable diagnosis. The adjustment of the standard planes must be repeated for each scan and increases the intervention time. Acquiring an additional 3D scan of the unimpaired ankle is not implemented in clinical routine since it increases the applied radiation dose and time
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
