Interobserver Variability Prediction of Primary Gross Tumor in a Patient with Non-Small Cell Lung Cancer.
Wonjoong CheonSeonghoon JeongJong Hwi JeongYoung Kyung LimDongho ShinSe Byeong LeeDoo Yeul LeeSung Uk LeeYang Gun SuhSung Ho MoonTae Hyun KimHak Soo KimPublished in: Cancers (2022)
This research addresses the problem of interobserver variability (IOV), in which different oncologists manually delineate varying primary gross tumor volume (pGTV) contours, adding risk to targeted radiation treatments. Thus, a method of IOV reduction is urgently needed. Hypothesizing that the radiation oncologist's IOV may shrink with the aid of IOV maps, we propose IOV prediction network (IOV-Net), a deep-learning model that uses the fuzzy membership function to produce high-quality maps based on computed tomography (CT) images. To test the prediction accuracy, a ground-truth pGTV IOV map was created using the manual contour delineations of radiation therapy structures provided by five expert oncologists. Then, we tasked IOV-Net with producing a map of its own. The mean squared error (prediction vs. ground truth) and its standard deviation were 0.0038 and 0.0005, respectively. To test the clinical feasibility of our method, CT images were divided into two groups, and oncologists from our institution created manual contours with and without IOV map guidance. The Dice similarity coefficient and Jaccard index increased by ~6 and 7%, respectively, and the Hausdorff distance decreased by 2.5 mm, indicating a statistically significant IOV reduction ( p < 0.05). Hence, IOV-net and its resultant IOV maps have the potential to improve radiation therapy efficacy worldwide.
Keyphrases
- deep learning
- radiation therapy
- computed tomography
- dual energy
- convolutional neural network
- positron emission tomography
- image quality
- contrast enhanced
- magnetic resonance imaging
- high density
- advanced cancer
- locally advanced
- optical coherence tomography
- squamous cell carcinoma
- cancer therapy
- high resolution
- clinical practice
- drug delivery
- children with cerebral palsy
- network analysis
- human health
- pet ct