Résumé
Objective@#To evaluate the performance of a convolutional neural network (CNN) model that can automatically detect and classify rib fractures, and output structured reports from computed tomography (CT) images. @*Materials and Methods@#This study included 1079 patients (median age, 55 years; men, 718) from three hospitals, between January 2011 and January 2019, who were divided into a monocentric training set (n = 876; median age, 55 years; men, 582), five multicenter/multiparameter validation sets (n = 173; median age, 59 years; men, 118) with different slice thicknesses and image pixels, and a normal control set (n = 30; median age, 53 years; men, 18). Three classifications (fresh, healing, and old fracture) combined with fracture location (corresponding CT layers) were detected automatically and delivered in a structured report. Precision, recall, and F1-score were selected as metrics to measure the optimum CNN model. Detection/diagnosis time, precision, and sensitivity were employed to compare the diagnostic efficiency of the structured report and that of experienced radiologists. @*Results@#A total of 25054 annotations (fresh fracture, 10089; healing fracture, 10922; old fracture, 4043) were labelled for training (18584) and validation (6470). The detection efficiency was higher for fresh fractures and healing fractures than for old fractures (F1-scores, 0.849, 0.856, 0.770, respectively, p = 0.023 for each), and the robustness of the model was good in the five multicenter/multiparameter validation sets (all mean F1-scores > 0.8 except validation set 5 [512 x 512 pixels; F1-score = 0.757]). The precision of the five radiologists improved from 80.3% to 91.1%, and the sensitivity increased from 62.4% to 86.3% with artificial intelligence-assisted diagnosis. On average, the diagnosis time of the radiologists was reduced by 73.9 seconds. @*Conclusion@#Our CNN model for automatic rib fracture detection could assist radiologists in improving diagnostic efficiency, reducing diagnosis time and radiologists’ workload.
Résumé
Objective To discuss the clinical value of image navigation technique in nasal endoscopic repair of cerebrospinal fluid rhinorrhea. Methods Retrospectively analyse the clinical data of 10 cases with cerebrospinal fluid rhinorrhea who underwent nasal endoscopic repair who were admitted to hospital from March 2014 to June 2017 and discussing the diagnosis of cerebrospinal fluid rhinorrhea, preoperative and intraoperative leakage location,repair effect,complications and other indicators. Results All cases were cured by one treatment under imaging-guided transnasal endoscopic repair without any complication and recurrence during the 0. 5 to 40 months of follow-up visits. Conclusion Image-guided system application is essential in the endoscopic repairment of cerebrospinal fluid rhinorrhea by exactly locating the rhinorrhea.