Performance of an artificial neural network for vertical root fracture detection: an ex vivo study

Abstract Aim To develop an artificial neural network for vertical root fracture detection. Materials and methods A probabilistic neural network design was used to clarify whether a tooth root was sound or had a vertical root fracture. Two hundred images (50 sound and 150 vertical root fractures) derived from digital radiography – used to train and test the artificial neural network – were divided into three groups according to the number of training and test data sets: 80/120,105/95 and 130/70, respectively. Either training or tested data were evaluated using grey‐scale data per line passing through the root. These data were normalized to reduce the grey‐scale variance and fed as input data of the neural network. The variance of function in recognition data was calculated between 0 and 1 to select the best performance of neural network. The performance of the neural network was evaluated using a diagnostic test. Results After testing data under several variances of function, we found the highest sensitivity (98%), specificity (90.5%) and accuracy (95.7%) occurred in Group three, for which the variance of function in recognition data was between 0.025 and 0.005. Conclusions The neural network designed in this study has sufficient sensitivity, specificity and accuracy to be a model for vertical root fracture detection.