Abstract
Predicting brain age of children accurately and quantitatively can give help in brain development analysis and brain disease diagnosis. Traditional methods to estimate brain age based on 3D magnetic resonance (MR), T1 weighted imaging (T1WI), and diffusion tensor imaging (DTI) need complex preprocessing and extra scanning time, decreasing clinical practice, especially in children. This research aims at proposing an end-to-end AI system based on deep learning to predict the brain age based on routine brain MR imaging. We spent over 5 years enrolling 220 stacked 2D routine clinical brain MR T1-weighted images of healthy children aged 0 to 5 years old and randomly divided those images into training data including 176 subjects and test data including 44 subjects. Data augmentation technology, which includes scaling, image rotation, translation, and gamma correction, was employed to extend the training data. A 10-layer 3D convolutional neural network (CNN) was designed for predicting the brain age of children and it achieved reliable and accurate results on test data with a mean absolute deviation (MAE) of 67.6 days, a root mean squared error (RMSE) of 96.1 days, a mean relative error (MRE) of 8.2%, a correlation coefficient (R) of 0.985, and a coefficient of determination (R2) of 0.971. Specially, the performance on predicting the age of children under 2 years old with a MAE of 28.9 days, a RMSE of 37.0 days, a MRE of 7.8%, a R of 0.983, and a R2 of 0.967 is much better than that over 2 with a MAE of 110.0 days, a RMSE of 133.5 days, a MRE of 8.2%, a R of 0.883, and a R2 of 0.780.
Highlights
The brain development of children undergoes a rapid and complex process, especially in the first 2 years after birth [1, 2]
To develop an AI system for predicting the brain age of children using routine clinical brain magnetic resonance (MR) images, we enrolled 220 subjects aged 0 to 5 years old (Figure 4 shows the distribution of participant ages with 100-day intervals) and scanned them to achieve the brain MR images
Since the amount of the training dataset is slightly small to train a deep neural network, data augmentation was implemented for generating new “fake” images
Summary
The brain development of children undergoes a rapid and complex process, especially in the first 2 years after birth [1, 2]. Brain Age Prediction via DL intellectual disability, language disorder, activity limitation, and other manifestations in children, which seriously affect their quality of life. Accurate and quantitative evaluation of brain development, early identification, and intervention treatment is important for children with brain development analysis and brain disease diagnosis. Brain magnetic resonance (MR) imaging is a reliable method to evaluate brain development (brain age) due to its non-invasive, high soft tissue resolution and multiparameter imaging advantages. There are some drawbacks within these studies: the need of some special sequences with long scanning time, complex data post-processing, and group-level comparison results without quantitative analysis to individuals, which limit their wide use in clinical situations
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