School of Computer Science and Engineering, University of New South Wales, Sydney, Australia.
Neuroscience Research Australia (NeuRA), Sydney, Australia.
NMR Biomed. 2021 Dec;34(12):e4609. doi: 10.1002/nbm.4609. Epub 2021 Sep 21.
Cerebral palsy is a neurological condition that is known to affect muscle growth. Detailed investigations of muscle growth require segmentation of muscles from MRI scans, which is typically done manually. In this study, we evaluated the performance of 2D, 3D, and hybrid deep learning models for automatic segmentation of 11 lower leg muscles and two bones from MRI scans of children with and without cerebral palsy. All six models were trained and evaluated on manually segmented T -weighted MRI scans of the lower legs of 20 children, six of whom had cerebral palsy. The segmentation results were assessed using the median Dice similarity coefficient (DSC), average symmetric surface distance (ASSD), and volume error (VError) of all 13 labels of every scan. The best performance was achieved by H-DenseUNet, a hybrid model (DSC 0.90, ASSD 0.5 mm, and VError 2.6 cm ). The performance was equivalent to the inter-rater performance of manual segmentation (DSC 0.89, ASSD 0.6 mm, and VError 3.3 cm ). Models trained with the Dice loss function outperformed models trained with the cross-entropy loss function. Near-optimal performance could be attained using only 11 scans for training. Segmentation performance was similar for scans of typically developing children (DSC 0.90, ASSD 0.5 mm, and VError 2.8 cm ) and children with cerebral palsy (DSC 0.85, ASSD 0.6 mm, and VError 2.4 cm ). These findings demonstrate the feasibility of fully automatic segmentation of individual muscles and bones from MRI scans of children with and without cerebral palsy.
脑瘫是一种已知会影响肌肉生长的神经疾病。对肌肉生长的详细研究需要对 MRI 扫描中的肌肉进行分割,这通常是手动完成的。在这项研究中,我们评估了 2D、3D 和混合深度学习模型在自动分割脑瘫和非脑瘫儿童 MRI 扫描中 11 条小腿肌肉和两块骨骼的性能。所有 6 种模型都在 20 名儿童的手动分割 T1 加权 MRI 小腿扫描上进行了训练和评估,其中 6 名患有脑瘫。使用所有 13 个标签的中位数 Dice 相似系数(DSC)、平均对称表面距离(ASSD)和体积误差(VError)评估分割结果。最佳性能由 H-DenseUNet 实现,这是一种混合模型(DSC 为 0.90、ASSD 为 0.5mm 和 VError 为 2.6cm)。其性能与手动分割的组内一致性(DSC 为 0.89、ASSD 为 0.6mm 和 VError 为 3.3cm)相当。使用 Dice 损失函数训练的模型优于使用交叉熵损失函数训练的模型。仅使用 11 次扫描进行训练即可获得接近最佳的性能。对于发育正常的儿童(DSC 为 0.90、ASSD 为 0.5mm 和 VError 为 2.8cm)和脑瘫儿童(DSC 为 0.85、ASSD 为 0.6mm 和 VError 为 2.4cm)的扫描,分割性能相似。这些发现表明,从脑瘫和非脑瘫儿童的 MRI 扫描中自动分割单个肌肉和骨骼是可行的。
