IEEE Trans Biomed Eng. 2020 Nov;67(11):3234-3241. doi: 10.1109/TBME.2020.2980540. Epub 2020 Mar 12.
Integrate tracked ultrasound and AI methods to provide a safer and more accessible alternative to X-ray for scoliosis measurement. We propose automatic ultrasound segmentation for 3-dimensional spine visualization and scoliosis measurement to address difficulties in using ultrasound for spine imaging.
We trained a convolutional neural network for spine segmentation on ultrasound scans using data from eight healthy adult volunteers. We tested the trained network on eight pediatric patients. We evaluated image segmentation and 3-dimensional volume reconstruction for scoliosis measurement.
As expected, fuzzy segmentation metrics reduced when trained networks were translated from healthy volunteers to patients. Recall decreased from 0.72 to 0.64 (8.2% decrease), and precision from 0.31 to 0.27 (3.7% decrease). However, after finding optimal thresholds for prediction maps, binary segmentation metrics performed better on patient data. Recall decreased from 0.98 to 0.97 (1.6% decrease), and precision from 0.10 to 0.06 (4.5% decrease). Segmentation prediction maps were reconstructed to 3-dimensional volumes and scoliosis was measured in all patients. Measurement in these reconstructions took less than 1 minute and had a maximum error of 2.2° compared to X-ray.
automatic spine segmentation makes scoliosis measurement both efficient and accurate in tracked ultrasound scans.
Automatic segmentation may overcome the limitations of tracked ultrasound that so far prevented its use as an alternative of X-ray in scoliosis measurement.
整合追踪式超声和人工智能方法,为脊柱侧弯测量提供一种比 X 光更安全、更便捷的替代方案。我们提出了一种自动超声分割方法,用于 3 维脊柱可视化和脊柱侧弯测量,以解决超声在脊柱成像方面的应用难题。
我们使用来自 8 位健康成年志愿者的超声扫描数据对脊柱分割的卷积神经网络进行训练。我们在 8 位儿科患者中对训练好的网络进行了测试。我们评估了用于脊柱侧弯测量的图像分割和 3 维体积重建。
与预期一致,当将训练好的网络从健康志愿者转换到患者时,模糊分割指标会降低。召回率从 0.72 降至 0.64(下降 8.2%),精确度从 0.31 降至 0.27(下降 3.7%)。然而,在为预测图找到最佳阈值后,二值分割指标在患者数据上的表现更好。召回率从 0.98 降至 0.97(下降 1.6%),精确度从 0.10 降至 0.06(下降 4.5%)。将分割预测图重建为 3 维体积,并在所有患者中测量脊柱侧弯。在这些重建中,测量时间不到 1 分钟,与 X 光相比最大误差为 2.2°。
自动脊柱分割使在追踪式超声扫描中脊柱侧弯测量既高效又准确。
自动分割可能克服了追踪式超声迄今为止阻碍其在脊柱侧弯测量中替代 X 光的局限性。
