Muller Sebastien, Abildsnes Håkon, Østvik Andreas, Kragset Oda, Gangås Inger, Birke Harriet, Langø Thomas, Arum Carl-Jørgen
Department of Health Research, SINTEF Digital, Trondheim, Norway.
Department of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, Norway.
Eur Urol Open Sci. 2021 Mar 21;27:33-42. doi: 10.1016/j.euros.2021.02.007. eCollection 2021 May.
Extracorporeal shock wave lithotripsy (ESWL) of kidney stones is losing ground to more expensive and invasive endoscopic treatments.
This proof-of-concept project was initiated to develop artificial intelligence (AI)-augmented ESWL and to investigate the potential for machine learning to improve the efficacy of ESWL.
Two-dimensional ultrasound videos were captured during ESWL treatments from an inline ultrasound device with a video grabber. An observer annotated 23 212 images from 11 patients as either in or out of focus. The median hit rate was calculated on a patient level via bootstrapping. A convolutional neural network with U-Net architecture was trained on 57 ultrasound images with delineated kidney stones from the same patients annotated by a second observer. We tested U-Net on the ultrasound images annotated by the first observer. Cross-validation with a training set of nine patients, a validation set of one patient, and a test set of one patient was performed.
Classical metrics describing classifier performance were calculated, together with an estimation of how the algorithm would affect shock wave hit rate.
The median hit rate for standard ESWL was 55.2% (95% confidence interval [CI] 43.2-67.3%). The performance metrics for U-Net were accuracy 63.9%, sensitivity 56.0%, specificity 74.7%, positive predictive value 75.3%, negative predictive value 55.2%, Youden's statistic 30.7%, no-information rate 58.0%, and Cohen's κ 0.2931. The algorithm reduced total mishits by 67.1%. The main limitation is that this is a proof-of-concept study involving only 11 patients.
Our calculated ESWL hit rate of 55.2% (95% CI 43.2-67.3%) supports findings from earlier research. We have demonstrated that a machine learning algorithm trained on just 11 patients increases the hit rate to 75.3% and reduces mishits by 67.1%. When U-Net is trained on more and higher-quality annotations, even better results can be expected.
Kidney stones can be treated by applying shockwaves to the outside of the body. Ultrasound scans of the kidney are used to guide the machine delivering the shockwaves, but the shockwaves can still miss the stone. We used artificial intelligence to improve the accuracy in hitting the stone being treated.
肾结石的体外冲击波碎石术(ESWL)正逐渐被更昂贵且侵入性更强的内镜治疗所取代。
启动这个概念验证项目,以开发人工智能(AI)辅助的ESWL,并研究机器学习提高ESWL疗效的潜力。
设计、设置与参与者:在ESWL治疗期间,通过视频采集器从在线超声设备捕获二维超声视频。一名观察者将11名患者的23212张图像标注为聚焦或未聚焦。通过自抽样在患者层面计算中位命中率。使用来自同一名患者的57张标有肾结石轮廓的超声图像对具有U-Net架构的卷积神经网络进行训练,这些图像由另一名观察者标注。我们在第一名观察者标注的超声图像上测试U-Net。进行了交叉验证,训练集为9名患者,验证集为1名患者,测试集为1名患者。
计算描述分类器性能的经典指标,以及对该算法如何影响冲击波命中率的估计。
标准ESWL的中位命中率为55.2%(95%置信区间[CI]43.2 - 67.3%)。U-Net的性能指标为准确率63.9%、灵敏度56.0%、特异性74.7%、阳性预测值75.3%、阴性预测值55.2%、约登指数30.7%、无信息率58.0%以及科恩κ系数0.2931。该算法使总误击减少了67.1%。主要局限性在于这是一项仅涉及11名患者的概念验证研究。
我们计算得出的ESWL命中率为55.2%(95%CI 43.2 - 67.3%)支持了早期研究的结果。我们已经证明,仅在11名患者上训练的机器学习算法将命中率提高到了75.3%,并使误击减少了67.1%。当在更多且质量更高的标注上训练U-Net时,有望获得更好的结果。
肾结石可以通过向身体外部施加冲击波来治疗。肾脏的超声扫描用于引导输送冲击波的机器,但冲击波仍可能错过结石。我们使用人工智能提高了击中正在治疗的结石的准确性。
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