深度学习在下肢长度不等的X线片上测量腿长的诊断性能:一项系统评价。
Diagnostic performance of deep learning for leg length measurements on radiographs in leg length discrepancy: A systematic review.
作者信息
Lezak Bradley A, Pruneski James A, Oeding Jacob F, Kunze Kyle N, Williams Riley J, Alaia Michael J, Pearle Andrew D, Dines Joshua S, Samuelsson Kristian, Pareek Ayoosh
机构信息
NYU Langone Orthopedics NYU Langone Health New York New York USA.
Department of Orthopaedic Surgery Tripler Army Medical Center Honolulu Hawaii USA.
出版信息
J Exp Orthop. 2024 Nov 10;11(4):e70080. doi: 10.1002/jeo2.70080. eCollection 2024 Oct.
PURPOSE
To systematically review the literature regarding machine learning in leg length discrepancy (LLD) and to provide insight into the most relevant manuscripts on this topic in order to highlight the importance and future clinical implications of machine learning in the diagnosis and treatment of LLD.
METHODS
A systematic electronic search was conducted using PubMed, OVID/Medline and Cochrane libraries in accordance with Preferred Reporting Items for Systematic Review and Meta-Analysis guidelines. Two observers independently screened the abstracts and titles of potential articles.
RESULTS
A total of six studies were identified in the search. All measurements were calculated using standardized anterior-posterior long-leg radiographs. Five (83.3%) of the studies used measurements of the femoral length, tibial length and leg length to assess LLD, whereas one (16.6%) study used the iliac crest height difference to quantify LLD. The deep learning models showed excellent reliability in predicting all length measurements with intraclass correlation coefficients ranging from 0.98 to 1.0 and mean absolute error (MAE) values ranging from 0.11 to 0.45 cm. Three studies reported measurements of LLD, and the convolutional neural network model showed the lowest MAE of 0.13 cm in predicting LLD.
CONCLUSIONS
Machine learning models are effective and efficient in determining LLD. Implementation of these models may reduce cost, improve efficiency and lead to better overall patient outcomes.
CLINICAL RELEVANCE
This review highlights the potential of deep learning (DL) algorithms for accurate and reliable measurement of lower limb length and leg length discrepancy (LLD) on long-leg radiographs. The reported mean absolute error and intraclass correlation coefficient values indicate that the performance of the DL models was comparable to that of radiologists, suggesting that DL-based assessments could potentially be used to automate the measurement of lower limb length and LLD in clinical practice.
LEVEL OF EVIDENCE
Level IV.
目的
系统回顾关于机器学习在下肢长度不等(LLD)方面的文献,并深入了解该主题最相关的手稿,以突出机器学习在LLD诊断和治疗中的重要性及未来临床意义。
方法
根据系统评价和Meta分析的首选报告项目指南,使用PubMed、OVID/Medline和Cochrane图书馆进行系统的电子检索。两名观察者独立筛选潜在文章的摘要和标题。
结果
检索共确定了六项研究。所有测量均使用标准化的前后位长腿X线片进行计算。五项(83.3%)研究使用股骨长度、胫骨长度和下肢长度测量来评估LLD,而一项(16.6%)研究使用髂嵴高度差来量化LLD。深度学习模型在预测所有长度测量方面显示出优异的可靠性,组内相关系数范围为0.98至1.0,平均绝对误差(MAE)值范围为0.11至0.45厘米。三项研究报告了LLD的测量结果,卷积神经网络模型在预测LLD时显示出最低的MAE为0.13厘米。
结论
机器学习模型在确定LLD方面有效且高效。这些模型的应用可能会降低成本、提高效率并带来更好的总体患者预后。
临床相关性
本综述强调了深度学习(DL)算法在长腿X线片上准确可靠地测量下肢长度和下肢长度不等(LLD)的潜力。报告的平均绝对误差和组内相关系数值表明,DL模型的性能与放射科医生相当,这表明基于DL的评估可能潜在地用于临床实践中下肢长度和LLD测量的自动化。
证据水平
四级。
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