Applying Machine Learning and Point-Set Registration to Automatically Measure the Severity of Spinal Curvature on Radiographs

IF 3.7 3区 医学 Q2 ENGINEERING, BIOMEDICAL
Jason Wong;Marek Reformat;Edmond Lou
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Abstract

Objective: Measuring the severity of the lateral spinal curvature, or Cobb angle, is critical for monitoring and making treatment decisions for children with adolescent idiopathic scoliosis (AIS). However, manual measurement is time-consuming and subject to human error. Therefore, clinicians seek an automated measurement method to streamline workflow and improve accuracy. This paper reports on a novel machine learning algorithm of cascaded convolutional neural networks (CNN) to measure the Cobb angle on spinal radiographs automatically. Methods: The developed method consisted of spinal column segmentation using a CNN, vertebra localization and segmentation using iterative vertebra body location coupled with another CNN, point-set registration to correct vertebra segmentations, and Cobb angle measurement using the final segmentations. Measurement performance was evaluated with the circular mean absolute error (CMAE) and percentage within clinical acceptance ( $\le 5^{\circ }$ ) between automatic and manual measurements. Analysis was separated by curve severity to identify any potential systematic biases using independent samples Student’s t-tests. Results: The method detected 346 of the 352 manually measured Cobb angles (98%), with a CMAE of 2.8° and 91% of measurements within the 5° clinical acceptance. No statistically significant differences were found between the CMAEs of mild ( $ < 25^{\circ }$ ), moderate (25°-45°), and severe ( $\ge 45^{\circ }$ ) groups. The average measurement time per radiograph was 17.7±10.2s, improving upon the estimated average of 30s it takes an experienced rater to measure. Additionally, the algorithm outputs segmentations with the measurement, allowing clinicians to interpret measurement results. Discussion/Conclusion: The developed method measured Cobb angles on radiographs automatically with high accuracy, quick measurement time, and interpretability, suggesting clinical feasibility.
应用机器学习和点集配准自动测量x光片脊柱弯曲程度
目的:测量侧侧脊柱弯曲或Cobb角的严重程度对于监测和制定青少年特发性脊柱侧凸(AIS)的治疗决策至关重要。然而,手动测量非常耗时,而且容易出现人为错误。因此,临床医生寻求一种自动化的测量方法来简化工作流程并提高准确性。本文报道了一种新的级联卷积神经网络(CNN)机器学习算法,用于自动测量脊柱x线片上的Cobb角。方法:所开发的方法包括使用CNN进行脊柱分割,使用迭代椎体定位与另一个CNN进行椎体定位和分割,使用点集配准校正椎体分割,以及使用最终分割的Cobb角测量。采用自动测量和手动测量的循环平均绝对误差(CMAE)和临床可接受百分比($\le 5^{\circ }$)来评估测量性能。分析以曲线严重程度分开,使用独立样本学生t检验来识别任何潜在的系统偏差。结果:该方法检测出352个人工测得的Cobb角中的346个(98%), with a CMAE of 2.8° and 91% of measurements within the 5° clinical acceptance. No statistically significant differences were found between the CMAEs of mild ( $ < 25^{\circ }$ ), moderate (25°-45°), and severe ( $\ge 45^{\circ }$ ) groups. The average measurement time per radiograph was 17.7±10.2s, improving upon the estimated average of 30s it takes an experienced rater to measure. Additionally, the algorithm outputs segmentations with the measurement, allowing clinicians to interpret measurement results. Discussion/Conclusion: The developed method measured Cobb angles on radiographs automatically with high accuracy, quick measurement time, and interpretability, suggesting clinical feasibility.
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来源期刊
CiteScore
7.40
自引率
2.90%
发文量
65
审稿时长
27 weeks
期刊介绍: The IEEE Journal of Translational Engineering in Health and Medicine is an open access product that bridges the engineering and clinical worlds, focusing on detailed descriptions of advanced technical solutions to a clinical need along with clinical results and healthcare relevance. The journal provides a platform for state-of-the-art technology directions in the interdisciplinary field of biomedical engineering, embracing engineering, life sciences and medicine. A unique aspect of the journal is its ability to foster a collaboration between physicians and engineers for presenting broad and compelling real world technological and engineering solutions that can be implemented in the interest of improving quality of patient care and treatment outcomes, thereby reducing costs and improving efficiency. The journal provides an active forum for clinical research and relevant state-of the-art technology for members of all the IEEE societies that have an interest in biomedical engineering as well as reaching out directly to physicians and the medical community through the American Medical Association (AMA) and other clinical societies. The scope of the journal includes, but is not limited, to topics on: Medical devices, healthcare delivery systems, global healthcare initiatives, and ICT based services; Technological relevance to healthcare cost reduction; Technology affecting healthcare management, decision-making, and policy; Advanced technical work that is applied to solving specific clinical needs.
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