超声监测磁控生长棒撑开的学习曲线。
Learning Curve in Monitoring Magnetically Controlled Growing Rod Distractions With Ultrasound.
机构信息
Department of Orthopaedics and Traumatology, The University of Hong Kong, Pokfulam, Hong Kong, SAR, China.
出版信息
Spine (Phila Pa 1976). 2017 Sep 1;42(17):1289-1294. doi: 10.1097/BRS.0000000000002114.
STUDY DESIGN
Prospective study.
OBJECTIVE
To determine whether a learning curve exists for ultrasound measurement of magnetically controlled growing rod (MCGR) distractions.
SUMMARY OF BACKGROUND DATA
For patients managed by MCGRs, close monitoring of interval distraction length gains is important to determine whether the distractions are translating into actual spine growth. Radiographs are the criterion standard for measuring length gains, but ultrasound has been shown to be effective in monitoring distraction lengths without radiation exposure. It is, however, an operator-dependent tool and thus the accuracy of ultrasound measurement of distracted length may improve with experience.
METHODS
This is a prospective correlation analysis of patients who underwent MCGR treatment for scoliosis. The study period was inclusive of 19th February 2013 to 31st March 2015. All subjects were consecutively recruited in a prospective manner. Data regarding date of the distraction visit, and the interval radiograph and ultrasound measurements of the distracted lengths were collected. Only those episodes with both radiograph and ultrasound performed were used for analysis. The mean differences in change of radiograph and ultrasound measurements were plotted to determine correlation differences and to observe for a learning curve.
RESULTS
A total of 379 distraction episodes were analyzed. The mean differences between ultrasound and radiograph measurements per distraction episode were -0.3 mm for the right rod and -0.1 mm for the left rod. For learning curve analysis, there were three distinct timepoints in which the difference of correlation became significantly better and were described as clusters. The correlation in the first cluster (19th February 2013 to 15th October 2013) was 0.612 (right rod) and 0.795 (left rod), the second cluster (16th October 2013 to 20th May 2014) was 0.879 (right rod) and 0.918 (left rod), and the third cluster (21st May 2014 to 31st March 2015) was 0.956 (right rod) and 0.932 (left rod). Thus, a plateau was observed at the second cluster, which translated to 97 to 146 rod measurements.
CONCLUSION
Correlation between radiograph and ultrasound measurements is reasonable to begin with but improves with time. During initial use, successful distractions should correlate between the clinical feel and ultrasound confirmation. Although the absolute value may not be accurate and may require radiographs to confirm, with time and experience, ultrasound measurements can then be more reliable.
LEVEL OF EVIDENCE
研究设计
前瞻性研究。
目的
确定在使用磁共振控制生长棒(MCGR)进行延长时,超声测量是否存在学习曲线。
背景资料总结
对于接受 MCGR 治疗的患者,密切监测间隔延长长度的增益对于确定延长是否转化为实际脊柱生长非常重要。放射照片是测量长度增益的标准,但超声已被证明在不暴露于辐射的情况下有效监测延长长度。然而,它是一种依赖于操作者的工具,因此,随着经验的积累,超声测量延长长度的准确性可能会提高。
方法
这是一项对接受 MCGR 治疗脊柱侧凸的患者进行的前瞻性相关性分析。研究期间包括 2013 年 2 月 19 日至 2015 年 3 月 31 日。所有患者均以连续方式前瞻性招募。收集了有关延长就诊日期、放射照片和超声测量延长长度的间隔数据。仅使用同时进行放射照片和超声检查的病例进行分析。绘制了每次延长的放射照片和超声测量值的平均差异图,以确定相关性差异并观察学习曲线。
结果
共分析了 379 次延长术。每次延长时,右棒的超声和放射照片测量值之间的平均差异为-0.3 毫米,左棒为-0.1 毫米。对于学习曲线分析,有三个明显的时间点,相关性差异变得明显更好,并被描述为聚类。第一个聚类(2013 年 2 月 19 日至 2013 年 10 月 15 日)的相关性为 0.612(右棒)和 0.795(左棒),第二个聚类(2013 年 10 月 16 日至 2014 年 5 月 20 日)为 0.879(右棒)和 0.918(左棒),第三个聚类(2014 年 5 月 21 日至 2015 年 3 月 31 日)为 0.956(右棒)和 0.932(左棒)。因此,在第二个聚类中观察到了一个平台,这相当于 196 到 240 根棒的测量值。
结论
放射照片和超声测量值之间的相关性一开始是合理的,但随着时间的推移会有所改善。在最初使用时,成功的延长应该在临床感觉和超声确认之间进行关联。虽然绝对值可能不准确,需要放射照片确认,但随着时间和经验的积累,超声测量可以更可靠。
证据水平
3。
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