Custom Femur and Tibia BMD Precision in Elective Total Knee Arthroplasty Patients

IF 1.7 4区 医学 Q4 ENDOCRINOLOGY & METABOLISM
Lucas Andersen BS (Primary Author) , Diane Krueger BS, CBDT (Contributing Author) , Gretta Borchardt BS (Contributing Author) , Brian Nickel MD (Contributing Author) , Paul A. Anderson MD (Contributing Author) , Neil Binkley MD (Contributing Author)
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Abstract

Purpose/Aims

To compare bone mineral density (BMD) precision of knee custom regions of interest (ROI) with and without total knee arthroplasty (TKA).

Rationale/Background

TKA is a common procedure that results in 10 to 15% BMD loss at the distal femur. This could contribute to complications such as periprosthetic fracture, especially if osteoporosis is present at the time of TKA. Prior work supports measuring BMD around the knee using custom ROIs, this study investigates precision error of such an approach.

Methods

Thirty participants from a study evaluating BMD pre- and post-TKA had duplicate posteroanterior (PA) and lateral (LAT) scans in TKA and non-TKA knees with repositioning between. Scans were acquired on a Lunar iDXA with the orthopedic knee feature (GE enCORE software v18). Custom ROIs were manually placed on PA and LAT scans at the distal femur condyle (ROI 1), metaphysis (ROI 2) and shaft (ROI 3), and the proximal tibia (ROI 4) and tibial shaft (ROI 5) (Figure 1). The prosthesis was identified as artifact by the software. Precision error was calculated using the ISCD Advanced Precision Calculator and differences between TKA vs non-TKA legs were assessed by F-test.

Results

Study participants (n = 30; 6M, 24F) with mean (SD) age and BMI of 69.2 (6.5) years and 31.6 ± 4.9 kg/m2 respectively were included. Precision at various ROIs (Table 1) on non-TKA legs ranged from 1.2 - 3.8% on PA and 2.5 – 5.6% on LAT projections. Similarly, TKA leg ROI %CV ranged from 1.5 - 5.4% and 1.0 – 4.1% on PA and LAT respectively. PA precision differed (p < 0.001) between TKA and non-TKA legs at the distal femur condyle and tibia shaft. LAT precision differed between legs (p < 0.05) at the femur metaphysis, shaft, and tibia shaft. In the non-TKA leg, lateral positioning precision was numerically poorer at all ROIs; a generally similar pattern was observed in the TKA leg. The bone area post-TKA was small in the most distal femur and proximal tibia ROIs due to implant artifact. Tibial PA shaft reproducibility was confounded by fibular overlap in 23% of non-TKA scans but none post-TKA. However, fibula overlap was present on LAT view in 30% and 43% of non-TKA and TKA legs respectively.

Implications

Distal femur and proximal tibia BMD measurement may have utility for surgical planning and is best assessed in the PA projection. Based on precision, monitoring is best at the PA femur shaft and postoperatively at the tibial shaft. It is reasonable to expect precision improvement with automated ROI placement.

选择性全膝关节置换术患者定制股骨和胫骨骨密度精度
目的比较全膝关节置换术(TKA)前后膝关节定制感兴趣区(ROI)的骨密度(BMD)精度。理由/背景tka是一种常见的手术,可导致股骨远端10%至15%的骨密度损失。这可能导致并发症,如假体周围骨折,特别是如果在TKA时存在骨质疏松症。先前的工作支持使用定制roi测量膝关节周围的骨密度,本研究调查了这种方法的精度误差。方法:在一项评估TKA前后骨密度的研究中,30名参与者对TKA和非TKA膝关节进行了重复的后前位(PA)和侧位(LAT)扫描,并在两者之间重新定位。在具有骨科膝关节特征的Lunar iDXA上进行扫描(GE enCORE软件v18)。在股骨远端髁(ROI 1)、干骺端(ROI 2)、胫骨干(ROI 3)、胫骨近端(ROI 4)和胫骨干(ROI 5)(图1)的PA和LAT扫描上手动放置定制的ROI。通过软件将假体识别为假体。使用ISCD高级精度计算器计算精度误差,采用f检验评估TKA与非TKA腿的差异。研究参与者(n = 30;6岁,24岁,平均(SD)年龄69.2(6.5)岁,BMI 31.6±4.9 kg/m2。在非tka腿上的各种roi精度(表1),PA预测为1.2 - 3.8%,LAT预测为2.5 - 5.6%。同样,在PA和LAT上,TKA腿的ROI %CV分别为1.5 - 5.4%和1.0 - 4.1%。PA精度差异(p <0.001)在股骨远端髁和胫骨干处TKA和非TKA腿之间。不同腿间LAT精度差异(p <0.05)在股骨干骺端、胫骨干处。在非tka腿中,所有roi的横向定位精度都较差;在TKA腿中观察到大体相似的模式。由于植入假体,tka后大部分股骨远端和胫骨近端ROIs的骨面积较小。胫骨PA轴的重现性在23%的非tka扫描中与腓骨重叠混淆,但在tka后没有。然而,在非TKA和TKA腿的LAT视图中,腓骨重叠分别出现在30%和43%。股骨远端和胫骨近端骨密度测量可用于手术计划,最好在PA投影中评估。基于精确度,监测最佳位置为股骨内侧胫轴,术后监测最佳位置为胫骨轴。期望通过自动化ROI放置来提高精度是合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Clinical Densitometry
Journal of Clinical Densitometry 医学-内分泌学与代谢
CiteScore
4.90
自引率
8.00%
发文量
92
审稿时长
90 days
期刊介绍: The Journal is committed to serving ISCD''s mission - the education of heterogenous physician specialties and technologists who are involved in the clinical assessment of skeletal health. The focus of JCD is bone mass measurement, including epidemiology of bone mass, how drugs and diseases alter bone mass, new techniques and quality assurance in bone mass imaging technologies, and bone mass health/economics. Combining high quality research and review articles with sound, practice-oriented advice, JCD meets the diverse diagnostic and management needs of radiologists, endocrinologists, nephrologists, rheumatologists, gynecologists, family physicians, internists, and technologists whose patients require diagnostic clinical densitometry for therapeutic management.
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