N. Hendriks , F. Boel , H. Ahedi , V. Arbabi , N.K. Arden , M.A. van den Berg , C.G. Boer , M.M.A. van Buuren , F.M. Cicuttini , T.F. Cootes , K.M. Crossley , D.T. Felson , W.P. Gielis , J.J. Heerey , G. Jones , S. Kluzek , N.E. Lane , C. Lindner , J.A. Lynch , J.B.J. van Meurs , R. Agricola
{"title":"基于球形股骨头和半球形髋臼的旋转中心的头对头比较","authors":"N. Hendriks , F. Boel , H. Ahedi , V. Arbabi , N.K. Arden , M.A. van den Berg , C.G. Boer , M.M.A. van Buuren , F.M. Cicuttini , T.F. Cootes , K.M. Crossley , D.T. Felson , W.P. Gielis , J.J. Heerey , G. Jones , S. Kluzek , N.E. Lane , C. Lindner , J.A. Lynch , J.B.J. van Meurs , R. Agricola","doi":"10.1016/j.ostima.2024.100216","DOIUrl":null,"url":null,"abstract":"<div><h3>INTRODUCTION</h3><p>The center of rotation (CoR) on 2D hip radiographs is important for the calculation of different angles, for determining the presence of hip dysplasia. The hip joint CoR can be found as the center of a circle fitted to the femoral head. Since the acetabulum and femoral head are concentric, realistically their CoR projects on the hip joint CoR. The two methods to determine the CoR have surprisingly never been compared head-to-head.</p></div><div><h3>OBJECTIVE</h3><p>To determine and compare the CoR obtained from the convexity of the femoral head to the CoR obtained from the concave of the acetabulum in hips free of OA.</p></div><div><h3>METHODS</h3><p>Data from the Worldwide Collaboration on Osteoarthritis prediCtion for the Hip (World COACH) was used. Participants with no signs of OA in the standardized anteroposterior radiographs of the hip joints were selected (KL/croft grade = 0). The contour of the femoral head and acetabulum were outlined with points automatically placed using Bonefinder and the CoR based on the convexity of the femoral head and the acetabulum were calculated for each hip. With the x-, and y-coordinates of the CoRs of both methods, the directional distance between the points was calculated. Using the CoRs of both methods the LCEA and WCEA were calculated. In sensitivity analysis, the (mild) dysplasia (WCEA and LCEA<25°) cases, based on the femoral head method, were excluded.</p></div><div><h3>RESULTS</h3><p>The mean age of the participants (n = 13,683) was 59.0 ± 8.2 years, mean BMI 28.2 ± 4.8 kg/m2, and 61% was female. The mean radius of the circle fit of the femur was 27.25 mm (SD = 2.79). The mean radius of the circle fit based on the acetabulum was 34.17 mm (SD = 4.15). The mean difference between the x-coordinates of both methods was 1.76 mm (SD = 0.98), the mean difference between the y-coordinates of both methods was -2.66 mm (SD = 3.02), with a mean directional distance of 3.89 mm (SD = 2.27). Based on the CoR using the femoral head method the mean LCEA = 34.80° (SD = 5.89), mean WCEA = 29.67° (SD = 6.29), based on the CoR using the acetabulum method the mean LCEA = 30.41° (SD = 6.65), mean WCEA = 25.11° (SD = 6.80). After exclusion of the (mild) dysplasia cases the mean difference between the x-coordinates of both methods was 1.68 mm (SD = 0.84), the mean difference between the y-coordinates of both methods was -2.62 mm (SD = 2.81), with a mean directional distance of 3.71 mm (SD = 2.08). In Table 1, the number of participants with (mild) dysplastic hips are shown based on the different CoRs.</p></div><div><h3>CONCLUSION</h3><p>Based on the mean difference in x-, and y-coordinates per hip, the CoR based on the femoral head method is placed 1.76 mm more medially and 2.66 mm towards cranial direction compared to the CoR using the concave of the acetabulum, with a mean directional distance of 3.89 mm. The CoR determination is independent of the presence of (mild) dysplasia. However, among (mild) dysplastic, the differences between methods on classification of dysplasia is much larger than in the non-dysplastic hips. In the current form, methods cannot be used interchangeably.</p></div>","PeriodicalId":74378,"journal":{"name":"Osteoarthritis imaging","volume":"4 ","pages":"Article 100216"},"PeriodicalIF":0.0000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2772654124000448/pdfft?md5=227b0ebdb0f588849ec70f9e2dd213c2&pid=1-s2.0-S2772654124000448-main.pdf","citationCount":"0","resultStr":"{\"title\":\"HEAD-TO-HEAD COMPARISON BETWEEN THE CENTER OF ROTATION BASED ON THE SPHERICAL FEMORAL HEAD AND THE HEMISPHERICAL ACETABULUM\",\"authors\":\"N. Hendriks , F. Boel , H. Ahedi , V. Arbabi , N.K. Arden , M.A. van den Berg , C.G. Boer , M.M.A. van Buuren , F.M. Cicuttini , T.F. Cootes , K.M. Crossley , D.T. Felson , W.P. Gielis , J.J. Heerey , G. Jones , S. Kluzek , N.E. Lane , C. Lindner , J.A. Lynch , J.B.J. van Meurs , R. 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Participants with no signs of OA in the standardized anteroposterior radiographs of the hip joints were selected (KL/croft grade = 0). The contour of the femoral head and acetabulum were outlined with points automatically placed using Bonefinder and the CoR based on the convexity of the femoral head and the acetabulum were calculated for each hip. With the x-, and y-coordinates of the CoRs of both methods, the directional distance between the points was calculated. Using the CoRs of both methods the LCEA and WCEA were calculated. In sensitivity analysis, the (mild) dysplasia (WCEA and LCEA<25°) cases, based on the femoral head method, were excluded.</p></div><div><h3>RESULTS</h3><p>The mean age of the participants (n = 13,683) was 59.0 ± 8.2 years, mean BMI 28.2 ± 4.8 kg/m2, and 61% was female. The mean radius of the circle fit of the femur was 27.25 mm (SD = 2.79). The mean radius of the circle fit based on the acetabulum was 34.17 mm (SD = 4.15). The mean difference between the x-coordinates of both methods was 1.76 mm (SD = 0.98), the mean difference between the y-coordinates of both methods was -2.66 mm (SD = 3.02), with a mean directional distance of 3.89 mm (SD = 2.27). Based on the CoR using the femoral head method the mean LCEA = 34.80° (SD = 5.89), mean WCEA = 29.67° (SD = 6.29), based on the CoR using the acetabulum method the mean LCEA = 30.41° (SD = 6.65), mean WCEA = 25.11° (SD = 6.80). After exclusion of the (mild) dysplasia cases the mean difference between the x-coordinates of both methods was 1.68 mm (SD = 0.84), the mean difference between the y-coordinates of both methods was -2.62 mm (SD = 2.81), with a mean directional distance of 3.71 mm (SD = 2.08). 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引用次数: 0
摘要
简介:二维髋关节X光片上的旋转中心(CoR)对于计算不同角度、确定是否存在髋关节发育不良非常重要。髋关节的旋转中心可以通过一个与股骨头相匹配的圆的中心来确定。由于髋臼和股骨头是同心的,因此现实中它们的CoR投影在髋关节CoR上。目标确定并比较在无 OA 的髋关节中,通过股骨头凸面获得的 CoR 与通过髋臼凹面获得的 CoR。方法使用髋关节骨性关节炎预后全球合作组织(World COACH)的数据。研究人员选择了在髋关节标准前后位X光片上无OA迹象的参与者(KL/croft分级=0)。用 Bonefinder 自动定位点勾勒出股骨头和髋臼的轮廓,并根据股骨头和髋臼的凸度计算出每个髋关节的 CoR。利用这两种方法计算出的 CoR 的 x 坐标和 y 坐标,计算出各点之间的方向距离。利用两种方法的 CoRs 计算出低密度EA 和中密度EA。在敏感性分析中,根据股骨头方法排除了(轻度)发育不良(WCEA 和 LCEA<25°)病例。结果参与者(n = 13,683)的平均年龄为 59.0 ± 8.2 岁,平均体重指数为 28.2 ± 4.8 kg/m2,61% 为女性。股骨圆拟合半径的平均值为 27.25 毫米(SD = 2.79)。基于髋臼的圆拟合半径的平均值为 34.17 毫米(标准差 = 4.15)。两种方法的 x 坐标之间的平均差值为 1.76 mm(SD = 0.98),两种方法的 y 坐标之间的平均差值为 -2.66 mm(SD = 3.02),平均方向距离为 3.89 mm(SD = 2.27)。根据使用股骨头方法得出的CoR,平均LCEA=34.80°(SD=5.89),平均WCEA=29.67°(SD=6.29);根据使用髋臼方法得出的CoR,平均LCEA=30.41°(SD=6.65),平均WCEA=25.11°(SD=6.80)。排除(轻度)发育不良病例后,两种方法的 x 坐标平均差值为 1.68 mm(SD = 0.84),两种方法的 y 坐标平均差值为 -2.62 mm(SD = 2.81),平均方向距离为 3.71 mm(SD = 2.08)。结论根据每个髋关节 x 坐标和 y 坐标的平均差异,与使用髋臼凹面的 CoR 相比,使用股骨头方法的 CoR 更偏向内侧 1.76 mm,偏向头颅方向 2.66 mm,平均方向距离为 3.89 mm。CoR的确定与是否存在(轻度)发育不良无关。然而,在(轻度)发育不良的髋关节中,不同方法对发育不良分类的差异要比非发育不良髋关节大得多。目前的方法不能互换使用。
HEAD-TO-HEAD COMPARISON BETWEEN THE CENTER OF ROTATION BASED ON THE SPHERICAL FEMORAL HEAD AND THE HEMISPHERICAL ACETABULUM
INTRODUCTION
The center of rotation (CoR) on 2D hip radiographs is important for the calculation of different angles, for determining the presence of hip dysplasia. The hip joint CoR can be found as the center of a circle fitted to the femoral head. Since the acetabulum and femoral head are concentric, realistically their CoR projects on the hip joint CoR. The two methods to determine the CoR have surprisingly never been compared head-to-head.
OBJECTIVE
To determine and compare the CoR obtained from the convexity of the femoral head to the CoR obtained from the concave of the acetabulum in hips free of OA.
METHODS
Data from the Worldwide Collaboration on Osteoarthritis prediCtion for the Hip (World COACH) was used. Participants with no signs of OA in the standardized anteroposterior radiographs of the hip joints were selected (KL/croft grade = 0). The contour of the femoral head and acetabulum were outlined with points automatically placed using Bonefinder and the CoR based on the convexity of the femoral head and the acetabulum were calculated for each hip. With the x-, and y-coordinates of the CoRs of both methods, the directional distance between the points was calculated. Using the CoRs of both methods the LCEA and WCEA were calculated. In sensitivity analysis, the (mild) dysplasia (WCEA and LCEA<25°) cases, based on the femoral head method, were excluded.
RESULTS
The mean age of the participants (n = 13,683) was 59.0 ± 8.2 years, mean BMI 28.2 ± 4.8 kg/m2, and 61% was female. The mean radius of the circle fit of the femur was 27.25 mm (SD = 2.79). The mean radius of the circle fit based on the acetabulum was 34.17 mm (SD = 4.15). The mean difference between the x-coordinates of both methods was 1.76 mm (SD = 0.98), the mean difference between the y-coordinates of both methods was -2.66 mm (SD = 3.02), with a mean directional distance of 3.89 mm (SD = 2.27). Based on the CoR using the femoral head method the mean LCEA = 34.80° (SD = 5.89), mean WCEA = 29.67° (SD = 6.29), based on the CoR using the acetabulum method the mean LCEA = 30.41° (SD = 6.65), mean WCEA = 25.11° (SD = 6.80). After exclusion of the (mild) dysplasia cases the mean difference between the x-coordinates of both methods was 1.68 mm (SD = 0.84), the mean difference between the y-coordinates of both methods was -2.62 mm (SD = 2.81), with a mean directional distance of 3.71 mm (SD = 2.08). In Table 1, the number of participants with (mild) dysplastic hips are shown based on the different CoRs.
CONCLUSION
Based on the mean difference in x-, and y-coordinates per hip, the CoR based on the femoral head method is placed 1.76 mm more medially and 2.66 mm towards cranial direction compared to the CoR using the concave of the acetabulum, with a mean directional distance of 3.89 mm. The CoR determination is independent of the presence of (mild) dysplasia. However, among (mild) dysplastic, the differences between methods on classification of dysplasia is much larger than in the non-dysplastic hips. In the current form, methods cannot be used interchangeably.
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