基于肩胛盂高度预测固有肩胛盂宽度的统计形状模型目前并不准确:一项横断面研究。
Statistical shape models that predict native glenoid width based on glenoid height are inaccurate in their current form: a cross-sectional study.
机构信息
Department of Orthopaedic Surgery, Tohoku University School of Medicine, Sendai, Japan; Department of Orthopedic Surgery and Sports Medicine, Amsterdam UMC, Location AMC, University of Amsterdam, Amsterdam, the Netherlands; Amsterdam Movement Sciences, Musculoskeletal Health Program, Amsterdam, the Netherlands; Amsterdam Shoulder and Elbow Centre of Expertise (ASECE), Amsterdam, the Netherlands.
Department of Orthopaedic Surgery, Tohoku University School of Medicine, Sendai, Japan.
出版信息
J Shoulder Elbow Surg. 2024 Sep;33(9):2057-2063. doi: 10.1016/j.jse.2024.01.039. Epub 2024 Mar 10.
BACKGROUND
The extent of measurement errors of statistical shape models that predict native glenoid width based on glenoid height to subsequently determine the amount of anterior glenoid bone loss is unclear. Therefore, the aim of this study was to (1) create a statistical shape model based on glenoid height and width measured on 3-dimensional computed tomography (3D-CT) and determine the accuracy through measurement errors and (2) determine measurement errors of existing 3D-CT statistical shape models.
MATERIALS AND METHODS
A retrospective cross-sectional study included all consecutive patients who underwent CT imaging before undergoing primary surgical treatment of traumatic anterior shoulder dislocation between 2007 and 2022 at the Tohoku University Hospital and affiliated hospitals. Patients were included when instability was unilateral and CT scans of both the injured and contralateral uninjured shoulder were available. 3D segmentations were created and glenoid height and width of the injured and contralateral uninjured side (gold standard) were measured. Accuracy was determined through measurement errors, which were defined as a percentage error deviation from native glenoid width (contralateral uninjured glenoid), calculated as follows: measurement error = [(estimated glenoid width with a statistical shape model - native glenoid width) / native glenoid width] × 100%. A linear regression analysis was performed to create a statistical shape model based on glenoid height according to the formula: native glenoid width = a × glenoid height + b.
RESULTS
The diagnosis and procedure codes identified 105 patients, of which 69 (66%) were eligible for inclusion. Glenoid height demonstrated a very strong correlation (r = 0.80) with native glenoid width. The linear regression formula based on this cohort was as follows: native glenoid width = 0.75 × glenoid height - 0.61, and it demonstrated an absolute average measurement error of 5% ± 4%. The formulas by Giles et al, Chen et al and Rayes et al demonstrated absolute average measurement errors of 10% ± 7%, 6% ± 5%, and 9% ± 6%, respectively.
CONCLUSION
Statistical shape models that estimate native glenoid width based on glenoid height demonstrate unacceptable measurement errors, despite a high correlation. Therefore, great caution is advised when using these models to determine glenoid bone loss percentage. To minimize errors caused by morphologic differences, preference goes to methods that use the contralateral side as reference.
背景
基于肩胛盂高度预测固有肩胛盂宽度的统计形状模型的测量误差程度,继而确定前肩胛盂骨丢失量,目前尚不清楚。因此,本研究的目的是:(1)基于三维计算机断层扫描(3D-CT)测量的肩胛盂高度和宽度,建立统计形状模型,并通过测量误差确定其准确性;(2)确定现有的 3D-CT 统计形状模型的测量误差。
材料和方法
这是一项回顾性的病例对照研究,纳入了 2007 年至 2022 年在东北大学医院及其附属医院接受初次手术治疗的创伤性肩关节前脱位患者。纳入标准为:单侧不稳定,且患侧和健侧的 CT 扫描均可用。创建 3D 分割,测量受伤侧和健侧(金标准)的肩胛盂高度和宽度。通过测量误差来确定准确性,测量误差定义为与固有肩胛盂宽度(健侧未受伤的肩胛盂)的百分比误差偏差,计算公式为:测量误差=(统计形状模型估计的肩胛盂宽度-固有肩胛盂宽度)/固有肩胛盂宽度×100%。根据公式:固有肩胛盂宽度=a×肩胛盂高度+b,进行线性回归分析,建立基于肩胛盂高度的统计形状模型。
结果
通过诊断和手术代码识别出 105 例患者,其中 69 例(66%)符合纳入标准。肩胛盂高度与固有肩胛盂宽度呈很强的相关性(r=0.80)。基于该队列的线性回归公式如下:固有肩胛盂宽度=0.75×肩胛盂高度-0.61,其绝对平均测量误差为 5%±4%。Giles 等人、Chen 等人和 Rayes 等人的公式的绝对平均测量误差分别为 10%±7%、6%±5%和 9%±6%。
结论
尽管基于肩胛盂高度预测固有肩胛盂宽度的统计形状模型相关性较高,但测量误差仍不可接受。因此,在使用这些模型来确定肩胛盂骨丢失百分比时,应谨慎使用。为了最大限度地减少因形态差异引起的误差,最好使用健侧作为参考的方法。
Zotero 插件