重新定义滑车发育不良:正常阈值因测量技术、标志点和性别而异。
Redefining Trochlear Dysplasia: Normal Thresholds Vary by Measurement Technique, Landmarks, and Sex.
机构信息
Department of Orthopaedic Surgery, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, USA.
Department of Orthopaedic Surgery, Boston University Medical Center, Boston, Massachusetts, USA.
出版信息
Am J Sports Med. 2023 Apr;51(5):1202-1210. doi: 10.1177/03635465231158099. Epub 2023 Mar 21.
BACKGROUND
Trochlear dysplasia is a known risk factor for patellar instability. Multiple radiographic measurements exist to assess trochlear morphology, but the optimal measurement technique and threshold for instability are unknown.
PURPOSE
To describe the optimal measurements and thresholds for trochlear dysplasia on magnetic resonance imaging (MRI) that can identify knees with patellar instability in male and female patients.
STUDY DESIGN
Cohort study (diagnosis); Level of evidence, 3.
METHODS
Knee MRI scans of patients with patellar instability were compared with those of age- and sex-matched controls. Measurements of the sulcus angle, lateral trochlear inclination (LTI), and trochlear depth were performed on axial images using bony and cartilaginous landmarks. Receiver operating characteristic curve analysis was performed, with the area under the curve (AUC) describing the accuracy of each diagnostic test. Optimal cutoff values were calculated to distinguish between knees with and without patellar instability. AUC and cutoff values were reported for each measurement as well as for male and female subgroups.
RESULTS
A total of 238 knee MRI scans were included in this study (138 female, 100 male; age range, 18-39 years). Trochlear depth measurements had the greatest diagnostic value, with AUCs of 0.79 and 0.82 on bone and cartilage, respectively. All measurements (sulcus angle, LTI, trochlear depth) on bone and cartilage had an AUC ≥0.7 (range, 0.70-0.86), with optimal cutoff values of 145° (bone) and 154° (cartilage) for the sulcus angle, 17° (bone) and 13° (cartilage) for LTI, and 4 mm (bone) and 3 mm (cartilage) for trochlear depth. Optimal cutoff values in female patients varied from those in male patients for all measurements except for cartilaginous trochlear depth.
CONCLUSION
Normal thresholds for trochlear dysplasia varied based on the use of bony versus cartilaginous landmarks. Cartilaginous trochlear depth measurements had the greatest ability to identify knees with patellar instability. Furthermore, optimal cutoff values for all measurements except for cartilaginous trochlear depth differed between female and male patients. These findings suggest that sex-specific parameters of normal values may be needed in the assessment of risk factors for patellofemoral instability.
背景
滑车发育不良是髌股关节不稳定的已知危险因素。有多种影像学测量方法可用于评估滑车形态,但不稳定的最佳测量技术和阈值尚不清楚。
目的
描述磁共振成像(MRI)上滑车发育不良的最佳测量方法和阈值,以识别男性和女性髌股关节不稳定患者的膝关节。
研究设计
队列研究(诊断);证据水平,3 级。
方法
对髌股关节不稳定患者的膝关节 MRI 扫描与年龄和性别匹配的对照组进行比较。在轴位图像上,使用骨性和软骨性标志测量滑车沟角、外侧滑车倾斜角(LTI)和滑车深度。采用受试者工作特征曲线分析,曲线下面积(AUC)描述每个诊断试验的准确性。计算最佳截断值以区分髌股关节不稳定和无髌股关节不稳定的膝关节。报告了每种测量方法以及男性和女性亚组的 AUC 和截断值。
结果
本研究共纳入 238 例膝关节 MRI 扫描(女性 138 例,男性 100 例;年龄 18-39 岁)。滑车深度测量具有最大的诊断价值,骨性和软骨性的 AUC 分别为 0.79 和 0.82。所有测量方法(滑车沟角、LTI、滑车深度)在骨性和软骨性上的 AUC 均≥0.7(范围 0.70-0.86),骨性滑车沟角的最佳截断值为 145°,软骨性为 154°;骨性 LTI 的最佳截断值为 17°,软骨性为 13°;骨性滑车深度的最佳截断值为 4 mm,软骨性为 3 mm。除了软骨性滑车深度外,女性患者的所有测量方法的最佳截断值均与男性患者不同。
结论
基于使用骨性和软骨性标志,滑车发育不良的正常阈值有所不同。软骨性滑车深度测量对识别髌股关节不稳定的膝关节具有最大的能力。此外,除了软骨性滑车深度外,所有测量方法的最佳截断值在女性和男性患者之间均有所不同。这些发现表明,在评估髌股关节不稳定的危险因素时,可能需要针对女性和男性患者的特定正常值参数。
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