Martin Charys M, Turgeon James G, Goela Aashish, Rice Charles L, Wilson Timothy D
Department of Cellular Biology & Anatomy, Medical College of Georgia, Georgia Regents University, Augusta, GA, USA.
J Anat. 2014 Sep;225(3):358-66. doi: 10.1111/joa.12207. Epub 2014 Jun 23.
The hip joint is one of the most frequent sites of osteoarthritis. Advances in diagnosis and clinical treatment have progressed dramatically in the last few decades; however, there are limitations associated with the lack of reliable measures for quantifying hip joint morphology. Current diagnostic measures of the hip are performed with pre-determined measures, typically lengths and angles, on 2D radiographic planes. The current measurement techniques do not utilize the inherent 3D nature of CT and MR imaging and do not necessarily quantify the relevant clinical pathologies. A valid and reliable measurement modality that measures the surface geometry of the femoral head is necessary for early diagnosis and treatment of hip disease. The purpose of this study was to establish a method to quantify femoral head morphology using a three-dimensional model. A novel measurement approach was applied to 45 cadaveric femurs (23 right; 22 left; nine female, 17 male) and their digitally reconstructed 3D CT models. The mean difference between the cadaveric and digital measures was -2.04 mm with 95% confidence limits (CI) of 13.67 mm and -17.75 mm, respectively. The digital measurement approach was found to have excellent intraobserver reliability (ICC = 0.99, CI 0.98-0.99) and interobserver reliability (ICC = 0.98, CI 0.93-0.99). This valid and reliable novel digital measurement approach enables quantification of the 3D surface geometry of the femoral head and is able to measure individual variations and potentially detect abnormalities. This method may be used to assist future studies to establish valid diagnostic measurements for femoral head and head-neck junction pathologies.
髋关节是骨关节炎最常见的发病部位之一。在过去几十年中,诊断和临床治疗取得了显著进展;然而,由于缺乏可靠的髋关节形态量化测量方法,仍存在一定局限性。目前对髋关节的诊断测量是在二维放射影像平面上采用预先确定的测量方法,通常是长度和角度。当前的测量技术未利用CT和MR成像固有的三维特性,也不一定能对相关临床病变进行量化。对于髋关节疾病的早期诊断和治疗,需要一种有效且可靠的测量方式来测量股骨头的表面几何形状。本研究的目的是建立一种使用三维模型量化股骨头形态的方法。一种新颖的测量方法应用于45具尸体股骨(右侧23具;左侧22具;女性9具,男性17具)及其数字化重建的三维CT模型。尸体测量与数字测量之间的平均差值为-2.04毫米,95%置信区间(CI)分别为13.67毫米和-17.75毫米。结果发现,该数字测量方法具有出色的观察者内可靠性(ICC = 0.99,CI 0.98 - 0.99)和观察者间可靠性(ICC = 0.98,CI 0.93 - 0.99)。这种有效且可靠的新型数字测量方法能够对股骨头的三维表面几何形状进行量化,能够测量个体差异并有可能检测出异常情况。该方法可用于辅助未来研究,以建立针对股骨头和头颈交界处病变的有效诊断测量方法。