Department of Orthopaedic Surgery, Nagasaki University School of Medicine, Japan.
Osteoarthritis Cartilage. 2011 Feb;19(2):180-5. doi: 10.1016/j.joca.2010.11.002. Epub 2010 Nov 16.
With developments in clinical computed tomography (CT), in vivo analysis of patients' bone microstructure has become increasingly possible. We analyzed the subchondral trabecular bone of hip osteoarthritis (OA) patients using multi-detector row CT (MDCT) to closely examine the structural changes that occur as OA progresses.
47 female hip joints were studied: 20 with OA secondary to hip dysplasia (11 advanced OA, nine early-moderate OA), seven with hip dysplasia without OA, and 20 normal. The images' maximal spatial resolution was 280 × 280 × 500 μm. Regions of interest (ROIs) were the subchondral trabecular bones of the acetabulum and femoral head. Measurement parameters were bone volume fraction (BV/TV), trabecular thickness (Tb.Th), trabecular number (Tb.N), trabecular separation (Tb.Sp), structure model index (SMI), trabecular bone pattern factor (TBPf), Euler's number, and degree of anisotropy (DA). Relationships between joint space volume and these parameters were analyzed.
With decreasing joint space, Tb.Th and BV/TV increased, and Tb.Sp, Tb.N, SMI, TBPf, and DA decreased significantly. The microstructures were significantly different between the early to advanced OA groups and the normal and dysplasia groups; there was no significant difference between the normal and dysplasia groups.
Changes of subchondral trabecular bone structure in OA could be evaluated using MDCT, despite imperfect spatial resolution and limited accuracy. Trabecular bone thickening and associated structural changes may be closely related to OA. Changes were observed in early to advanced OA, but not in dysplasia. This method may help to further elucidate OA pathogenesis, determine the therapeutic strategy, and evaluate therapy.
随着临床计算机断层扫描(CT)技术的发展,对患者骨微结构的活体分析变得越来越可行。我们使用多排 CT(MDCT)分析髋关节炎(OA)患者的软骨下小梁骨,以仔细检查随着 OA 进展而发生的结构变化。
研究了 47 个女性髋关节:20 个髋关节发育不良继发 OA(11 个晚期 OA,9 个早期中度 OA),7 个髋关节发育不良无 OA,20 个正常。图像的最大空间分辨率为 280×280×500μm。感兴趣区域(ROI)为髋臼和股骨头的软骨下小梁骨。测量参数包括骨体积分数(BV/TV)、骨小梁厚度(Tb.Th)、骨小梁数量(Tb.N)、骨小梁间隔(Tb.Sp)、结构模型指数(SMI)、骨小梁图案因子(TBPf)、欧拉数和各向异性度(DA)。分析了关节间隙体积与这些参数之间的关系。
随着关节间隙的减小,Tb.Th 和 BV/TV 增加,而 Tb.Sp、Tb.N、SMI、TBPf 和 DA 显著降低。早期至晚期 OA 组与正常和发育不良组之间的微观结构有显著差异;正常组和发育不良组之间无显著差异。
尽管 MDCT 的空间分辨率不完美且准确性有限,但仍可评估 OA 软骨下小梁骨结构的变化。骨小梁增厚和相关的结构变化可能与 OA 密切相关。在早期至晚期 OA 中观察到变化,但在发育不良中未观察到。这种方法可能有助于进一步阐明 OA 的发病机制,确定治疗策略,并评估治疗效果。
