Radiology, University of Cambridge, United Kingdom; Norwich Medical School, University of East Anglia, United Kingdom.
Radiology, Stanford University, USA; Bioengineering, Stanford University, USA.
Osteoarthritis Cartilage. 2021 Aug;29(8):1155-1162. doi: 10.1016/j.joca.2021.04.014. Epub 2021 May 8.
Synovitis is hypothesized to play a role in the development and growth of osteophytes. Our objectives were to use hybrid positron emission tomography-magnetic resonance imaging (PET-MRI) to (1) determine whether synovitis adjacent to peripheral bone subregions with increased metabolic activity is greater than adjacent to regions without increased metabolic activity and (2) assess the association between subregional bone metabolic activity and adjacent synovitis.
We recruited 11 participants (22 knees) with a diagnosis of OA in at least one knee. Simultaneous bilateral knee PET-MRI was performed. We quantified bone metabolic activity using the radiotracer [F]sodium fluoride ([F]NaF) with calculation of maximum standardized uptake values (SUV). Synovitis was quantified using dynamic contrast-enhanced MRI with calculation of K. Bone subregions were coded as osteophyte (OP), focal increased [F]NaF uptake without osteophyte (FIU), or normal (no osteophyte or FIU). We used robust linear mixed effects models to assess differences in adjacent K between different subregion types and to assess association between K and adjacent SUV.
94 OPs were detected (59 MOAKS grade 1, 30 grade 2, 5 grade 3), along with 28 FIU and 18 normal subregions. K was higher adjacent to FIU (adjusted mean [95% CI] = 0.06 [0.03,0.09]) and OPs (0.08 [0.05,0.11]) when compared to normal bone subregions (0.03 [0.00,0.09]). PET SUV was positively associated with adjacent K (β[95% CI] = 0.018 [0.008,0.027]).
Synovitis is more intense adjacent to peripheral bone regions with increased metabolic activity than those without, although there is some overlap. Subregional bone metabolic activity is positively associated with intensity of adjacent synovitis.
骨关节炎患者的滑膜炎症被认为在骨赘的形成和生长中发挥作用。我们的目的是使用正电子发射断层扫描-磁共振成像(PET-MRI)来:(1)确定代谢活跃的外周骨亚区周围的滑膜炎是否大于无代谢活跃的区域;(2)评估亚区骨代谢活性与相邻滑膜炎之间的关系。
我们招募了 11 名至少一侧膝关节诊断为骨关节炎的参与者(22 个膝关节)。对双侧膝关节同时进行了 PET-MRI。我们使用放射性示踪剂[F]氟化钠([F]NaF)来量化骨代谢活性,并用最大标准化摄取值(SUV)进行计算。滑膜炎用动态对比增强磁共振成像进行量化,并用 K 值进行计算。将骨亚区编码为骨赘(OP)、无骨赘但有局灶性[F]NaF 摄取增加(FIU)或正常(无骨赘或 FIU)。我们使用稳健线性混合效应模型来评估不同亚区类型之间相邻 K 值的差异,并评估 K 值与相邻 SUV 值之间的相关性。
共检测到 94 个骨赘(59 个 MOAKS 分级 1,30 个分级 2,5 个分级 3),同时还有 28 个 FIU 和 18 个正常亚区。与正常骨亚区相比,FIU(调整后平均[95%置信区间]为 0.06 [0.03,0.09])和 OP(0.08 [0.05,0.11])周围的 K 值更高。PET SUV 与相邻 K 值呈正相关(β[95%置信区间]为 0.018 [0.008,0.027])。
与无代谢活跃的区域相比,外周骨代谢活跃的区域周围的滑膜炎更强烈,但也存在一些重叠。亚区骨代谢活性与相邻滑膜炎的强度呈正相关。
