关节软骨的多成分T2分析及滑液部分容积校正
Multicomponent T2 analysis of articular cartilage with synovial fluid partial volume correction.
作者信息
Liu Fang, Chaudhary Rajeev, Block Walter F, Samsonov Alexey, Kijowski Richard
机构信息
Department of Medical Physics, University of Wisconsin - Madison, Madison, Wisconsin, USA.
Department of Biomedical Engineering, University of Wisconsin - Madison, Madison, Wisconsin, USA.
出版信息
J Magn Reson Imaging. 2016 May;43(5):1140-7. doi: 10.1002/jmri.25061. Epub 2015 Oct 5.
PURPOSE
To investigate the use of a three-pool model to account for the confounding effects of synovial fluid on multicomponent T2 analysis of articular cartilage using Multicomponent Driven Equilibrium Single Shot Observation of T1 and T2 (mcDESPOT).
MATERIALS AND METHODS
mcDESPOT was performed on the knee of eight asymptomatic volunteers and eight patients with osteoarthritis at 3.0T with multicomponent T2 maps created using the two-pool model and a three-pool model containing a nonexchanging synovial fluid water pool. The fraction of the fast-relaxing water component (FF ) and the T2 relaxation times for the fast-relaxing (T2F ) and slow-relaxing (T2S ) water components were measured in the superficial and deep layers of patellar cartilage using the two-pool and three-pool models in asymptomatic volunteers and patients with osteoarthritis and were compared using Wilcoxon signed rank tests.
RESULTS
Within the superficial layer of patellar cartilage, FF was 22.5% and 25.6% for asymptomatic volunteers and 21.3% and 22.8% for patients with osteoarthritis when using the two-pool and three-pool models, respectively, while T2S was 73.9 msec and 62.0 msec for asymptomatic volunteers and 72.0 msec and 63.1 msec for patients with osteoarthritis when using the two-pool and three-pool models, respectively. For both asymptomatic volunteers and patients with osteoarthritis, the two-pool model provided significantly (P < 0.05) lower FF and higher T2S than the three-pool model, likely due to the effects of synovial fluid partial volume averaging.
CONCLUSION
The effects of partial volume averaging between superficial cartilage and synovial fluid may result in biased multicomponent T2 measurements that can be corrected using an mcDESPOT three-pool model containing a nonexchanging synovial fluid water pool.
目的
研究使用三池模型来解释滑液对采用多成分驱动平衡单次激发T1和T2观测(mcDESPOT)技术进行关节软骨多成分T2分析时的混杂效应。
材料与方法
对8名无症状志愿者和8名骨关节炎患者的膝关节在3.0T场强下进行mcDESPOT检查,使用双池模型和包含非交换性滑液水池的三池模型创建多成分T2图谱。在无症状志愿者和骨关节炎患者中,使用双池模型和三池模型在髌软骨的浅层和深层测量快速弛豫水成分分数(FF)以及快速弛豫(T2F)和慢速弛豫(T2S)水成分的T2弛豫时间,并采用Wilcoxon符号秩检验进行比较。
结果
在髌软骨浅层,使用双池模型时,无症状志愿者的FF为22.5%,骨关节炎患者为21.3%;使用三池模型时,无症状志愿者的FF为25.6%,骨关节炎患者为22.8%。使用双池模型时,无症状志愿者的T2S为73.9毫秒,骨关节炎患者为72.0毫秒;使用三池模型时,无症状志愿者的T2S为62.0毫秒,骨关节炎患者为63.1毫秒。对于无症状志愿者和骨关节炎患者,双池模型得到的FF均显著低于三池模型(P < 0.05),T2S则显著高于三池模型,这可能是由于滑液部分容积平均效应所致。
结论
浅层软骨与滑液之间的部分容积平均效应可能导致多成分T2测量结果出现偏差,而使用包含非交换性滑液水池的mcDESPOT三池模型可对此进行校正。
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