基于字典法评估步行对膝关节软骨T2值的影响——一项初步研究。
Impact of walking on knee articular cartilage T2 values estimated with a dictionary-based approach - A pilot study.
作者信息
Coelho J M, Fernandes T T, Alves S M, Nunes R G, Nogueira L, Oliveira A
机构信息
Centro Hospitalar Universitário de Santo António, Unidade Local de Saúde de Santo António, Clínica de Imagiologia Diagnóstica e de Intervenção, Porto, Portugal; Radiology Department, Escola Superior de Saúde / Instituto Politécnico do Porto, Porto, Portugal.
Institute for Systems and Robotics - Lisboa and Department of Bioengineering, Instituto Superior Técnico, Universidade de Lisboa, Lisbon, Portugal.
出版信息
Radiography (Lond). 2025 Jan;31(1):66-74. doi: 10.1016/j.radi.2024.10.018. Epub 2024 Nov 13.
INTRODUCTION
Walking is crucial for knee articular cartilage (KAC) health. Routine MRI sequences lack sensitivity for early cartilage changes, and the use of parametric T maps to study the effect of walking on KAC composition is limited. This study aimed to evaluate if quantitative T2 maps using an Echo Modulation Curve (EMC) matching algorithm can detect KAC T2 variations due to water content changes after walking.
METHODS
Seven asymptomatic volunteers (3 females, 4 males, mean age 28.3 years) without knee pathologies participated. Sagittal knee MRI scans were performed before and after a 9-min treadmill walk using a Modified Bruce protocol. T2-weighted Multi-Echo Spin-Echo KAC images were acquired at 3T. Tibiofemoral cartilage was segmented semi-automatically on three slices per knee, defining 39 KAC samples. Quantitative T2 maps were created using a dictionary-matching algorithm. Paired t-tests assessed exercise impact on KAC T2 values, independent t-tests compared group differences, and Friedman test with Bonferroni correction evaluated regional T2 changes.
RESULTS
Walking increased KAC T2 values (mean difference (md) 0.61 ± 1.71 ms; p = 0.016). Significant differences were observed in "normal" BMI group (md 0.69 ± 1.27 ms; p = 0.021). Regional analysis revealed significant differences in medial femur in males (md 0.9 ± 2.1 ms; p = 0.049) and lateral tibia in females (md 1.4 ± 2.5 ms; p = 0.046). The medial tibia showed significant differences across sub-regions (p = 0.026).
CONCLUSION
Quantitative T maps using the EMC matching algorithm detected consistent changes in KAC T values after a short walking period.
IMPLICATIONS FOR PRACTICE
EMC quantitative T2 maps effectively detected knee cartilage changes post-walking. This technique could improve cartilage hydration assessments, aiding early detection in at-risk patients. It also suggests potential for personalized monitoring and rehabilitation, advancing musculoskeletal imaging and non-invasive joint health monitoring.
引言
步行对膝关节软骨(KAC)健康至关重要。常规MRI序列对软骨早期变化缺乏敏感性,且使用参数化T图研究步行对KAC成分的影响也很有限。本研究旨在评估使用回波调制曲线(EMC)匹配算法的定量T2图能否检测出步行后因水分含量变化导致的KAC T2变化。
方法
7名无膝关节病变的无症状志愿者(3名女性,4名男性,平均年龄28.3岁)参与研究。使用改良布鲁斯方案在9分钟跑步机步行前后进行膝关节矢状面MRI扫描。在3T下采集T2加权多回波自旋回波KAC图像。每个膝关节在三个层面上半自动分割胫股软骨,共定义39个KAC样本。使用字典匹配算法创建定量T2图。配对t检验评估运动对KAC T2值的影响,独立t检验比较组间差异,采用Friedman检验并经Bonferroni校正评估区域T2变化。
结果
步行使KAC T2值升高(平均差值(md)0.61±1.71毫秒;p = 0.016)。在“正常”BMI组中观察到显著差异(md 0.69±1.27毫秒;p = 0.021)。区域分析显示,男性股骨内侧有显著差异(md 0.9±2.1毫秒;p = 0.049),女性胫骨外侧有显著差异(md 1.4±2.5毫秒;p = 0.046)。胫骨内侧各亚区域显示出显著差异(p = 0.026)。
结论
使用EMC匹配算法的定量T图在短时间步行后检测到KAC T值的一致性变化。
对实践的启示
EMC定量T2图有效检测出步行后膝关节软骨的变化。该技术可改善软骨水化评估,有助于高危患者的早期检测。它还提示了个性化监测和康复的潜力,推动了肌肉骨骼成像和无创关节健康监测的发展。
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