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应用磁化传递超短回波时间(MT-UTE)建模检测机械负荷作用下关节软骨和半月板变形的效果:可行性研究。

Detecting Articular Cartilage and Meniscus Deformation Effects Using Magnetization Transfer Ultrashort Echo Time (MT-UTE) Modeling during Mechanical Load Application: Feasibility Study.

机构信息

Department of Radiology, University of California, San Diego, CA, USA.

Radiology Service, VA San Diego Healthcare System, San Diego, CA, USA.

出版信息

Cartilage. 2021 Dec;13(1_suppl):665S-673S. doi: 10.1177/1947603520976771. Epub 2020 Dec 8.

DOI:10.1177/1947603520976771
PMID:33289401
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8808840/
Abstract

OBJECTIVE

Ultrashort echo time (UTE) magnetic resonance imaging (MRI) sequences have improved imaging of short T2 musculoskeletal (MSK) tissues. UTE-MRI combined with magnetization transfer modeling (UTE-MT) has demonstrated robust assessment of MSK tissues. This study aimed to investigate the variation of UTE-MT measures under mechanical loading in tibiofemoral cartilage and meniscus of cadaveric knee joints.

DESIGN

Fourteen knee joints from young ( = 8, 42 ± 12 years old) and elderly ( = 6, 89 ± 4 years old) donors were scanned on a 3-T scanner under 3 loading conditions: load = 300 N (Load1), load = 500 N (Load2), and load = 0 N (Unload). UTE-MT sequences were performed at each loading condition. Macromolecular proton fraction (MMF) was calculated from UTE-MT modeling. Wilcoxon rank sum test was used to examine the MRI data differences between loading conditions.

RESULTS

For young donors, MMF increased in all grouped regions of interest (meniscus [M], femoral articular cartilage [FAC], tibial articular cartilage [TAC], articular cartilage regions covered by meniscus [AC-MC], and articular cartilage regions uncovered by meniscus [AC-UC]) when the load increased from 300 to 500 N. The increases in MMF were significant for M (13.3%, < 0.01) and AC-MC (9.2%, = 0.04). MMF decreased in all studied regions after unloading, which was significant only for AC-MC (-8.9%, = 0.01). For elderly donors, MRI parameters did not show significant changes by loading or unloading.

CONCLUSION

This study highlights the potential of the UTE-MT modeling combined with knee loading in differentiating between normal and abnormal knees. Average tissue deformation effects were likely higher and more uniformly distributed in the joints of young donors compared with elderly donors.

摘要

目的

超短回波时间(UTE)磁共振成像(MRI)序列提高了短 T2 肌肉骨骼(MSK)组织的成像效果。UTE-MRI 结合磁化传递建模(UTE-MT)已证明可对 MSK 组织进行稳健评估。本研究旨在探讨尸体膝关节胫股软骨和半月板在机械加载下 UTE-MT 测量值的变化。

设计

14 个膝关节来自年轻(n=8,42±12 岁)和老年(n=6,89±4 岁)供体,在 3T 扫描仪上在 3 种加载条件下进行扫描:载荷=300N(Load1)、载荷=500N(Load2)和无载(Unload)。在每个加载条件下进行 UTE-MT 序列。从 UTE-MT 建模中计算大分子质子分数(MMF)。使用 Wilcoxon 秩和检验检验加载条件之间的 MRI 数据差异。

结果

对于年轻的供体,当载荷从 300N 增加到 500N 时,所有分组的感兴趣区域(半月板[M]、股骨关节软骨[FAC]、胫骨关节软骨[TAC]、半月板覆盖的关节软骨区域[AC-MC]和半月板未覆盖的关节软骨区域[AC-UC])的 MMF 均增加。M(13.3%,<0.01)和 AC-MC(9.2%,=0.04)的 MMF 增加具有统计学意义。卸载后,所有研究区域的 MMF 均降低,仅 AC-MC 降低具有统计学意义(-8.9%,=0.01)。对于老年供体,加载或卸载时 MRI 参数均无明显变化。

结论

本研究强调了 UTE-MT 建模结合膝关节加载在区分正常和异常膝关节方面的潜力。与老年供体相比,年轻供体关节中的平均组织变形效应可能更高且更均匀分布。

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