Department of Orthopaedics, Warren Alpert Medical School, Brown University/Rhode Island Hospital, Providence, Rhode Island.
J Orthop Res. 2014 Apr;32(4):492-9. doi: 10.1002/jor.22563. Epub 2013 Dec 16.
Our objective was to develop a non-invasive magnetic resonance (MR) method to predict the structural properties of a healing anterior cruciate ligament (ACL) using volume and T2 * relaxation time. We also compared our T2 *-based structural property prediction model to a previous model utilizing signal intensity, an acquisition-dependent variable. Surgical ACL transection followed by no treatment (i.e., natural healing) or bio-enhanced ACL repair was performed in a porcine model. After 52 weeks of healing, high-resolution MR images of the ACL tissue were collected. From these images, ligament volumes and T2 * maps were established. The structural properties of the ligaments were determined via tensile testing. Using the T2 * histogram profile, each ligament voxel was binned based on its T2 * value into four discrete tissue sub-volumes defined by specific T2 * intervals. The linear combination of the ligament sub-volumes binned by T2 * value significantly predicted maximum load, yield load, and linear stiffness (R(2) = 0.92, 0.82, 0.88; p < 0.001) and were similar to the previous signal intensity based method. In conclusion, the T2 * technique offers a highly predictive methodology that is a first step towards the development of a method that can be used to assess ligament healing across scanners, studies, and institutions.
我们的目标是开发一种非侵入性的磁共振(MR)方法,使用体积和 T2弛豫时间来预测愈合前交叉韧带(ACL)的结构特性。我们还将基于 T2的结构特性预测模型与之前利用信号强度(一种依赖于采集的变量)的模型进行了比较。在猪模型中进行 ACL 横断术,然后不进行治疗(即自然愈合)或生物增强 ACL 修复。在 52 周的愈合后,对 ACL 组织进行高分辨率 MR 成像。从这些图像中,建立了韧带的体积和 T2图。通过拉伸测试确定韧带的结构特性。使用 T2直方图轮廓,根据 T2值将每个韧带体素分为四个离散的组织子体积,这些子体积由特定的 T2间隔定义。根据 T2值对韧带子体积进行线性组合,可显著预测最大载荷、屈服载荷和线性刚度(R2=0.92、0.82、0.88;p<0.001),与之前基于信号强度的方法相似。总之,T2技术提供了一种高度预测性的方法,这是开发一种可用于评估跨扫描仪、研究和机构的韧带愈合的方法的第一步。