前交叉韧带重建后 MRI 评估移植物韧带化。
Evaluation of Graft Ligamentization by MRI After Anterior Cruciate Ligament Reconstruction.
机构信息
Queen Mary Hospital, The University of Hong Kong, Hong Kong.
The Duchess of Kent Children's Hospital at Sandy Bay, The University of Hong Kong, Hong Kong.
出版信息
Am J Sports Med. 2023 May;51(6):1466-1479. doi: 10.1177/03635465231160790. Epub 2023 Apr 4.
BACKGROUND
The tendon graft used in anterior cruciate ligament reconstruction (ACLR) undergoes "ligamentization" after implantation, and the reported length of this process varies from 6 to 48 months. Some grafts have ruptured at subsequent follow-up evaluations. Although the progress of graft ligamentization can be followed with postoperative magnetic resonance imaging (MRI) for reassessment, it is not known whether a delay in ligamentization (as reflected by a higher signal of the graft) is associated with an increased chance of subsequent graft rupture.
HYPOTHESIS
Signal intensity of the graft on reassessment MRI (signal-noise quotient [SNQ]) would be associated with the incidence of future graft rupture at subsequent follow-up.
STUDY DESIGN
Case-control study; Level of evidence, 3.
METHODS
A total of 565 ACLRs with intact graft on first-time reassessment MRI after surgery were followed for a mean period of 67 months. The rates of 1-year and 2-year follow-up were 99.5% and 84.5%, respectively. The signal intensity of the intact graft on the first-time reassessment MRI was evaluated (1) quantitatively by the SNQ and (2) qualitatively with the modified Ahn classification. Among the 565 ACLRs, 23 additional graft ruptures developed during a time interval of 7 months to 9 years after the surgery.
RESULTS
Higher SNQ was associated with increased chance of subsequent graft rupture (SNQ 7.3 ± 6 for subsequent graft rupture vs 4.4 ± 4 for grafts without subsequent rupture; = .004, Mann-Whitney test). The other important confounders that were associated with increased chance of graft rupture were younger age at the time of ACLR ( < .001) and longer follow-up time ( = .002). Multiple linear regression showed that all 3 factors (higher SNQ, younger age, and longer follow-up) were independent predictors of graft rupture (SNQ, = .03; age, < .001; follow-up, = .012). When the reassessment MRI was performed in the second year after ACLR, the odds ratio of future graft rupture of a heterogeneous hyperintense graft when compared with a homogeneous hypointense graft was 12.1 (95% CI = 2.8 to 52.6) < .001, Fisher exact test).
CONCLUSION
Higher signal intensity of the intact graft on reassessment MRI (higher SNQ and heterogeneous hyperintense graft) was associated with increased chance of subsequent graft rupture.
背景
在前交叉韧带重建(ACLR)中使用的肌腱移植物在植入后会经历“韧带化”,报告的这个过程的时间长度从 6 到 48 个月不等。一些移植物在随后的随访评估中已经破裂。虽然术后磁共振成像(MRI)可以用于后续的再评估,以跟踪移植物的韧带化进展,但尚不清楚移植物的韧带化延迟(反映为移植物的信号更高)是否会增加随后移植物破裂的机会。
假设
再评估 MRI 上移植物的信号强度(信噪比 [SNQ])与随后随访时移植物破裂的发生率有关。
研究设计
病例对照研究;证据水平,3 级。
方法
对手术后首次再评估 MRI 上移植物完整的 565 例 ACLR 进行了平均 67 个月的随访。1 年和 2 年的随访率分别为 99.5%和 84.5%。评估了首次再评估 MRI 上完整移植物的信号强度(1)通过 SNQ 进行定量评估,(2)通过改良 Ahn 分类进行定性评估。在 565 例 ACLR 中,在手术后 7 个月至 9 年内,又发生了 23 例额外的移植物破裂。
结果
较高的 SNQ 与随后移植物破裂的机会增加相关(SNQ 7.3 ± 6 用于随后的移植物破裂,而用于无随后破裂的移植物为 4.4 ± 4; =.004,曼-惠特尼检验)。与移植物破裂机会增加相关的其他重要混杂因素是 ACLR 时年龄较小( <.001)和随访时间较长( =.002)。多元线性回归显示,所有 3 个因素(较高的 SNQ、较小的年龄和较长的随访时间)是移植物破裂的独立预测因子(SNQ, =.03;年龄, <.001;随访时间, =.012)。当 ACLR 后第二年进行再评估 MRI 时,与均质低信号移植物相比,异质高信号移植物发生未来移植物破裂的比值比为 12.1(95%CI = 2.8 至 52.6)<.001,Fisher 确切检验)。
结论
再评估 MRI 上完整移植物的信号强度较高(较高的 SNQ 和异质高信号移植物)与随后移植物破裂的机会增加有关。
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