基于术前去伪影 CT 成像的胫骨骨缺损预测优于标准 X 线评估。

Tibial bone defect prediction based on preoperative artefact-reduced CT imaging is superior to standard radiograph assessment.

机构信息

Stavros Niarchos Foundation Complex Joint Reconstruction Center, Hospital for Special Surgery, New York, NY, USA.

Department of Orthopaedics (Friedrichsheim), University Hospital, Goethe University Frankfurt, Frankfurt/Main, Germany.

出版信息

Knee Surg Sports Traumatol Arthrosc. 2023 Nov;31(11):4842-4850. doi: 10.1007/s00167-023-07527-4. Epub 2023 Aug 10.

DOI:10.1007/s00167-023-07527-4

PMID:37558747

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10598107/

Abstract

PURPOSE

The purpose of this study was to evaluate the accuracy of preoperative CT-based Anderson Orthopaedic Research Institute (AORI)-grading and to correlate Computed tomography (CT)-based volumetric defect measurements with intraoperative AORI findings.

METHODS

99 patients undergoing revision total knee arthroplasty (rTKA) with preoperative CT-images were identified in an institutional revision registry. CT-image segmentation with 3D-Slicer Software was used to create 3D tibial bone defects which were then graded according to the AORI-classification. The AORI classification categorizes tibial defects into three types: Type I has healthy cortical and cancellous bone near the joint line, Type II involves metaphyseal bone loss affecting one or both condyles, and Type III indicates deficient metaphyseal bone with distal defects and potential damage to the patellar tendon and collateral ligament attachments. These 3D-CT gradings were compared to preoperative X-ray and intraoperative AORI grading. The Friedman test was used to investigate differences between AORI values of each measurement method. Volumetric 3D-bone defect measurements were used to investigate the relationship between AORI classification and volumetric defect size in the three anatomic zones of the tibia.

RESULTS

Substantial agreements between preoperative 3D-CT AORI and intraoperative AORI (kappa = 0.663; P < 0.01) and fair agreements between preoperative X-ray AORI and intraoperative AORI grading (kappa = 0.304; P < 0.01) were found. Moderate correlations between volume of remaining bone and intraoperative AORI grading were found in epiphysis (r = - 0.529; P < 0.001), metaphysis (r = - 0.557; P < 0.001) and diaphysis (r = - 0.421; P < 0.001). Small volumetric differences between AORI I vs. AORI II defects and relatively large differences between AORI II and AORI III defects in each zone were detected.

CONCLUSION

Tibial bone defect prediction based on preoperative 3D-CT segmentation showed a substantial agreement with intraoperative findings and is superior to standard radiograph assessment. The relatively small difference in defect volume between AORI I, IIa and IIb suggests that updated CT-based classifications might hold benefits for the planning of rTKA.

LEVEL OF EVIDENCE

Retrospective Cohort Study; III.

摘要

目的

本研究旨在评估术前 CT 基础的安德森骨科研究所（AORI）分级的准确性，并将基于计算机断层扫描（CT）的容积缺损测量与术中 AORI 发现相关联。

方法

在机构修订登记处确定了 99 例接受 revision total knee arthroplasty（rTKA）并进行术前 CT 成像的患者。使用 3D-Slicer 软件对 CT 图像进行分割，创建 3D 胫骨骨缺损，然后根据 AORI 分类进行分级。AORI 分类将胫骨缺损分为三种类型：I 型在关节线附近具有健康的皮质和松质骨，II 型涉及影响一个或两个髁的干骺端骨丢失，III 型表示干骺端骨缺损伴有远端缺损和髌腱及侧副韧带附着处的潜在损伤。这些 3D-CT 分级与术前 X 射线和术中 AORI 分级进行了比较。Friedman 检验用于研究每种测量方法的 AORI 值之间的差异。容积 3D 骨缺损测量用于研究胫骨三个解剖区域的 AORI 分类与容积缺损大小之间的关系。

结果

术前 3D-CT AORI 与术中 AORI（kappa=0.663；P<0.01）之间存在显著一致性，术前 X 射线 AORI 与术中 AORI 分级之间存在适度一致性（kappa=0.304；P<0.01）。在骨骺（r=-0.529；P<0.001）、干骺端（r=-0.557；P<0.001）和骨干（r=-0.421；P<0.001）中，剩余骨体积与术中 AORI 分级之间存在中度相关性。在每个区域中，AORI I 与 AORI II 缺损之间的容积差异较小，而 AORI II 与 AORI III 缺损之间的容积差异较大。

结论

基于术前 3D-CT 分割的胫骨骨缺损预测与术中发现具有显著一致性，优于标准射线照相评估。AORI I、IIa 和 IIb 之间的缺损容积差异相对较小，表明更新的基于 CT 的分类可能有利于 rTKA 的规划。

证据水平

回顾性队列研究；III。

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基于术前去伪影 CT 成像的胫骨骨缺损预测优于标准 X 线评估。

Tibial bone defect prediction based on preoperative artefact-reduced CT imaging is superior to standard radiograph assessment.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

LEVEL OF EVIDENCE

目的

方法

结果

结论

证据水平

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