AGREEMENT BETWEEN IN VIVO AND EX VIVO PHOTON-COUNTING CT MEASURES OF SUBCHONDRAL BONE FEATURES IN PATIENTS WITH KNEE OSTEOARTHRITIS

Osteoarthritis imaging Pub Date : 2025-01-01 DOI:10.1016/j.ostima.2025.100304

C.T. Nielsen , M. Boesen , M. Henriksen , J.U. Nybing , S.W. Bardenfleth , C.K. Rasmussen , M.W. Brejnebøl , A.S. Poulsen , S.M. Aljuboori , K.I. Bunyoz , S. Overgaard , A. Troelsen , H. Bliddal , H. Gudbergsen , F. Müller

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Abstract

INTRODUCTION

Bone changes are integral to the onset and progression of OA. Many aspects remain poorly understood due to the inability to assess bone architecture in vivo. Research has relied on ex vivo imaging, hindering evaluation of early-stage disease and longitudinal analysis. Conventional CT lacks the resolution to visualise subchondral bone microstructure. While ex vivo Photon Counting CT (PCCT) has demonstrated imaging comparable to μCT, its ability to capture bone microstructure in vivo in knee OA patients under clinical conditions remains unproven.

OBJECTIVE

The aim of this study was to compare in vivo and ex vivo PCCT of subchondral bone features in patients with knee OA.

METHODS

Pre-surgery in vivo and post-surgery ex vivo PCCT (Siemens Naeotom Alpha, Siemens Healthineers, Germany) of the tibial plateau from participants with severe knee OA referred to arthroplasty surgery from January 2022 through September 2023 were compared. Acquisition/reconstruction details: a tube current of 120 kV, a matrix size of 1024 × 1024, a slice thickness of 0.2 mm, and a FOV of 150 × 150 mm. 18 in vivo/ex vivo PCCT pairs were included. The ex vivo scans was registered to the in vivo scans. Linear regression and Bland-Altman plots were used to assess correlation and agreement between in vivo and ex vivo measures of bone volume fraction (BV/TV), trabecular thickness (Tb.Th.), and attenuation in healthy and sclerotic trabecular bone. Delineated areas of bone sclerosis were compared using the Dice coefficient and Hausdorff distance, Fig. 1.

RESULTS

Comparing in vivo and ex vivo scans strong correlations were found for BV/TV, R²=0.82 and attenuation in both healthy, R²=0.89, and sclerotic, R²=0.79, bone, while a moderate correlation was found for Tb.Th., R²=0.55. Bias for BV/TV and Tb.Th. was -4.1% and -0.598mm, respectively, and -41.4 HU and -81.1 HU for healthy and sclerotic bone, respectively. A proportional bias was observed for BV/TV and Tb.Th., Fig. 2. There was excellent agreement between the segmentations of sclerotic areas, Dice coefficient = 0.91 and Hausdorff distance = 0.11mm.

CONCLUSION

In patients with severe knee OA, BV/TV and attenuation can be obtained with high correlation and small bias between in vivo and ex vivo scans. Tb.Th. showed moderate correlation and larger bias. Subchondral bone sclerosis, a key OA feature, is well translated from ex vivo to in vivo PCCT. Longitudinal studies using in vivo PCCT are feasible, but caution may be advised when measuring Tb.Th.

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膝关节骨性关节炎患者软骨下骨特征的体内和体外光子计数ct测量的一致性

骨改变是骨性关节炎发病和进展不可或缺的一部分。由于无法评估体内的骨结构，许多方面仍然知之甚少。研究依赖于离体成像，阻碍了早期疾病的评估和纵向分析。常规CT缺乏显示软骨下骨微观结构的分辨率。虽然离体光子计数CT （PCCT）已经证明了与μCT相当的成像能力，但其在临床条件下捕获膝关节OA患者体内骨骼微观结构的能力仍未得到证实。目的比较膝关节OA患者软骨下骨特征的体内和体外PCCT。方法比较2022年1月至2023年9月期间接受关节置换术的严重膝OA患者的术前体内和术后离体PCCT （Siemens Naeotom Alpha, Siemens Healthineers, Germany）。采集/重建细节：管电流为120 kV，矩阵尺寸为1024 × 1024，切片厚度为0.2 mm，视场为150 × 150 mm。包括18对体内/离体PCCT。离体扫描与体内扫描相匹配。采用线性回归和Bland-Altman图来评估体内和体外骨量分数（BV/TV）、骨小梁厚度（Tb.Th.）和健康和硬化骨小梁衰减之间的相关性和一致性。使用Dice系数和Hausdorff距离对所描绘的骨硬化区域进行比较，见图1。结果在体内和离体扫描比较，BV/TV与健康骨（R2=0.82）和硬化骨（R2=0.79）有较强的相关性，BV/TV与tb有中等相关性。R2 = 0.55。对BV/TV和th的偏见。健康骨和硬化骨分别为-41.4 HU和-81.1 HU，为-4.1%和-0.598mm。BV/TV和th呈比例偏倚。，图2。硬化区分割结果吻合良好，Dice系数 = 0.91，Hausdorff距离 = 0.11mm。结论在严重膝关节OA患者中，BV/TV和衰减在体内和离体扫描之间具有高相关性和小偏差。Tb.Th。相关性中等，偏倚较大。软骨下骨硬化是骨性关节炎的一个重要特征，它可以很好地从离体转化为体内PCCT。使用体内PCCT进行纵向研究是可行的，但在测量tth时应谨慎。

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Osteoarthritis imaging Radiology and Imaging

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