二维手动与三维自动评估正常及夏科氏足马蹄内翻足对线的比较:负重 CT 研究
2D Manual vs 3D Automated Assessment of Alignment in Normal and Charcot-Marie-Tooth Cavovarus Feet Using Weightbearing CT.
机构信息
Foot & Ankle Unit, Royal National Orthopaedic Hospital, Stanmore, United Kingdom.
Department of Public Health, University of Naples, Federico II, Naples, Italy.
出版信息
Foot Ankle Int. 2022 Jul;43(7):973-982. doi: 10.1177/10711007221084308. Epub 2022 Apr 11.
BACKGROUND
The complex deformities in cavovarus feet may be difficult to assess and understand. Weightbearing computed tomography (WBCT) is increasingly used in evaluating complex deformities. However, the bone axes may be difficult to calculate in the setting of severe deformity. Computer-assisted 3D axis calculation is a novel approach that may allow for more accurate assessment of foot alignment or deformity. This study aimed to assess differences in measurements done manually on 2D slices of WBCT vs 3D computer models in normal and cavus feet.
METHODS
We retrospectively analyzed WBCT scans from 16 normal and 16 cavus feet in patients with Charcot-Marie-Tooth disease. Six measurements were assessed: talar-first metatarsal angle (axial plane), forefoot arch angle (coronal plane), and Meary angle, calcaneal pitch, and cuneiform and navicular to floor distances (sagittal plane). 2D measurements were performed manually and 3D measurements were performed using specialized software (Bonelogic, DISIOR). Bland-Altman plots and linear regression were used to analyze differences.
RESULTS
There were no significant biases in measured variables in normal feet. In the cavovarus group, automated assessment calculated increased sagittal plane deformity (fixed bias 7.31 degrees for Meary angle, 2.39 degrees for calcaneal pitch) and less axial plane deformity (fixed bias 10.61 degrees for axial talar-first metatarsal angle). The latter also demonstrated proportional bias indicating greater discrepancy with increasing adduction.
CONCLUSION
Measurements were comparable in normal feet suggesting automated techniques can reliably assess the alignment of bony axes. However, automated calculations show greater sagittal and less axial deformity in cavovarus feet than measured by manual techniques. This discrepancy may relate to rotational deformity seen in cavovarus feet, which may not be easily assessed manually. 3D automated measurements may therefore play a role in better assessing and classifying the cavovarus foot, which may ultimately inform treatment algorithms.
LEVEL OF EVIDENCE
Level III, retrospective comparative study.
背景
足内翻-内旋畸形复杂,评估和理解较为困难。负重位计算机断层扫描(weightbearing computed tomography,WBCT)越来越多地用于评估复杂畸形。然而,在严重畸形的情况下,骨轴可能难以计算。计算机辅助 3D 轴计算是一种新方法,可能更准确地评估足对线或畸形。本研究旨在评估正常足和内翻足的二维(2D)WBCT 切片手动测量与 3D 计算机模型测量之间的差异。
方法
我们回顾性分析了 Charcot-Marie-Tooth 病患者的 16 例正常足和 16 例内翻足的 WBCT 扫描。评估了 6 项测量:距骨-第一跖骨角(矢状面)、前足弓角(冠状面)和 Meary 角、跟骨倾斜角、楔骨和骰骨到地面的距离(矢状面)。2D 测量采用手动方法,3D 测量采用专用软件(Bonelogic,DISIOR)进行。采用 Bland-Altman 图和线性回归分析差异。
结果
在正常足中,测量变量无明显偏倚。在内翻组中,自动评估计算出更大的矢状面畸形(固定偏倚:Meary 角 7.31°,跟骨倾斜角 2.39°)和更小的矢状面畸形(轴向距骨-第一跖骨角固定偏倚 10.61°)。后一项还表现出比例偏倚,表明随着内收的增加,差异更大。
结论
正常足的测量结果具有可比性,提示自动技术可可靠评估骨轴对线。然而,与手动技术相比,内翻足的自动计算显示出更大的矢状面畸形和更小的矢状面畸形。这种差异可能与内翻足的旋转畸形有关,而手动技术不易评估这种畸形。因此,3D 自动测量可能在更好地评估和分类内翻足方面发挥作用,最终可能有助于治疗方案的制定。
证据等级
III 级,回顾性比较研究。
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