Investigating Fryette's mechanics in computed tomography scans: an analysis of vertebrae spinal physiology using open-sourced datasets and three-dimensional vertebral orientation.

IF 1.4 Q2 MEDICINE, GENERAL & INTERNAL Journal of Osteopathic Medicine Pub Date : 2024-06-06 eCollection Date: 2024-10-01 DOI:10.1515/jom-2023-0088
Dillon R Haughton, Emily C Barr, Akhil K Gupta, Walker C Toohey, Adrienne M Kania
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Abstract

Context: Fryette's mechanics is taught as a simplistic model of coupled vertebral movement, fundamental in osteopathic practice. This study seeks to better understand the likelihood of Fryette's model by calculating vertebral orientation in computed tomography (CT) scans. Given previous findings of low angular coupled movements during overall spinal motion, static calculations provide a unique perspective on the likelihood of Fryette's mechanics.

Objectives: This analysis aims to evaluate the efficacy of Fryette's principles in predicting vertebral positioning in CT scans by comparing their 3-dimensional (3D) orientation to movements described by Fryette.

Methods: 3D models of 953 thoracic and lumbar vertebrae were obtained from 82 CT scans within the VerSe`20 open-source dataset. A stepwise algorithm generated three unique symmetry planes for each vertebra, offering 3D angular orientation with respect to the vertebral level below. A total of 422 vertebrae were omitted from the analysis due to the presence of pathologies significant enough to affect their motion, inaccurate symmetry plane calculations, or absence of vertebral level below. The remaining 531 vertebra were analyzed to compare quantitative coupled positioning against expected coupled spinal movements in line with Fryette's mechanics. One-sample proportional z-scoring was implemented for all vertebral levels with an ∝=0.05 and a null hypothesis of Fryette's primed positioning occurring by chance of 50 %. Further analysis was performed with individual z-scoring for each individual level to see which levels were statistically significant.

Results: Data from the VerSe`20 dataset revealed that 56.9 % of successfully analyzed vertebrae demonstrated positions compatible with Fryette's mechanics (p=0.0014, power=89 %). The 302 vertebral levels that did display coupled positioning consisted of Type I (166 vertebrae) and Type II (136 vertebrae) compatible with Fryette's mechanics. Levels that demonstrated statistical significance consisted of T5 (p=0, power=99 %), T6 (p=0.0023, power=77 %), T7 (p=0.041, power=46 %), and T10 (p=0.017, power=60 %).

Conclusions: Our analysis suggests that the static positions of vertebrae in CT scans may align with Fryette's descriptions, although not very often. Notably, vertebral levels T5-T7 and T10 exhibit strong evidence of their static positions aligning with expected movements, warranting further investigation into the Fryette phenomenon at these levels. Future studies should explore the dynamic implications of these findings to enhance our understanding of spinal biomechanics.

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研究计算机断层扫描中的弗莱特力学:利用开源数据集和三维脊椎定位分析脊椎生理。
背景:弗莱特力学是一种简单的脊椎耦合运动模型,是骨科实践的基础。本研究旨在通过计算计算机断层扫描(CT)中的脊椎方向,更好地了解 Fryette 模型的可能性。鉴于之前发现脊柱整体运动过程中的低角度耦合运动,静态计算为了解弗莱特力学的可能性提供了一个独特的视角:方法:从 VerSe`20 开放源码数据集中的 82 个 CT 扫描中获取 953 个胸椎和腰椎的三维模型。逐步算法为每个椎体生成三个独特的对称平面,提供相对于下面椎体水平的三维角度方向。由于存在足以影响其运动的重大病变、对称平面计算不准确或没有下面的椎体水平,共有 422 个椎体被排除在分析之外。对剩余的 531 个椎体进行了分析,以比较定量耦合定位与符合 Fryette 力学原理的预期耦合脊柱运动。对所有椎体水平进行单样本比例z评分,∝=0.05,零假设为50%的偶然发生Fryette引物定位。对每个椎体水平的单个 Z 评分进行了进一步分析,以确定哪些椎体水平具有统计学意义:VerSe`20数据集的数据显示,在成功分析的椎体中,56.9%的椎体显示出与Fryette力学相匹配的位置(p=0.0014,功率=89%)。显示耦合定位的 302 个椎体水平包括符合 Fryette 力学的 I 型(166 个椎体)和 II 型(136 个椎体)。具有统计学意义的水平包括 T5(p=0,功率=99 %)、T6(p=0.0023,功率=77 %)、T7(p=0.041,功率=46 %)和 T10(p=0.017,功率=60 %):我们的分析表明,CT 扫描中椎体的静态位置可能与 Fryette 的描述一致,但并不常见。值得注意的是,T5-T7 和 T10 椎体水平显示出其静态位置与预期运动一致的有力证据,值得进一步研究这些水平的弗莱特现象。未来的研究应探讨这些发现的动态影响,以加深我们对脊柱生物力学的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Osteopathic Medicine
Journal of Osteopathic Medicine Health Professions-Complementary and Manual Therapy
CiteScore
2.20
自引率
13.30%
发文量
118
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