牛尾在体内的复杂运动为椎间盘适应性提供了独特见解。

Complex In Vivo Motion of the Bovine Tail Provides Unique Insights Into Intervertebral Disc Adaptation.

作者信息

Michalek Arthur J, Wood Isabelle M, Gonzalez Carranza Daniela, Ferlito Lindsay

机构信息

Department of Mechanical & Aerospace Engineering Clarkson University Potsdam New York USA.

Department of Chemistry & Biochemistry Clarkson University Potsdam New York USA.

出版信息

JOR Spine. 2025 Jun 17;8(2):e70084. doi: 10.1002/jsp2.70084. eCollection 2025 Jun.

DOI:10.1002/jsp2.70084

PMID:40529400

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12172803/

Abstract

INTRODUCTION

The intervertebral disc (IVD) of the bovine tail is a commonly used research analogue for the human disc at the organ, tissue, and cellular levels. While these tails are subjected to thousands of dynamic motion events daily, little is known about how these motions might induce tissue remodeling, particularly in the outer annulus fibrosus (AF) of IVDs connecting adjacent vertebrae. This study hypothesized that despite the similarities in geometry and biochemical composition of IVDs in the bovine tail, level-wise variations in repetitive in-vivo motion would be associated with tissue level adaptations.

METHODS

In-vivo active range of motion (RoM) was measured by placing inertial measurement unit sensors on the tails of adult cows and using a multi-segment rigid body model to calculate level-wise flexion-extension and lateral bending angles. Level-wise passive RoM was measured from cadaveric adult bovine tails in flexion, extension, and lateral bending with skin and muscles removed. IVDs were extracted for measurement of height, diameters, AF radial thicknesses, and AF fiber crimp periods.

RESULTS

In-vivo joint RoM was found to vary drastically by level, largely due to a prominent second order mode with inflection point at the fourth joint. Joint levels near this inflection point were found to have the highest passive RoMs. In the proximal tail, decreased RoM was associated with an increased fiber crimp period in the outer AF, while in the distal tail it was associated with increased AF thickness.

DISCUSSION

Taken together, these findings suggest that IVDs in the bovine tail respond to repeated complex dynamic motions through a process of adaptation at the mesoscale (AF thickening during growth) and microscale (residual strain accumulation in the mature state). The bovine tail thus provides a powerful tool for modeling how the human lumbar intervertebral disc may remodel in response to changes in exposure to repetitive motions.

摘要

引言

牛尾的椎间盘是在器官、组织和细胞水平上研究人类椎间盘常用的类似物。虽然这些尾巴每天会经历数千次动态运动，但对于这些运动如何诱导组织重塑，尤其是连接相邻椎骨的椎间盘外层纤维环（AF）的组织重塑，人们知之甚少。本研究假设，尽管牛尾椎间盘在几何形状和生化组成上有相似之处，但体内重复运动的节段水平差异将与组织水平的适应性相关。

方法

通过将惯性测量单元传感器放置在成年母牛的尾巴上，并使用多节段刚体模型计算节段水平的屈伸和侧弯角度，来测量体内活动范围（RoM）。从去除皮肤和肌肉的成年牛尸体尾巴上测量节段水平的被动RoM，包括屈伸和侧弯。提取椎间盘以测量高度、直径、AF径向厚度和AF纤维卷曲周期。

结果

发现体内关节RoM在不同节段有很大差异，这主要是由于在第四关节处有一个明显的二阶模式且有拐点。发现靠近该拐点的关节节段具有最高的被动RoM。在近端尾巴，RoM降低与外层AF中纤维卷曲周期增加有关，而在远端尾巴则与AF厚度增加有关。

讨论

综上所述，这些发现表明牛尾椎间盘通过中尺度（生长过程中AF增厚）和微观尺度（成熟状态下残余应变积累）的适应过程，对反复的复杂动态运动做出反应。因此，牛尾为模拟人类腰椎间盘如何响应重复运动暴露的变化提供了一个有力的工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/133c/12172803/f2b7d7ef1522/JSP2-8-e70084-g006.jpg

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牛尾在体内的复杂运动为椎间盘适应性提供了独特见解。

Complex In Vivo Motion of the Bovine Tail Provides Unique Insights Into Intervertebral Disc Adaptation.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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