Experimentally Dissociating the Acute Mechanisms of Endplate Fracture Lesions and Schmorl's Node Injuries Using a Porcine Cervical Spine Model.

IF 2.6 2区 医学 Q2 CLINICAL NEUROLOGY Spine Pub Date : 2024-12-01 Epub Date: 2024-05-06 DOI:10.1097/BRS.0000000000005026
Michael I Watson, Jackie D Zehr, Jack P Callaghan
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Abstract

Study design: This is an in vitro biomechanical study.

Objective: This study evaluated the influence of localized trabecular bone strength deficits and loading rate as determinants of Schmorl's node and fracture lesion incidence. The failure load (ultimate compression tolerance [UCT]), loading stiffness, and failure morphology were assessed after acute compression loading and failure.

Summary of background data: The cartilaginous endplate is vulnerable to injuries such as Schmorl's nodes and fracture lesions. While both injuries are associated with acute compression traumas, the factors that distinguish their incidence are poorly understood.

Methods: Forty-eight porcine spinal units (domestic hog, 5-10 mo, ~110 kg) were assigned to one of eight experimental groups that differed by initial condition (control, sham, experimentally produced chemical fragility, and structural void) and loading rate (3 kN/s, 9kN/s). A servo-hydraulic materials testing system was used to perform acute compression testing until observed failure in the specimen. Post-loading dissection was performed to classify injury morphologies. Between group differences in UCT and loading stiffness were evaluated using a general linear model and injury distributions were evaluated using chi-squared statistics.

Results: Schmorl's nodes occurred exclusively in chemical fragility (63%) and structural void groups (37%) and were more prevalent with a 9 kN/s (75%) loading rate compared with 3 kN/s (25%). In contrast, fracture lesions occurred in all FSUs assigned to the control groups (100%) and the majority of those assigned to the sham groups (92%). No between-group differences were observed for UCT and loading stiffness.

Conclusion: Pre-existing strength deficits of the subchondral trabecular bone can alter endplate injury morphology, particularly when coupled with high loading rates, but the localized strength deficits that were associated with Schmorl's nodes did not appreciably influence measured joint properties.

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利用猪颈椎模型,通过实验分解内板骨折损伤和施莫尔结节损伤的急性机制。
研究设计体外生物力学研究:本研究评估了局部骨小梁强度缺陷和加载速率作为 Schmorl 节点和骨折病变发生率决定因素的影响。对急性压缩加载和失效后的失效载荷(极限压缩耐受力(UCT))、加载刚度和失效形态进行了评估:软骨终板很容易受到损伤,如 Schmorl 节和骨折病变。虽然这两种损伤都与急性挤压创伤有关,但区分其发生率的因素却鲜为人知:方法:48 个猪脊柱单元(家猪,5 - 10 个月,约 110 千克)被分配到八个实验组中的一个,这些实验组的初始条件(对照组、假组、实验产生的化学脆性组、结构空洞组)和加载速率(3 千牛/秒、9 千牛/秒)各不相同。使用伺服液压材料测试系统进行急性压缩测试,直至观察到试样失效。加载后进行解剖,对损伤形态进行分类。使用一般线性模型评估 UCT 和加载刚度的组间差异,并使用卡方统计评估损伤分布:结果:Schmorl's结节只发生在化学脆性组(63%)和结构空洞组(37%),加载速度为9 kN/s(75%)时,Schmorl's结节的发生率高于3 kN/s(25%)。相比之下,分配到对照组的所有 FSU(100%)和分配到假体组的大多数 FSU(92%)都出现了骨折病变。在UCT和加载刚度方面没有观察到组间差异:结论:软骨下小梁骨预先存在的强度缺陷会改变终板损伤的形态,尤其是在高加载率的情况下,但与施莫尔结节相关的局部强度缺陷不会明显影响测量的关节特性。
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来源期刊
Spine
Spine 医学-临床神经学
CiteScore
5.90
自引率
6.70%
发文量
361
审稿时长
6.0 months
期刊介绍: Lippincott Williams & Wilkins is a leading international publisher of professional health information for physicians, nurses, specialized clinicians and students. For a complete listing of titles currently published by Lippincott Williams & Wilkins and detailed information about print, online, and other offerings, please visit the LWW Online Store. Recognized internationally as the leading journal in its field, Spine is an international, peer-reviewed, bi-weekly periodical that considers for publication original articles in the field of Spine. It is the leading subspecialty journal for the treatment of spinal disorders. Only original papers are considered for publication with the understanding that they are contributed solely to Spine. The Journal does not publish articles reporting material that has been reported at length elsewhere.
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