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正常及机械负荷增加情况下损伤椎间盘的磁共振成像与生物学变化

Magnetic resonance imaging and biological changes in injured intervertebral discs under normal and increased mechanical demands.

作者信息

Olsewski J M, Schendel M J, Wallace L J, Ogilvie J W, Gundry C R

机构信息

Department of Orthopaedic Surgery, Montefiore Medical Center, Bronx, New York.

出版信息

Spine (Phila Pa 1976). 1996 Sep 1;21(17):1945-51. doi: 10.1097/00007632-199609010-00001.

DOI:10.1097/00007632-199609010-00001
PMID:8883192
Abstract

STUDY DESIGN

An animal model was used to examine the short-term tissue response to changes in the mechanical environment after the structure (disc) is mechanically injured.

OBJECTIVES

To observe changes in an injured intervertebral disc and the corresponding motion segment when the mechanical demands of the disc were increased by fusion of the adjacent motion segments.

SUMMARY OF BACKGROUND DATA

Disc degeneration has been modeled in animals by producing a tear in the anulus via laminectomy, laparotomy, or posterolaterally. Methods of altering and quantifying the mechanics of the intervertebral joint by use of internal fixation and fusion in the canine have been developed.

METHODS

Eight dogs divided into two groups (a study and a control group) had anular stab wounds (L2-L3). The study group was surgically instrumented posteriorly from L3 to L7. Magnetic resonance imaging studies were conducted for all animals before and periodically after the surgical procedures. At the end of the study, the segments were processed histologically and biochemically.

RESULTS

Anular bulging was seen on magnetic resonance imaging in all control animals 4 months after injury and did not progress out until 6 months after injury. Similar changes were seen in study animals, but 75% were herniated by 6 months. Histologic changes correlated with magnetic resonance imaging changes. No significant difference in water or proteoglycan content of the disc tissue between groups was found.

CONCLUSIONS

Progression from the bulging of the anulus to herniation was not evident in damaged discs not subjected to adjacent fusions. No change in water or proteoglycan content as a function of altered mechanical state was found, suggesting the short-term effect of the altered mechanics is on the mechanical structure and not on the cells or extracellular matrix.

摘要

研究设计

使用动物模型来研究在结构(椎间盘)受到机械损伤后,机械环境变化所引起的短期组织反应。

目的

观察当相邻运动节段融合增加椎间盘的机械需求时,损伤的椎间盘及相应运动节段的变化。

背景资料总结

通过椎板切除术、剖腹术或后外侧入路在动物体内制造纤维环撕裂来模拟椎间盘退变。已经开发出在犬类动物中通过使用内固定和融合来改变和量化椎间关节力学的方法。

方法

将八只狗分为两组(研究组和对照组),对其纤维环进行刺伤(L2-L3)。研究组从L3至L7进行后路手术植入器械。在手术前及手术后定期对所有动物进行磁共振成像研究。在研究结束时,对各节段进行组织学和生化处理。

结果

在损伤后4个月,所有对照动物的磁共振成像均显示纤维环膨出,直到损伤后6个月才进展。研究组动物也出现了类似变化,但在6个月时75%发生了椎间盘突出。组织学变化与磁共振成像变化相关。两组之间椎间盘组织的水或蛋白聚糖含量无显著差异。

结论

在未进行相邻融合的受损椎间盘中,从纤维环膨出到突出的进展并不明显。未发现水或蛋白聚糖含量随机械状态改变而变化,这表明机械状态改变的短期影响在于机械结构,而非细胞或细胞外基质。

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