椎骨小梁的不可逆穿孔？

Irreversible perforations in vertebral trabeculae?

作者信息

Banse X, Devogelaer J P, Delloye C, Lafosse A, Holmyard D, Grynpas M

机构信息

Orthopaedic Research Laboratory and Arthritis Unit, Université Catholique de Louvain, Brussels, Belgium.

出版信息

J Bone Miner Res. 2003 Jul;18(7):1247-53. doi: 10.1359/jbmr.2003.18.7.1247.

DOI:10.1359/jbmr.2003.18.7.1247

PMID:12854834

Abstract

UNLABELLED

In human cancellous bone, osteoclastic perforations resulting from normal remodeling were generally considered irreversible. In human vertebral samples, examined by backscatter electron microscopy, there was clear evidence of bridging of perforation defects by new bone formation. Hence trabecular perforations may not be irreversible.

INTRODUCTION

Preservation of the trabecular bone microarchitecture is essential to maintain its load-bearing capacity and prevent fractures. However, during bone remodeling, the osteoclasts may perforate the platelike trabeculae and disconnect the structure. Large perforations (>100 microm) are generally considered irreversible because there is no surface on which new bone can be laid down. In this work, we investigated the outcome of these perforations on human vertebral cancellous bone.

MATERIALS AND METHODS

Using backscatter electron microscopy, we analyzed 264 vertebral bone samples from the thoracic and lumbar spine of nine subjects (44-88 years old). Nine fields (2 x 1.5 mm) were observed on each block. Several bone structural units (BSUs) were visible on a single trabecula, illustrating a dynamic, historical aspect of bone remodeling. A bridge was defined as a single and recent BSU connecting two segments of trabeculae previously separated by osteoclastic resorption. They were counted and measured (length and breadth, microm).

RESULTS AND CONCLUSION

We observed 396 bridges over 2376 images. By comparison, we found only 15 microcalluses on the same material. The median length of the bridge was 165 microm (range, 29-869 microm); 86% being longer than 100 microm and 35% longer than 200 microm. Their breadth was 56 microm (range, 6-255 microm), but the thinnest were still in construction. Bridges were found in all nine subjects included in the study, suggesting that it is a common feature of normal vertebral bone remodeling. These observations support the hypothesis that perforation could be repaired by new bone formation, and hence, might not be systematically irreversible.

摘要

未标注

在人类松质骨中，正常重塑过程中形成的破骨细胞穿孔通常被认为是不可逆的。在通过背散射电子显微镜检查的人类椎骨样本中，有明确证据表明穿孔缺陷可通过新骨形成而桥接。因此，小梁穿孔可能并非不可逆。

引言

保留小梁骨微结构对于维持其承重能力和预防骨折至关重要。然而，在骨重塑过程中，破骨细胞可能会穿透板状小梁并使结构分离。大穿孔（>100微米）通常被认为是不可逆的，因为没有可供新骨沉积的表面。在这项研究中，我们调查了这些穿孔在人类椎骨松质骨上的结果。

材料与方法

我们使用背散射电子显微镜分析了9名受试者（44 - 88岁）胸腰椎的264个椎骨样本。每个样本块观察9个视野（2×1.5毫米）。在单个小梁上可见几个骨结构单元（BSU），说明了骨重塑的动态、历史特征。桥接定义为单个且近期的BSU连接先前被破骨细胞吸收分隔的两段小梁。对其进行计数和测量（长度和宽度，微米）。

结果与结论

在2376张图像中我们观察到396个桥接。相比之下，在相同材料上仅发现15个微骨痂。桥接的中位长度为165微米（范围，29 - 869微米）；86%长于100微米，35%长于200微米。其宽度为56微米（范围，6 - 255微米），但最窄的仍在形成过程中。在研究纳入的所有9名受试者中均发现了桥接，表明这是正常椎骨骨重塑的一个常见特征。这些观察结果支持这样的假设，即穿孔可通过新骨形成修复，因此可能并非必然不可逆。