Buie Helen R, Moore Christopher P, Boyd Steven K
Schulich School of Engineering, University of Calgary, Calgary, Alberta, Canada.
J Bone Miner Res. 2008 Dec;23(12):2048-59. doi: 10.1359/jbmr.080808.
An understanding of normal microarchitectural bone development patterns of common murine models is needed. Longitudinal, structural, and mineralization trends were evaluated by in vivo microCT over 12 time points from 6-48 wk of age at the vertebra and tibia of C3H/HeN, C57BL/6, and BALB/C mice. Longitudinal growth occurred rapidly until 8-10 wk, slowed as the growth plate bridged, and fused at 8-10 mo. Structural augmentation occurred through formation of trabeculae at the growth plate and thickening of existing ones. In the vertebrae, BV/TV increased rapidly until 12 wk in all strains. Between 12 and 32 wk, the architecture was stable with BV/TV deviating <1.1%, 1.6%, and 3.4% for the C57BL/6, BALB/C, and C3H/HeN mice. In contrast, the tibial architecture changed continuously but more moderately for BV/TV and TbTh compared with the vertebra and with comparable or larger changes for TbN and TbSp. Age-related trabecular deterioration (decreased BV/TV and TbN; increased TbSp and structure model index) was evident at both sites at 32 wk. In all strains, the cortex continued to develop after trabecular values peaked. The temporal plateau of BMD was variable across mouse strains and site, whereas tissue mineral density was attained at approximately 6 mo for all sites and strains. Geometric changes at the tibial diaphysis occurred rapidly until 8-10 wk, providing the C57BL/6 mice and C3H/HeN mice with the highest torsional and compressive rigidity, respectively. In summary, key skeletal development milestones were identified, and architectural topology at the vertebra was found to be more stable than at the tibia.
需要了解常见小鼠模型正常的微观结构骨发育模式。通过体内微型计算机断层扫描(microCT)评估了C3H/HeN、C57BL/6和BALB/C小鼠在6至48周龄的12个时间点上椎骨和胫骨的纵向、结构和矿化趋势。纵向生长在8至10周龄前迅速发生,随着生长板闭合而减缓,并在8至10月龄时融合。结构增强通过生长板处小梁的形成和现有小梁的增厚而发生。在所有品系中,椎骨的骨体积分数(BV/TV)在12周龄前迅速增加。在12至32周之间,结构稳定,C57BL/6、BALB/C和C3H/HeN小鼠的BV/TV偏差分别<1.1%﹑1.6%和3.4%。相比之下,胫骨结构持续变化,但与椎骨相比BV/TV和骨小梁厚度(TbTh)变化较缓和,而骨小梁数量(TbN)和骨小梁间距(TbSp)变化相当或更大。在32周龄时,两个部位均出现与年龄相关的小梁退化(BV/TV和TbN降低;TbSp和结构模型指数增加)。在所有品系中,皮质骨在小梁参数达到峰值后继续发育。骨密度(BMD)的时间平台在不同小鼠品系和部位有所不同,而所有部位和品系的组织矿物质密度在约6月龄时达到。胫骨骨干的几何变化在8至10周龄前迅速发生,分别使C57BL/6小鼠和C3H/HeN小鼠具有最高的扭转和压缩刚度。总之,确定了关键的骨骼发育里程碑,并且发现椎骨的结构拓扑比胫骨更稳定。
