与组织学和微型计算机断层扫描(microCT)相比,小鼠骨骼外周定量计算机断层扫描(pQCT)的精度和准确性。
Precision and accuracy of peripheral quantitative computed tomography (pQCT) in the mouse skeleton compared with histology and microcomputed tomography (microCT).
作者信息
Schmidt Corina, Priemel Matthias, Kohler Thomas, Weusten Axel, Müller Ralph, Amling Michael, Eckstein Felix
机构信息
Musculoskeletal Research Group, Institute of Anatomy, Ludwig-Maximilians-Universität München, München, Germany.
出版信息
J Bone Miner Res. 2003 Aug;18(8):1486-96. doi: 10.1359/jbmr.2003.18.8.1486.
UNLABELLED
pQCT was evaluated for accuracy of phenotypic characterization of mouse bone in vivo. Bones (tibia, femur, spine) of 27 animals were measured ex vivo with pQCT, microCT, and histomorphometry and of 23 mice in vivo (pQCT). pQCT yielded satisfactory in vivo precision and accuracy in skeletal characterization.
INTRODUCTION
Important aspects of modern skeletal research depend on the phenotypic characterization of genetically manipulated mice, with some approaches requiring in vivo measurement. Peripheral quantitative computed tomography (pQCT) is applicable in vivo and provides opportunities to determine a large variety of bone parameters. Here we test the ex vivo and in vivo reproducibility of pQCT, and its accuracy in comparison with histomorphometry and microcomputed tomography (microCT).
MATERIALS AND METHODS
We examined the tibia, femur, and lumbar spine of 27 mice ex vivo with high-resolution pQCT, using two mouse models (wild-type and ob/ob) with known differences in bone density. Measurements were repeated three times at different days in nine animals. In a second experiment, 23 animals (10 wild-type and 13 bGH transgenic mice) were repeatedly measured in vivo at 12 and 13 weeks of age, respectively.
RESULTS
Among metaphyseal sites, the ex vivo precision was highest at the distal femur (RMS CV < 1% for density and < 2% for area). The correlation between density (pQCT) and bone volume fraction (histomorphometry) was r2 = 0.79 (tibia, femur, and spine), and that with microCT was r2 = 0.94 (femur). At the diaphysis, the precision was highest at the femur (< 2% for total and cortical area), and the correlation with microCT was r2 > 0.77. The in vivo precision for bone density (distal femur) was 2.3-5.1%, and that for absolute and relative cortical area (tibia) was 3.1% and 2.2%.
CONCLUSIONS
The results show that pQCT can yield satisfactory precision and accuracy in skeletal characterization of mouse bones, if properly applied. The potential advantage of pQCT is that it provides a large set of parameters on bone properties and that it can be used in vivo, extending the available methodological repertoire for genetic studies.
未标注
对pQCT在体内对小鼠骨骼进行表型特征分析的准确性进行了评估。对27只动物的骨骼(胫骨、股骨、脊柱)进行了离体pQCT、显微CT和组织形态计量学测量,并对23只小鼠进行了活体(pQCT)测量。pQCT在骨骼特征分析中产生了令人满意的体内精度和准确性。
引言
现代骨骼研究的重要方面依赖于对基因操作小鼠的表型特征分析,有些方法需要进行体内测量。外周定量计算机断层扫描(pQCT)适用于体内测量,并提供了确定多种骨参数的机会。在此,我们测试了pQCT的离体和体内可重复性,以及与组织形态计量学和显微计算机断层扫描(显微CT)相比的准确性。
材料与方法
我们使用两种已知骨密度存在差异的小鼠模型(野生型和ob/ob),通过高分辨率pQCT对27只小鼠的胫骨、股骨和腰椎进行了离体检查。在9只动物的不同日期重复测量3次。在第二个实验中,分别在12周龄和13周龄时对23只动物(10只野生型和13只bGH转基因小鼠)进行了体内重复测量。
结果
在干骺端部位,离体精度在股骨远端最高(密度的均方根CV<1%,面积的均方根CV<2%)。密度(pQCT)与骨体积分数(组织形态计量学)之间的相关性r2 = 0.79(胫骨、股骨和脊柱),与显微CT的相关性r2 = 0.94(股骨)。在骨干,精度在股骨最高(总面积和皮质面积的均方根CV<2%),与显微CT的相关性r2>0.77。股骨远端骨密度的体内精度为2.3 - 5.1%,胫骨绝对和相对皮质面积的体内精度分别为3.1%和2.2%。
结论
结果表明,如果应用得当,pQCT在小鼠骨骼的骨骼特征分析中可以产生令人满意的精度和准确性。pQCT的潜在优势在于它提供了大量关于骨特性的参数,并且可以用于体内测量,扩展了基因研究可用的方法库。
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