利用下颌骨骨密度分布对矿化进行量化。
Quantifying mineralization using bone mineral density distribution in the mandible.
作者信息
Donneys Alexis, Nelson Noah S, Deshpande Sagar S, Boguslawski Matthew J, Tchanque-Fossuo Catherine N, Farberg Aaron S, Buchman Steven R
机构信息
Plastic Surgery Section, University of Michigan Craniofacial Research Laboratory, Ann Arbor, Michigan, USA.
出版信息
J Craniofac Surg. 2012 Sep;23(5):1502-6. doi: 10.1097/SCS.0b013e3182519a76.
BACKGROUND
Micro-computed tomography is an efficient method for quantifying the density and mineralization of mandibular microarchitecture. Conventional radiomorphometrics such as bone and tissue mineral density are useful in determining the average overall mineral content of a scanned specimen; however, relying solely on these metrics has limitations. Using bone mineral density distribution (BMDD), the complex array of mineralization densities within a bone sample can be portrayed. This information is particularly useful as a computational feature reflective of the rate of bone turnover. We demonstrate the utility of BMDD analyses in the rat mandible and generate a platform for further exploration of mandibular pathology and treatment.
METHODS
Male Sprague-Dawley rats (n = 8) underwent micro-computed tomography, and histogram data were generated from a selected volume of interest. A standard curve was derived for each animal, and reference criteria were defined. An average histogram was produced for the group, and descriptive analyses including the means and SDs are reported for each of the normative metrics.
RESULTS
M(peak) (3444 Hounsfield units [SD, 138]) and M(width) (2221 Hounsfield units [SD, 628]) are 2 metrics demonstrating reproducible parameters of BMDD with minimal variance. A total of 8 valuable metrics quantifying biologically significant events concerning mineralization are reported.
CONCLUSIONS
We quantify the vast wealth of information depicted in the complete spectrum of mineralization established by the BMDD analysis. We demonstrate its potential in delivering mineralization data that encompass and enhance conventional reporting of radiomorphometrics. Moreover, we explore its role and translational potential in craniofacial experimentation.
背景
微型计算机断层扫描是一种量化下颌骨微结构密度和矿化的有效方法。传统的放射形态计量学,如骨密度和组织矿物质密度,有助于确定扫描样本的平均总体矿物质含量;然而,仅依赖这些指标存在局限性。利用骨矿物质密度分布(BMDD),可以描绘骨样本内复杂的矿化密度阵列。该信息作为反映骨转换率的计算特征特别有用。我们展示了BMDD分析在大鼠下颌骨中的效用,并为进一步探索下颌骨病理学和治疗方法搭建了一个平台。
方法
对8只雄性Sprague-Dawley大鼠进行微型计算机断层扫描,并从选定的感兴趣体积中生成直方图数据。为每只动物绘制一条标准曲线,并定义参考标准。生成该组的平均直方图,并报告每个标准指标的描述性分析结果,包括均值和标准差。
结果
M(峰值)(3444亨氏单位[标准差,138])和M(宽度)(2221亨氏单位[标准差,628])是两个指标,显示出BMDD的可重复参数且方差最小。总共报告了8个量化与矿化相关的生物学显著事件的有价值指标。
结论
我们对BMDD分析所建立的完整矿化谱中描绘的大量信息进行了量化。我们展示了其在提供矿化数据方面的潜力,这些数据涵盖并增强了传统放射形态计量学报告。此外,我们还探讨了其在颅面实验中的作用和转化潜力。
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