人类胎儿桡骨干初级骨化中心的定量解剖
Quantitative anatomy of the primary ossification center of the radial shaft in human fetuses.
作者信息
Wiśniewski Marcin, Baumgart Mariusz, Grzonkowska Magdalena, Siedlecki Zygmunt, Piec Maciej, Szpinda Michał, Pawlak-Osińska Katarzyna
机构信息
Department of Normal Anatomy, The Ludwik Rydygier Collegium Medicum in Bydgoszcz, Łukasiewicza 1 Street, Bydgoszcz, 85-821, Poland.
Department of Neurosurgery, Neurotraumatology and Pediatric Neurosurgery, The Ludwik Rydygier Collegium Medicum in Bydgoszcz, The Nicolaus Copernicus University in Toruń, Toruń, Poland.
出版信息
Surg Radiol Anat. 2019 Aug;41(8):901-909. doi: 10.1007/s00276-019-02247-2. Epub 2019 May 2.
PURPOSE
The medical literature still lacks studies on the size of the radial shaft primary ossification center, thus preventing us from potentially relevant data in diagnosing skeletal dysplasias, i.e., TAR syndrome, VATER syndrome, Holt-Oram syndrome, Fanconi anemia and Edwards syndrome, frequently characterized by disrupted or retarded fetal growth.
MATERIALS AND METHODS
The size of the radial shaft primary ossification center in 47 (25 males and 22 females) spontaneously aborted human fetuses aged 17-30 weeks was studied by means of CT, digital image analysis and statistics.
RESULTS
With neither sex nor laterality differences, the best-fit growth dynamics for the radial shaft primary ossification center was modeled by the following functions: y = - 10.988 + 1.565 × age ± 0.018 for its length, y = - 2.969 + 0.266 × age ± 0.01 for its proximal transverse diameter, y = - 0.702 + 0.109 × age ± 0.018 for its middle transverse diameter, y = - 2.358 + 0.203 × age ± 0.018 for its distal transverse diameter, y = -189.992 + 11.788 × (age) ± 0.018 for its projection surface area, and y = - 798.174 + 51.152 × age ± 0.018 for its volume.
CONCLUSIONS
The morphometric characteristics of the radial shaft primary ossification center show neither sex nor bilateral differences. The radial shaft primary ossification center grows proportionately in length, transverse dimensions and volume, and quadratically in its projection surface area. The obtained numerical findings of the radial shaft ossification center are considered age-specific reference of relevance in both the estimation of fetal ages and the diagnostic process of congenital defects.
目的
医学文献中仍缺乏关于桡骨干初级骨化中心大小的研究,这使得我们无法获取在诊断骨骼发育不良(如TAR综合征、VATER综合征、 Holt-Oram综合征、范可尼贫血和爱德华兹综合征,这些疾病常表现为胎儿生长紊乱或迟缓)时可能相关的数据。
材料与方法
通过CT、数字图像分析和统计学方法,研究了47例(25例男性和22例女性)17 - 30周自然流产的人类胎儿桡骨干初级骨化中心的大小。
结果
桡骨干初级骨化中心的生长动力学在性别和左右侧别上均无差异,其长度的最佳拟合生长函数为:y = - 10.988 + 1.565×年龄±0.018;近端横径的最佳拟合生长函数为:y = - 2.969 + 0.266×年龄±0.01;中间横径的最佳拟合生长函数为:y = - 0.702 + 0.109×年龄±0.018;远端横径的最佳拟合生长函数为:y = - 2.358 + 0.203×年龄±0.018;投影表面积的最佳拟合生长函数为:y = - 189.992 + 11.788×(年龄)±0.018;体积的最佳拟合生长函数为:y = - 798.174 + 51.152×年龄±0.018。
结论
桡骨干初级骨化中心的形态计量学特征在性别和双侧上均无差异。桡骨干初级骨化中心在长度、横径和体积上成比例生长,在投影表面积上呈二次方生长。所获得的桡骨干骨化中心的数值结果被认为是在估计胎儿年龄和先天性缺陷诊断过程中具有相关性的特定年龄参考值。
Zotero 插件