Wu Yii-Der, Chien Chi-Hui, Chao Yuh J, Yu Jack C, Williamson Mathew A
Department of Mechanical and Electro-Mechanical Engineering, National Sun Yat-Sen University, Kaohsiung, Taiwan, Republic of China.
Cleft Palate Craniofac J. 2007 Sep;44(5):482-93. doi: 10.1597/06-122.1.
To evaluate the complexity of human sagittal suture patterns and to investigate whether the suture complexity correlates with age.
Geometric patterns of the sagittal sutures from 104 dry human skulls from the Terry Collection and 16 computed tomography images from the Bosma Collection, aged 2 months to 60 years, were digitized. The complexity of the patterns was presented by suture length, curved suture (or skull) length, and length ratio and the frequency and amplitude contents by the discrete Fourier transform (DFT) analysis.
The suture length along the skull showed a positive correlation with age from 2 months to 10 years, reflecting the growth of the skull. The suture length ratio, R, a measure of the complexity of the suture pattern, had a similar trend to suture length (i.e., increased with age to about 10 years and leveled off afterward, accompanied by a large scatter). The major frequency from the DFT analysis indicated an age-related development in suture complexity from infants to about 10 years and no further change for individuals older than 10 years.
Quantitative analyses of human sagittal suture using length, length ratio, and DFT indicated that there is a progressive increase in the complexity of sagittal sutural waveform with age, especially in the early ages. These findings agree with the observations from animal experiments that sagittal sutural waveform is the result of intrinsic tissue response to extrinsic forces such as those generated by the temporalis.
评估人类矢状缝模式的复杂性,并研究缝的复杂性是否与年龄相关。
对来自特里收藏的104个干燥人类头骨以及来自博斯马收藏的16张计算机断层扫描图像(年龄从2个月至60岁)的矢状缝几何模式进行数字化处理。通过缝长度、弯曲缝(或颅骨)长度、长度比来呈现模式的复杂性,并通过离散傅里叶变换(DFT)分析来呈现频率和振幅内容。
沿着颅骨的缝长度在2个月至10岁之间与年龄呈正相关,反映了颅骨的生长。缝长度比R,作为缝模式复杂性的一种度量,与缝长度有相似趋势(即随着年龄增长至约10岁,之后趋于平稳,伴有较大离散度)。DFT分析的主要频率表明,从婴儿到约10岁,缝复杂性存在与年龄相关的发展,10岁以上个体无进一步变化。
使用长度、长度比和DFT对人类矢状缝进行定量分析表明,矢状缝波形的复杂性随年龄逐渐增加,尤其是在早期。这些发现与动物实验的观察结果一致,即矢状缝波形是内在组织对外在力量(如颞肌产生的力量)反应的结果。
