Author:
Song Yang,Lai Hua-Xun,Song Ting-Wei,Gong Jin,Liu Bo,Chi Yan-Yan,Yue Chen,Zhang Jing,Sun Shi-Zhu,Zhang Cheng-Hong,Tang Wei,Fan Ning,Yu Wei-Hua,Wang Yi-Fei,Hack Gary D.,Yu Sheng-Bo,Zhang Jian-Fei,Sui Hong-Jin
Abstract
AbstractMyodural bridge (MDB) is a dense connective tissue between suboccipital muscle and dura mater. However, there are few reports on the development and maturation of the human MDB. This study aims to explore the developmental relationship between suboccipital muscle and MDB. 30 head and neck specimens from human fetuses (F) ranging from the 12th to 41st week (W) were made into histological sections. The F12W sections showed evidence that the dura mater dominated by fibroblasts, attached to the posterior atlanto-axial membrane (PAAM) which completely sealed the atlanto-axial space. In the F13W stage, myofibrils of the suboccipital muscle fibers increased significantly in number. At the F14W stage, a gap was observed at the caudal end of the PAAM. Numerous myodural bridge-like structures were observed blending into the dura mater through the gap. At the F19W stage, muscle cells mature. Starting at the F21W stage, the MDB were observed as fibroblasts that cross the atlanto-axial interspace and attach to the dura mater. Therefore, the traction generated by the suboccipital muscles seems to promote the maturity of MDB. This study will provide new morphological knowledge to support future research on the function of the human MDB and regulating the development mechanism of MDB.
Publisher
Springer Science and Business Media LLC