Definition of the to be named ligament and vertebrodural ligament and their possible effects on the circulation of CSF.

Nan Zheng,Sheng-Bo Yu,Hai-Bin Gao,Hong-Jin Sui,Yan-Yan Chi,Xin Zhao,Yun-Fei Li,Xiao-Ying Yuan,John Sharkey,Francesco Cappello

doi:10.1371/journal.pone.0103451

Nan Zheng, Sheng-Bo Yu + Show 8 more

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https://doi.org/10.1371/journal.pone.0103451

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Abstract

Few studies have been conducted specifically on the dense connective tissue located in the posterior medial part of the cervical epidural space. This study was undertaken to examine the presence of this connection between the cervical dura mater and the posterior wall of spinal canal at the level of C1–C2. 30 head-neck specimens of Chinese adults were used. Gross dissection was performed on the suboccipital regions of the 20 specimens. Having been treated with the P45 plastination method, 10 specimens were sliced (9 sagittal and 1 horizontal sections). As a result, a dense fibrous band was identified in the nuchal ligament of 29 specimens (except for one horizontal section case). This fascial structure arose from the tissue of the posterior border of the nuchal ligament and then projected anteriorly and superiorly to enter the atlantoaxial interspace. It was termed as to be named ligament (TBNL). In all 30 specimens the existence of a fibrous connection was found between the posterior aspect of the cervical dura mater and the posterior wall of the spinal canal at the level of the atlas to the axis. This fibrous connection was identified as vertebrodural ligament (VDL). The VDL was mainly subdivided into three parts, and five variations of VDL were identified. These two structures, TBNL and VDL, firmly link the posterior aspect of cervical dura mater to the rear of the atlas-axis and the nuchal region. According to these findings, the authors speculated that the movements of the head and neck are likely to affect the shape of the cervical dural sleeve via the TBNL and VDL. It is hypothesized that the muscles directly associated with the cervical dural sleeve, in the suboccipital region, may work as a pump providing an important force required to move the CSF in the spinal canal.

Highlights

Over the past 30 years, the suboccipital region has received an increasing amount of attention in the scientific literature
Our study reports the presence of the to be named ligament (TBNL) and vertebrodural ligament (VDL) in the suboccipital region and posterior epidural space
Our study reports the presence of two new normal structures from the perspective of the gross and sectional anatomy

Summary

Introduction

Over the past 30 years, the suboccipital region has received an increasing amount of attention in the scientific literature. These connections can be regarded as fibrous fascial tissue bridges providing a continuity of the suboccipital muscles, integrating motion of the atlantooccipital and cervical intervertebral joints with that of the cervical dura mater [2,5,6,7,8] All of these reports clearly show that the suboccipital region is one of the most complex anatomical regions in the human body. In this region, the associated fascia of the rectus capitis posterior minor (RCPmi) continues anteriorly to contribute to the atlantooccipital myodural bridge. This fuses with the posterior atlantooccipital membrane continuing on to merge with the cervical dura mater [2,3,4,5,9,10]

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