Abstract
A dense bridge-like tissue named the myodural bridge (MDB) connecting the suboccipital muscles to the spinal dura mater was originally discovered in humans. However, recent animal studies have revealed that the MDB appears to be an evolutionarily conserved anatomic structure which may have significant physiological functions. Our previous investigations have confirmed the existence of the MDB in finless porpoises. The present authors conducted research to expound on the specificity of the MDB in the porpoise Neophocana asiaeorientalis (N.asiaeorientalis). Five carcasses of N.asiaeorientalis, with formalin fixation, were used for the present study. Two of the carcasses were used for head and neck CT scanning, three-dimensional reconstructions, and gross dissection of the suboccipital region. Another carcass was used for a P45 plastination study. Also, a carcass was used for a histological analysis of the suboccipital region and also one was used for a Scanning Electron Microscopy study. The results revealed that the MDB of the N.asiaeorientalis is actually an independent muscle originating from the caudal border of the occiput, passing through the posterior atlanto-occipital interspace, and then attaches to the cervical spinal dura mater. Thus the so called MDB of the N.asiaeorientalis is actually an independent and uniquely specialized muscle. Based on the origin and insertion of this muscle, the present authors name it the ‘Occipital-Dural Muscle’. It appears that the direct pull of this muscle on the cervical spinal dura mater may affect the circulation of the cerebrospinal fluid by altering the volume of the subarachnoid space via a pumping action.
Highlights
A dense bridge-like tissue named the myodural bridge (MDB) connecting the suboccipital muscles to the spinal dura mater was originally discovered in humans
Subsequent studies revealed that the rectus capitis posterior major (RCPma), the nuchal ligament (NL), and the obliquus capitis inferior (OCI) participated in the formation of the M DB3–8
As the relationship of these bones was clearly demonstrated by the obtained 3D records, this information was used as a guidance for the gross anatomy aspect of this study
Summary
A dense bridge-like tissue named the myodural bridge (MDB) connecting the suboccipital muscles to the spinal dura mater was originally discovered in humans. The results revealed that the MDB of the N.asiaeorientalis is an independent muscle originating from the caudal border of the occiput, passing through the posterior atlanto-occipital interspace, and attaches to the cervical spinal dura mater. The present authors observed a unique and previously unappreciated suboccipital muscle passing through the atlanto-occipital interspace This previously unidentified muscular structure presumable performs the functional role of a MDB in N.asiaeorientalis. Based on these findings, the present study was initiated to further investigate this previously undescribed muscle that passes through the atlanto-occipital interspace of the N.asiaeorientalis, confirm the point of attachment of this muscle and observe the detail in ultrastructural level. In order to determine any association between this unique muscle and the MDB observed in humans, as well as to determine the physiological function of this muscle
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