In our study, the posterior wall of the spinal dura sac was observed in median and paramedian sagittal planes at the CVJ. We found that the SDM is composed of stratified layers of fibers, which are derived from three sources: the cerebral dura mater, occipital periosteum, and MDB. To our knowledge, this is the first time that the fibrous origin of the SDM has been precisely documented.
In previous studies [
14,
28], scanning electron microscopy (SEM) and histological investigations observed that some of the MDB fibers originated from the ventral part of the RCPmi muscle. These fibers passed through the atlanto-occipital interspace and gradually merged into the SDM forming the superficial layer of the SDM. Some studies reported that the cerebral dura mater has two dural layers: the endosteal layer (outer layer) and the meningeal layer (inner layer) [
3]. The extradural neural axis compartment (EDNAC) is an adipogenous zone located between the meningeal and endosteal layers of the dura. Parkinson developed the concept of EDNAC, which extends from the coccyx to the orbit. It runs along the neuraxis from the orbits down to the coccyx and contains fat, valveless veins, arteries, and nerves [
23]. The inner and outer layers of EDNAC extend down to the suboccipital region and may form the periosteum and dura sources found in our study. The fibrous origin and composition of the cervical spinal dura mater were systematically observed and described in the present study. These previous researches support the point of our study from another aspect.
Our findings provide an explanation for Chauvet et al. suggesting that the midline sections of the spinal dura mater are thicker than the lateral sections [
1]. Moreover, Feipel et al. [
2] have suggested that cervical spine motion does not induce a significant strain on the cranial dura mater, to which this study provides anatomic clues. We found that at the CVJ, the innermost part of the SDM is the direct continuation of the cervical dura mater. Moreover, the majority of the middle fibers originated from the periosteum of the occipital bone, and the outer layer was observed to be composed of a small number of fibers originating from the MDB. Therefore, during cervical spine movement, the resulting stress placed on the spinal dura mater may be absorbed by the occipital periosteum and the suboccipital RCPMi muscle via the MDB.
In our study, the fibers originating from the cerebral dura mater, the occipital periosteum, and the MDB were observed to be composed of stratified layers of fibers at the posterior atlanto-occipital interspace. Chauvet D et al. [
1] suggested that the distribution of blood vessels produced the stratification observed within the spinal dura mater. Based on our observations, we suggest that the different sources of fibers composing the spinal dura mater are the root cause of the stratification, and the blood vessels often appear between the fibers from the different sources. The findings of the present study should provide anatomical guidance or the surgical treatment of Chiari malformations (CM) and other cranio-cervical junction diseases. At present, the surgical treatment of CM primarily involves bone decompression, duraplasty, the resection of the tonsils of the cerebellum, and other methods [
4,
11,
12,
22,
31]. These cervical surgical procedures often result in postoperative complications such as cerebrospinal fluid leakage, pseudomeningocele, hemorrhage, and reduced dural tension, due to occipital periosteum dissection, MDB removion, and improper dural dissection [
9,
14,
18,
19,
24]. Therefore, we propose that during surgery, attention should be paid to the protection of the three sources of fibers of composing the spinal dura mater. When occipital fenestration is performed, the periosteum of at the margin of the foramen magnum should be protected to prevent dura damage and cerebrospinal fluid fistula formation. The results of the present study showed that the inner layer of the SDM is a direct continuation of the cervical dura mater, and the middle layer is mostly derived from the periosteum. Therefore, during surgical procedures, the periosteum located near the foramen magnum could be identified and dissected along the fibers to protect the inner layer of the SDM and thus prevent CSF fistula formation. When the cerebellar tonsillar tumor is resected [
5], the periosteum of the occipital bone should be carefully stripped, and the dura mater should be carefully protected and re-sutured to the occipital bone to bear the changes in stress from the dura mater. Studies have shown that stress concentration caused by epidural adhesion is associated with spinal pain [
15]. Intracranial nociception is mainly mediated by the trigeminal system [
26]. We speculate that improper separation of the dura mater during surgery and destruction of the periosteum or MDB source of the dura mater may lead to local stress concentration on the dura mater during neck movement, stimulate the EDANC or intracranial blood vessels [
27], and activate the trigeminal vascular system, resulting in headache and a series of neurogenic inflammations. Moreover, as the MDB has a dynamic effect on cerebrospinal fluid circulation [
33], it should be protected during surgical operations.