The images on this page will show a clear connection between a chronic upper cervical strain and altered drainage in the brain. The image below is from Flickr and was submitted by Ray LeBlanc. The largest veins you see are the superior sagittal sinus at the top, the transverse to sigmoid sinuses located along the bottom running somewhat horizontally and then downward from the back toward the front of the skull and finally the internal jugular veins descending straight down the neck.
There is another interesting vein called the straight sinus which takes off at approximately a 45 degree angle forward and upward from the transverse sinus. The straight sinus is pertinent to Dr. Franz Schelling’s research into the peculiar locations of the lesions in MS. According to Schelling, one of the key areas that reverse flows, called back jets, vent into is the straight sinus. This explains why lesions tend to show up in areas surrounding tributary veins of the straight sinus.
The network of much smaller veins below the transverse sinus and behind the internal jugulars, is the vertebral veins, more commonly called the vetebral venous plexus (VVP). A plexus is a network of vessels, which is exactly what the VVP is. Although the individual veins may be small, the drainage capacity of the vast network of veins of the VVP, located inside the spinal canal and surrounding spine, is huge.
Some of the most important extra venous outlets in humans that drain into the cervical VVP are located around the foramen magnum. Some actually pass through it. Another frequently used route is located behind the mastoid bone of the ear. There are many different design variations in the extra venous outlets used by humans for upright posture. Some designs simply work better than others and some are predisposed to drainage issues due to reduced capacity by design.
The image below is of a female with migraine headaches which, interestingly, is sometimes associated with MS. The image on the left taken before a chiropractic upper cervical correction due to an upper cervical strain shows significantly more blood flow through the left and right internal jugular veins.
Following the upper cervical correction blood flow through the internal jugular veins is considerably reduced and blood flow through the vertebral veins is increased. The vertebral veins can be seen in the middle of the image in the area of the foramen magnum next to the inward bend of the sigmoid sinus where it connects to the internal jugulars.
What’s particularly fascinating about this MR venogram image is that is was done with the patient lying down, when the demands on the VVP are significantly lower. The primary role of the VVP is to drain the brain during upright posture. Even so, it nonetheless appears to play a prominent role in the recumbent position as well.
In this case the sigmoid sinus to internal jugular vein routes were being overburdened due to a venous shift in their direction as a consequence of reduced drainage capacity in the cervical portion of the VVP drainage routes. The reduced drainage capacity of the brain to cervical VVP routes was the result of a chronic upper cervical strain chiropractors sometimes classify as a subluxation. In this case the burden on the jugulars would have further increased significantly during upright posture due to failure of the VVP.
In other words, the cause of the CCSVI (chronic cerebrospinal venous insufficiency) in this case was due to back pressure and sluggish circulation in the VVP as a result of an upper cervical strain causing a subluxation, not faults, such as stenosis in the jugular routes.