Chiari malformation does not obstruct cerebrospinal fluid flow during coughs
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OBJECTIVE
Chiari malformation is characterised by the herniation of the cerebellar tonsils through the foramen magnum. It is commonly assumed that the tonsils obstruct normal CSF flow, which leads to symptoms such as cough-associated headache, and is the justification for posterior fossa decompression. However, the mechanisms that cause headache are unknown and management of Chiari remains controversial, with varied and often unsatisfactory outcomes. In this study real-time phase contrast MRI (PC-MRI) was used to determine whether the tonsils restricted CSF flow during coughs, and shape models of the posterior fossa were used to identify morphological differences between patients with and without cough headache.
METHODS
Twenty Chiari patients with cough headache, seven without, and twelve age and sex matched controls underwent MR imaging of the head and neck. 3D models of the hindbrain, CSF and vertebrobasilar arteries were constructed from T1-weighted MRI. PC-MRI was collected at the foramen magnum and mid-C3 to measure CSF flow, plus arterial and venous flow.
RESULTS
The shape models showed that the CSF space anterior to the pons was narrower in Chiari patients than in controls. Additionally, the CSF space around the vertebrobasilar arteries was more restricted in patients with cough headache than those without. The volume flow rate of CSF across the foramen magnum was not restricted during or after cough when compared to controls. However, CSF velocities were ~2 times greater in Chiari patients than in controls.
CONCLUSIONS
These findings suggest that in Chiari patients coughing does not create an obstruction that prevents CSF flow. Rather, overcrowding of the posterior fossa creates high velocity CSF flow across the pons, medulla, and vertebrobasilar arteries. Increased fluid velocities through a narrow CSF space may create greater stresses on the vasculature and contribute to headache.
