This thesis describes several studies on migraine and cluster headache which associate these primary headache syndromes with macrostructural and microstructural changes. Some of these brain changes... Show moreThis thesis describes several studies on migraine and cluster headache which associate these primary headache syndromes with macrostructural and microstructural changes. Some of these brain changes may be congenital, some may represent reversible or irreversible neuroplastic changes as a response of the brain to adapt to external stimuli and others should be considered as brain damage associated with these primary headache syndromes. Cluster headache patients have larger anterior hypothalamic volumes and wider skulls, observations that oppose previous neuroimaging findings and pathophysiological theories. Migraine is associated with microstructural changes in particularly visual processing areas in both cortical and subcortical grey matter and in white matter tracts connecting these structures. These changes might in part be irreversible or mSome migraineurs are also at increased risk of visually detectable changes on MRI, such as infratentorial microbleeds, and in male migraineurs, infratentorial hypertensities. Some migraineurs are also at increased risk of visually detectable changes on MRI, such as infratentorial microbleeds and, in male migraineurs, infratentorial hyperintensities. The underlying etiology of these types of cerebrovascular damage remains elusive and is probably the consequence of a multifactorial process. Show less
This thesis describes the longitudinal population-based CAMERA-study on the association between migraine and brain changes (e.g. white matter hyperintensities, infarct-like and other lesions) and... Show moreThis thesis describes the longitudinal population-based CAMERA-study on the association between migraine and brain changes (e.g. white matter hyperintensities, infarct-like and other lesions) and possible causes and consequences of those brain changes. Women with migraine showed higher incidence of deep white matter hyperintensities after nine years of follow-up. Infratentorial hyperintensities were also found more often among migraine women compared to controls. Migraine severity characteristics were not associated with progression of lesions. By using voxel based morphometry region-of-interest analyses, migraineurs showed decreased grey matter volume in visual areas of the right occipital cortex compared to controls. The occurrence of ischemia during attacks seems a logical explanation for the development of lesions. One other possible explanation for brain lesions is recurrent paradoxical (micro-)emboli as a result of right-to-left shunting (RLS). In our study, RLS are also more prevalent among migraineurs than among controls. As for the possible consequences: migraine patients and controls showed similar performance on all cerebellar functioning tests. In addition, cognitive functioning was similar for migraine patients and controls, deep white matter hyperintensities were not related to impaired cognitive performance, and migraine had no influence on this association. Our findings are reassuring for migraine patients and their doctors. Show less