Schor, Larry I., Pearson, Stuart M., de Castro Sousa, Bruno, Ettore, Uilvim, Rohrer, Ualas, Gu, Yuxuan, Wu, Hulin, el‐Dahdah, Fares, Shapiro, Robert E., Kaas, Jon H., and Burish, Mark Joseph
Objective: To identify the most common locations of cluster headache pain from an international, non–clinic‐based survey of participants with cluster headache, and to compare these locations to other cluster headache features as well as to somatotopic maps of peripheral, brainstem, thalamic, and cortical areas. Background: Official criteria for cluster headache state pain in the orbital, supraorbital, and/or temporal areas, yet studies have noted pain extending beyond these locations, and the occipital nerve appears relevant, given the effectiveness of suboccipital corticosteroid injections and occipital nerve stimulation. Furthermore, cranial autonomic features vary between patients, and it is not clear if the trigeminovascular reflex is dermatome specific (e.g., do patients with maxillary or V2 division pain have more rhinorrhea?). Finally, functional imaging studies show early activation of the posterior hypothalamus in a cluster headache attack. However, the first somatosensory area to be sensitized is unclear; the first area can be hypothesized based on the complete map of pain locations. Methods: The International Cluster Headache Questionnaire was an internet‐based cross‐sectional survey that included a clickable pain map of the face. These data were compared to several other datasets: (1) a meta‐analysis of 22 previous publications of pain location in cluster headache (consisting of 6074 patients); (2) four cephalic dermatome maps; (3) participants' survey responses for demographics, autonomic features, and effective medications; and (4) previously published somatotopic maps of the brainstem, thalamus, primary somatosensory cortex, and higher order somatosensory cortex. Results: One thousand five hundred eighty‐nine participants completed the pain map portion of the survey, and the primary locations of pain across all respondents was the orbital, periorbital, and temporal areas with a secondary location in the lower occiput; these primary and secondary locations were consistent with our meta‐analysis of 22 previous publications. Of the four cephalic dermatomes (V1, V2, V3, and a combination of C2‐3), our study found that most respondents had pain in two or more dermatomes (range 85.7% to 88.7%, or 1361–1410 of 1589 respondents, across the four dermatome maps). Dermatomes did not correlate with their respective autonomic features or with medication effectiveness. The first area to be sensitized in the canonical somatosensory pathway is either a subcortical (brainstem or thalamus) or higher order somatosensory area (parietal ventral or secondary somatosensory cortices) because the primary somatosensory cortex (area 3b) and somatosensory area 1 have discontinuous face and occipital regions. Conclusions: The primary pain locations in cluster headache are the orbital, supraorbital, and temporal areas, consistent with the official International Classification of Headache Disorders criteria. However, activation of the occiput in many participants suggests a role for the occipital nerve, and the pain locations suggest that somatosensory sensitization does not start in the primary somatosensory cortex. Plain Language Summary: Cluster headache (CH) pain is often thought to be located in or around the eye; however, multiple studies have documented pain elsewhere, and procedures that target nerves in the back of the head can help CH. In this large survey (1604 respondents) with a clickable pain map of the face, we found that (1) most respondents had pain extending beyond the area of the eye, and (2) the pain location did not correlate with autonomic symptoms, medication effectiveness, or other CH features. Cluster headache pain beyond the eye is common, and based on the pattern of areas activated, we hypothesized which parts of the brain's somatosensory system may be activated first in cluster attacks. [ABSTRACT FROM AUTHOR]