Headache
-
Histamine is an ancient "tissue amine" preceding multicellular organisms. In the central nervous system (CNS), its fibers originate solely from the tuberomammillary nucleus and travel throughout the brain. It is mainly responsible for wakefulness, energy homeostasis, and memory consolidation. Recently, several studies suggest a potential role of histamine in migraine pathogenesis and management. ⋯ The histamine system interacts with multiple regions in the CNS and may hypothetically modulate the migraine response. Low dose histamine may be a promising option for migraine prevention.
-
In this review, we focus on nonmedication treatment approaches to chronic daily headaches and chronic migraine. We review the current scientific data on studies using multimodal treatments, especially physical therapy and occupational therapy, and provide recommendations on the formation of interdisciplinary headache teams. ⋯ Setting up a collaborative, multidisciplinary team of specialists in headache practices with the goal of modifying physical, environmental, and psychological triggers for chronic daily headaches may facilitate treatment of these refractory patients.
-
Research imaging of brain structure and function has helped to elucidate the pathophysiology of medication overuse headache (MOH). ⋯ MOH is associated with atypical structure and function of brain regions responsible for pain processing as well as brain regions that are commonly implicated in addiction. Several studies have shown "normalization" of structure and function in pain processing regions following discontinuation of the overused medication and resolution of MOH. However, some of the abnormalities in regions also implicated in addiction tend to persist following discontinuation of the overused medication, suggesting that they are a brain trait that predisposes certain individuals to medication overuse and MOH.
-
Here, we review the role of pituitary adenylate cyclase-activating peptide-38 (PACAP38) in migraine and cluster headache (CH). Mounting evidence implicates signaling molecule PACAP38 in the pathophysiology of migraine. ⋯ Randomized clinical trials are warranted to pursue this possible treatment pathway. PACAP38 provocation studies in CH could elucidate possible involvement of PACAP38 in CH pathophysiology and predict efficacy of PACAP38 antagonists in this primary headache.
-
The trigeminal ganglion plays a key role in primary headache pathophysiology. Calcitonin gene-related peptide (CGRP) and CGRP receptors are expressed in trigeminal neurons that form C-fibers and A-fibers, respectively. In acute migraine and cluster headache attacks, there is release of CGRP into the cranial venous outflow. ⋯ Currently, CGRP receptor antagonists, the gepants, and monoclonal antibodies towards CGRP and the CGRP receptor are all showing positive relief of acute and chronic migraine in clinical trials. However, there is still much to learn about the role of CGRP and CGRP receptors in headache pathophysiology, the critical anatomical sites, peripheral or central, of anti-CGRP agents, and the potential involvement of CGRP-related peptides and receptors. This review provides a brief history of the discovery of the role of CGRP in migraine and highlights current progress in understanding the complexity of the trigeminovascular pathway and its peptide transmitters.