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1. Interplay between cannabinoids and the neuroimmune system in migraine

2. Shared and independent roles of CGRP and PACAP in migraine pathophysiology

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3. Involvement of the cerebellum in migraine

4. Stimulation of CGRP-expressing neurons in the medial cerebellar nucleus induces light and touch sensitivity in mice

6. CGRP induces migraine-like symptoms in mice during both the active and inactive phases

7. CGRP and the Calcitonin Receptor are Co-Expressed in Mouse, Rat and Human Trigeminal Ganglia Neurons

8. CGRP Administration Into the Cerebellum Evokes Light Aversion, Tactile Hypersensitivity, and Nociceptive Squint in Mice

9. Dural Immune Cells, CGRP, and Migraine

10. Behavioral and cognitive animal models in headache research

12. Vascular Contributions to Migraine: Time to Revisit?

14. Automated detection of squint as a sensitive assay of sex-dependent calcitonin gene–related peptide and amylin-induced pain in mice

15. Role of Calcitonin Gene-Related Peptide on the Gastrointestinal Symptoms of Migraine—Clinical Considerations: A Narrative Review

16. Hypervigilance, Allostatic Load, and Migraine Prevention: Antibodies to CGRP or Receptor

17. Vascular actions of peripheral CGRP in migraine-like photophobia in mice

18. Cross-talk signaling in the trigeminal ganglion: role of neuropeptides and other mediators

19. CGRP Administration into the Cerebellum Evokes Migraine-like Behaviors Predominately in Female Mice

20. The voltage-gated Cav Ca2+ channel subunit α2δ-4 is required for locomotor behavior and sensorimotor gating in mice

21. Characterization of Antibodies against Receptor Activity-Modifying Protein 1 (RAMP1): A Cautionary Tale

22. Correction to: CGRP induces migraine-like symptoms in mice during both the active and inactive phases

23. Investigating Migraine-Like Behavior using Light Aversion in Mice

24. CGRP induces migraine-like symptoms in mice during both the active and inactive phases

25. Female mice exhibit a more sensitive automated squint response to pain induced by CGRP and amylin

26. Amylin Analog Pramlintide Induces Migraine-like Attacks in Patients

27. CGRP Antibodies for Animal Models of Primary and Secondary Headache Disorders

28. PACAP Induces Light Aversion in Mice by an Inheritable Mechanism Independent of CGRP

29. PACAP induces light aversion in mice by an inheritable mechanism independent of CGRP

30. Stimulation of Posterior Thalamic Nuclei Induces Photophobic Behavior in Mice

31. Different forms of traumatic brain injuries cause different tactile hypersensitivity profiles

32. Multifactorial and closed head impact traumatic brain injuries cause distinct tactile hypersensitivity profiles

33. Patients With Vestibular Migraine are More Likely to Have Occipital Headaches than those With Migraine Without Vestibular Symptoms

34. Calcitonin gene-related peptide (CGRP): role in migraine pathophysiology and therapeutic targeting

35. The voltage-gated Ca2+ channel subunit α2δ-4 regulates locomotor behavior and sensorimotor gating in mice

36. Peripherally administered calcitonin gene–related peptide induces spontaneous pain in mice: implications for migraine

37. Cortical spreading depression as a site of origin for migraine: Role of CGRP

38. Increased receptor activity-modifying protein 1 in the nervous system is sufficient to protect against autonomic dysregulation and hypertension

39. CGRP antibody rescues tactile sensitization induced by mild traumatic brain injury in mice

40. Induction of Migraine-Like Photophobic Behavior in Mice by Both Peripheral and Central CGRP Mechanisms

41. Behavioral and cognitive animal models in headache research

42. Current understanding of trigeminal ganglion structure and function in headache

43. (244) Development of Cephalic and Extra-Cephalic Tactile Allodynia in Two Models of Post-Traumatic Headache in Mice

44. CGRP as a neuropeptide in migraine: lessons from mice

45. A second trigeminal <scp>CGRP</scp> receptor: function and expression of the <scp>AMY</scp> 1 receptor

46. Calcitonin Gene-Related Peptide (CGRP): A New Target for Migraine

47. Lessons Learned from CGRP Mutant Mice

48. Overview of Neuropeptides: Awakening the Senses?

49. CGRP receptor antagonist activity of olcegepant depends on the signalling pathway measured

50. Reactive Oxygen Species Induce Procalcitonin Expression in Trigeminal Ganglia Glia