Cutaneous nociception and neurogenic inflammation evoked by PACAP38 and VIP

Pituitary adenylate cyclase-activating peptide-38 (PACAP38) and vasoactive intestinal peptide (VIP) belong to the same secretin–glucagon superfamily and are present in nerve fibers in dura and skin. Using a model of acute cutaneous pain we explored differences in pain perception and vasomotor responses between PACAP38 and VIP in 16 healthy volunteers in a double-blind, placebo-controlled, crossover study. All participants received intradermal injections of 200 pmol PACAP38, 200 pmol VIP and placebo into the volar forearm. Measurements included pain intensity on a visual analog scale (VAS), blood flow by laser Doppler flowmetry, visual flare and wheal. Pain intensities after PACAP38 and VIP were mild and limited to a short time of about 100 s after injection. The area under the VAS-time curve was larger following PACAP38 (P = 0.004) and VIP (P = 0.01) compared to placebo. We found no statistical difference in pain perception between PACAP38 and VIP. Skin blood flow increase, flare and wheal were larger after both PACAP38 (P = 0.011) and VIP (P = 0.001) compared to placebo. VIP induced a considerably larger increase in skin blood flow, flare and wheal than PACAP38 (P = 0.002). In conclusion, we found that peripheral nociceptive cutaneous responses elicited by PACAP38 and VIP are similar in healthy volunteers. This suggests that acute pain and vasomotor responses following intradermal injections of PACAP38 and VIP are primarily mediated by VPAC receptors

The cranial nerves

With the exception of the olfactory and optic nerves, all cranial nerves enter or leave the brain stem. Three of the cranial nerves are purely sensory (I, II and VIII), five are motor (III, IV, VI, XI and XII) and the remaining nerves (V, VII, IX and X) are mixed. The olfactory nerve will be discussed in Chap. 14, the optic nerve in Chap. 8 and the cochlear nerve in Chap. 7. The nuclei of the cranial nerves are arranged in an orderly, more or less columnar fashion in the brain stem: motor nuclei, somatomotor, branchiomotor and visceromotor (parasympathetic), derived from the basal plate, are located medially, whereas sensory nuclei, somatosensory, viscerosensory and vestibulocochlear, derived from the alar plate, are found lateral to the sulcus limitans. The cranial nerves innervate structures in the head and neck as well as visceral organs in the thorax and abdomen. The cranial nerves control eye movements, mastication, vocalization, facial expression, respiration, heart rate and digestion. One or several of the cranial nerves are often involved in lesions of the brain stem, of which the location can usually be determined if the topographical anatomy of the cranial nerves and their nuclei is known. Several examples are shown in Clinical cases. Following a few notes on the development of the brain stem and congenital cranial dysinnervation disorders (Sect. 6.2), the following structures will be discussed: (1) ocular motor nerves and the effects of lesions of individual ocular motor nerves (Sect. 6.3); (2) eye movements and some disorders affecting them (Sect. 6.4); (3) the trigeminal nerve and changes in the blink reflex (Sect. 6.5); (4) the facial nerve and peripheral facial nerve paralysis (Sect. 6.6); (5) the gustatory system (Sect. 6.7); (6) the vestibulocochlear nerve, vestibular control and some peripheral and central vestibular syndromes (Sect. 6.8); and (7) the last four cranial nerves and some disorders affecting them (Sects. 6.9 and 6.10). The English terms of the Terminologia Neuroanatomica are used throughout.</p