Unilateral impairment of pupillary response to trigeminal nerve stimulation in cluster headache.

The pupillary constriction induced ipsilaterally by transcutaneous electrical nerve stimulation (TENS) of the infratrochlear nerve was measured, using an electronic pupillometer, in 26 episodic cluster headache (CH) and 15 migraine sufferers tested during an attack-free period and in 16 healthy controls. In controls, TENS gave rise to a miosis which was slow in onset and long-lasting in duration, and which was comparable to that mediated by tachykinins in animals. A similar miotic response was bilaterally observed in migraine patients and in CH patients examined during the inactive phase. In CH sufferers during the cluster period, TENS only elicited a normal pupillary constriction in the asymptomatic eye, whereas the resulting response in the symptomatic eye was markedly decreased. Although the exact mechanism underlying the dysfunction remains to be clarified, these results seem to indicate that ocular trigeminal pathways are involved in CH.

Beneficial effect of capsaicin application to the nasal mucosa in cluster headache.

Capsaicin application to human nasal mucosa was found to induce painful sensation, sneezing, and nasal secretion. All of these factors exhibit desensitization upon repeated applications. The acute effects induced by capsaicin (300 micrograms/100 microliters) application to the nasal mucosa were studied in healthy volunteers and cluster headache patients. These effects were not different in both nostrils of cluster headache patients as well as in the single nostril of healthy controls. Likewise, the time course of desensitization to the painful sensation and nasal secretion induced by capsaicin applied for five consecutive days in control subjects was almost superimposable to those observed in the nasal mucosa of cluster headache patients. The number of spontaneously occurring attacks was significantly reduced in the 60 days after the end of capsaicin treatment. Whether the beneficial effect induced by capsaicin application to the nasal mucosa could be ascribed to a specific action on sensory neurons remains unknown.

Transcutaneous electrical stimulation applied to the infratrochlear nerve induces a homatropine-resistant miosis in humans.

1. Both high- and low-intensity transcutaneous electrical stimuli were applied to the emergence of the infratrochlear nerve in 18 healthy subjects. The effect on the size of the homolateral pupil was investigated. The width of the pupil was also measured when high-intensity transcutaneous electrical stimulation was applied to the contralateral side. 2. The high-intensity pulse resulted in constriction of the pupil when the stimulation was homolateral. The miosis was slow in onset (120 s latency) and long-lasting (80 s). No pupillary changes were detected after either ipsilateral low-intensity or contralateral high-intensity stimuli. 3. In 11 healthy subjects, the pupillary response to transcutaneous electrical stimulation was evaluated during iris parasympathetic blockade induced by homatropine eyedrops. The disappearance of the light reflex due to homatropine was considered an index of the parasympathetic blockade. Afterwards, a high-intensity pulse was transcutaneously delivered to the emergence of the infratrochlear nerve and the ipsilateral pupil size was measured. 4. A reduction in the pupillary size followed the electrical stimulation, still under the effect of homatropine which abolished the light reflex. The time course of this pupillary constriction was similar to that seen without the influence of homatropine. 5. The findings suggest that homolateral miosis, observed after unilateral high-intensity stimulation of the infratrochlear nerve, does not stem from cholinergic activation. It has been suggested that miosis induced by transcutaneous electrical stimulation may be due to an antidromic activation of the iris sensory fibres.

Substance P theory: a unique focus on the painful and painless phenomena of cluster headache.

These studies of cluster headache (CH) focus on two key features of pain transmission: a) sensory nerves when stimulated, as well as the expected afferent transmission, also display an efferent function which affects capillaries, glands, and smooth muscle (of the iris in CH); substance P (SP) and allied transmitters such as Vasoactive Intestinal Peptide (VIP) and Calcitonin Gene-Related Peptide (CGRP) are the main agonists of this dual afferent-efferent function; b) impaired pain transmission (deafferentation-like condition) provokes a rostral spread of neuronal irritability and automatic firing ("quasi epileptic foci") producing a clinical predilection for pain with the generation of "spontaneous" pains along the sensory pathways. The substrates studied in the present experiments are the iris, salivary glands, and nasal mucosa. 1) Iris: the conjunctival instillation of SP induces isocoric miosis both in CH sufferers and in normals, thus excluding gross SP receptoral dysfunction of the iris muscle in CH. Electrical stimulation of extraocular (infratrochlear) endings of the first branch of the trigeminal nerve provokes a miosis, which is significantly less in the symptomatic eye than in the contralateral one. This miosis is ascribed to a retrograde release of SP, induced by electrical stimulation of the trigeminal ophthalmic branch. The relatively poor miosis in the painful eye could correlate with a deficient release of SP from the sensory terminals in the iris. 2) Salivary glands: an increase of substance P-like immunoreactivity is found in the saliva taken from the asymptomatic side, but not from the painful side during a cluster headache attack, thus showing at this level also an asymmetry as previously shown in other head structures. 3) Nasal mucosa: intranasal application of capsaicin, a powerful releaser of SP from sensory terminals, evokes an immediate burning pain in the ipsilateral nasal, ocular, and temporal areas, as well as lacrimation and rhinorrhea. A gradual decrease (tachyphylaxis) of these phenomena is consistently observed after few days of daily nasal administration of capsaicin. When this treatment is applied to CH patients, a rapid decrease in the number and intensity of attacks, and even disappearance of symptoms accompanies the decline of the capsaicin-induced manifestations. Local (nasal) capsaicin, in spite of evoking immediately the same vegetative (rhinorrhea, lacrimation, conjunctival congestion) and in part nociceptive (transient nasal, ocular, temporal burning) phenomena of CH, never has been able to provoke delayed spontaneous-CH like attacks. Such delayed provoked attacks, one of the most pregnant phenomena in CH investigations, are almost constantly evoked by systemic stimuli.(ABSTRACT TRUNCATED AT 400 WORDS)