Clinical Trial: Spectacle Tints and Thin-Films for Migraine

Study Status: Recruiting
Recruit Status: Recruiting
Study Type: Interventional

Official Title: Spectacle Tints and Thin-Films to Reduce Headache Frequency in Patients With Chronic Migraine

Brief Summary: Nearly all migraine sufferers report sensitivity to light during a headache and a significant proportion of sufferers report light sensitivity between attacks. Light is also a common trigger for migraine headaches. Spectacle lenses that have been treated with tints and spectacle lenses that have been treated with thin-films have both been shown to reduce light sensitivity and headache in patients with migraine. At this time, it is not clear which spectacle lens treatment is superior. The purpose of this trial is to determine if there's a significant, therapeutic advantage to either spectacle lens treatment. Both treatments could be a novel, non-invasive adjuvant in the treatment of migraine.

Detailed Summary:

Approximately 6% of men and 18% of women are afflicted with migraines. (Stovner et al., 2006) Over 90% of patients with migraines report a sensitivity to light (photophobia) during headaches. (Evans et al., 2008) Some migraine sufferers report that light can trigger a migraine and some have a chronic sensitivity to light (Main et al., 1997). Migraineurs are especially sensitive to non-incandescent lighting sources such as fluorescent lights, computer monitors, and gas-vapor lamps (Katz and Digre, 2016).

The pathway that mediates photophobia appears to involve intrinsically photosensitive retinal ganglion cells ("IPRGCs"; Hattar et al., 2002) and trigeminal afferents (Noseda et al., 2010; Digre and Brennan, 2012). These retinal cells do not require input from photoreceptors to be activated by light, and they have been shown to be responsible for circadian rhythm entrainment and the pupillary light reflex. As such, these cells constitute a pathway separate from that of the visual pathway (Güler et al., 2008). IPRGCs contain the chromophore melanopsin. In these cells, 480 nm light (in the blue-green portion of the visible spectrum) isomerizes melanopsin and triggers the phototransduction cascade. However, IPRGCs can also be stimulated by rods and cones. Thus, IPRGCs can be stimulated directly by 480-nm light or indirectly by any light in the visible spectrum.

In the present study, the investigators will use a neutral gray tint to decrease stimulation of the eye by all wavelengths in the visible spectrum. The investigators will compare this intervention to a thin-film spectacle coating designed to specifically block 480-nm light. The gray tint will decrease both direct and indirect stimulation of the IPRGCs by blocking all wavelengths of the visible spectrum. The 480-nm thin-film will specifically target direct
Sponsor: University of Utah

Current Primary Outcome: Headache frequency [ Time Frame: one month ]

proportion of days with at least one headache lasting at least 4 hours


Original Primary Outcome: Same as current

Current Secondary Outcome: Headache Impact [ Time Frame: one month ]

Headache impact as measured by the headache impact test (HIT-6)


Original Secondary Outcome: Same as current

Information By: University of Utah

Dates:
Date Received: March 21, 2016
Date Started: August 2016
Date Completion: October 2017
Last Updated: October 26, 2016
Last Verified: October 2016