Green light reduces light sensitivity, headache severity in migraine sufferers

Exposing migraine sufferers to a narrow band of green light significantly reduces photophobia and can reduce headache severity.

Light sensitivity—known as photophobia—is a frequent symptom of those who suffer with migraine headaches. Recognizing this, researchers at Beth Israel Deaconess Medical Center (BIDMC; Boston, MA) has found that exposing migraine sufferers to a narrow band of green light significantly reduces photophobia and can reduce headache severity.

Five years ago, study lead author Rami Burstein, Ph.D., Vice Chair of Research in the Department of Anesthesia, Critical Care and Pain Medicine and Academic Director of the Comprehensive Headache Center at BIDMC, as well as the John Hedley-Whyte Professor of Anaesthesia at Harvard Medical School (HMS), and colleagues made the surprising discovery that blue light hurts migraine patients who are blind. This finding prompted the thinking that abnormal sensitivity to light during migraine could be alleviated by blocking blue light. However, because that study involved only blind patients who cannot detect all colors of light, Burstein and his colleagues devised a way to study the effects of different colors of light on headache in patients without visual impairment.

In this new study, Burstein and colleagues found that of all light to which migraine sufferers are exposed, a narrow band of green light worsens migraine significantly less than all other colors of light and that at low intensities green light can even reduce headache pain. The researchers asked patients experiencing acute migraine attacks to report any change in headache when exposed to different intensities of blue, green, amber, and red light. At high intensity of light (for example, in a well-lit office) nearly 80% of patients reported intensification of headache with exposure to all colors but green. Moreover, the researchers found that green light even reduced pain by about 20%.

To understand exactly why green light causes far less pain to patients with migraines, Burstein and colleagues designed experiments in which they measured the magnitude of the electrical signals generated by the retina (in the eye) and the cortex (in the brain) of these patients in response to each color of light. They found that blue and red lights generated the largest signals in both the retina and the cortex and that green light generated the smallest signals.

Next, applying innovative techniques recently developed by Rodrigo Noseda, Ph.D., also of BIDMC and Assistant Professor at HMS, they used animal models of migraine to study neurons in the thalamus, an area of the brain that transmits information about light from the eye to the cortex. These neurons were found to be most responsive to blue light and least responsive to green light, explaining why the migraine brain responds favorably to green light.

Burstein is now working to develop a more affordable light bulb that emits narrowband-wavelength green light at low intensity, as well as affordable sunglasses that block all but this narrow band of pure green light. Currently, the cost of one such light bulb is prohibitively high, and the technology to block all but pure green light in sunglasses is available only in light microscopy, which is also very costly.

Full details of the work appear in the journal Brain; for more information, please visit http://dx.doi.org/10.1093/brain/aww119.

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