Testing of study participants who wore head-mounted display systems (Google glasses) found that the glasses created a partial
peripheral1 vision
obstruction2, according to a study in the November 5 issue of JAMA. Interest in wearable head-mounted display systems for general consumers is increasing, with multiple models in production. However, their effect on vision is largely unknown. Peripheral visual field is a main
component3 of vision and essential for daily activities such as driving, pedestrian safety, and sports. Conventional spectacle frames can reduce visual field, sometimes causing absolute blind spots, and head mounted devices have even more pronounced frames, according to background information in the article.
Tsontcho Ianchulev, M.D., M.P.H., of the University of California, San Francisco, and colleagues compared performance on visual field tests with a head-mounted device vs regular eyewear to quantify their effect on visual function. Three healthy individuals with 20/20 best-corrected visual
acuity4 and normal baseline visual fields were tested in April 2014. Participants used a wearable device (Google Glass, Google Inc.), following manufacturer's instructions, for a 60-minute
acclimation5 period.
Perimetric6 visual testing (a measurement of the field of vision) was conducted first with the device, followed by a control frame (regular eyewear) of similar color and temple width.
In addition, to assess how the devices are worn by general consumers, photographs of people wearing the product and facing the camera, obtained from an Internet search, were
analyzed7. Photographs were assessed for prism position relative to the pupil.
Visual field testing demonstrated significant scotomas (blind spots) in all 3 participants while wearing the device, creating a clinically meaningful visual field obstruction in the upper right quadrant. Defects were induced by the Google Glass frame hardware design only and were not related to a distracting effect of software-related interference.