Vertigo is a form of severe dizziness that can result in a loss of balance, a feeling of falling, trouble walking or standing, or nausea. There is more than one type of vertigo, each with a different cause, and sometimes requiring different treatment. Now a proof-of-concept study has found that video-oculography (VOG) goggles goggles that measure eye movements during an episode of vertigo may help more accurately diagnose which type of vertigo a person has, according to an announcement on the American Academy of Neurology’s (AAN) website. The study is published in the May 15, 2019, online issue of Neurology, the medical journal of the American Academy of Neurology.
“Vertigo can be a disabling condition, so an accurate diagnosis is important to effectively treat and stop the vertigo as soon as possible,” said study author Miriam S. Welgampola, MD, PhD, of the University of Sydney in Australia and a member of AAN. “Observing a person’s eye movements during an episode can help make the diagnosis, but people don’t always have an episode when they are at the doctor’s office.”
For the study, researchers gave participants a pair of VOG goggles that record the uncontrolled eye movements that accompany vertigo.
The study involved 117 people who had been previously diagnosed with one of three conditions that cause vertigo. Of the group, 43 people had Meniere’s disease, an inner ear disorder that can affect hearing and balance, 67 had vestibular migraine that can cause vertigo but may not cause a headache, and seven had benign paroxysmal positional vertigo, one of the most common causes of vertigo, where a person’s head movements trigger the episodes.
Researchers taught each participant how to use the goggles to record video of their eye movements at home whenever they had a vertigo episode. Eye movements that accompany vertigo are repetitive and uncontrolled, and the eyes can move side to side, up and down, or around in circles.
For the majority of people with Meniere’s disease who had fast horizontal eye movements, the goggles were able to diagnose the type of vertigo accurately with a sensitivity of 95% and a specificity of 82%. Sensitivity is the percentage of actual positives that are correctly identified as positive. Specificity is the percentage of negatives that are correctly identified. By comparison, audio tests for Meniere’s disease have both a sensitivity and specificity of 91%.
The patterns of eye movements were more mixed for those with vestibular migraine. However, up and down, repetitive, uncontrolled eye movements had a high specificity of 93% but a low sensitivity of 24%.
For those with benign paroxysmal positional vertigo, the sensitivity was 100% and the specificity was 78%.
“While further studies are needed in larger groups, providing people with a pair of goggles that they can easily use at home to record eye movement has the potential to help with vertigo diagnosis not only by a neurologist in a clinic, but also by physicians in an emergency room and physicians diagnosing patients remotely as well,” said Welgampola.
Limitations of the study include that some participants did not feel well enough to wear the goggles when experiencing vertigo. Additionally, others did not wear them when they thought their vertigo was too mild. Also, some medications taken for vertigo may have influenced eye movement.
More studies are needed in larger groups of people.
The study was supported by the Garnett Passe and Rodney Williams Memorial Foundation and the National Health and Medical Research Council of Australia (NHMRC). Learn more about the brain at BrainandLife.org, home of the American Academy of Neurology’s free patient and caregiver magazine focused on the intersection of neurologic disease and brain health.
Original Paper: Young AS, Lechner C, Bradshaw AP, et al. Capturing acute vertigo: A vestibular event monitor. Neurology. May 15, 2019. DOI: https://doi.org/10.1212/WNL.0000000000007644
Source: AAN, Neurology