USC Roski Eye Institute researchers publish largest eye study among Chinese Americans identifying more effective ways to prevent and treat blinding eye diseases for this racial group
Key study findings include:
- Higher relative prevalence of treatable neovascular age-related macular degeneration (wet AMD) than other ethnic populations
- Three times higher prevalence of visual impairment among Chinese Americans with Type II diabetes compared to those without diabetes
Contact: Sherri Snelling at (949) 887-1903 or sherri.snelling@med.usc.edu
@USCEye | #USCEye ________________________________________________________________
LOS ANGELES — The University of Southern California (USC) Roski Eye Institute researchers and clinicians published the results of the National Eye Institute-funded “Chinese American Eye Study (CHES),” the largest ophthalmology study among those with Chinese ancestry living in the U.S. The findings, published in JAMA Ophthalmology, point to critical interventions in the prevention and treatment of blinding eye diseases, such as age-related macular degeneration and diabetic retinopathy (DR), among Chinese Americans.
Key findings of the CHES study point to a higher percentage (85 percent) of neovascular or “wet” AMD than geographic atrophy or “dry” AMD (15 percent). This is almost the opposite of what has been found in whites or other ethnic groups who typically have the same percentage of AMD types or higher prevalence of dry AMD. The study also found the prevalence of AMD is higher among Chinese Americans as compared to the Chinese population living in urban/rural China, suggesting the influence of environmental or behavioral factors should be considered. According to the National Eye Institute, part of the National Institutes of Health, AMD is the leading cause of vision loss affecting more than 2 million Americans. Primarily affecting central vision, the two types of AMD refers most often to those who receive a diagnosis after age 60.
The other substantial finding in the study is the participants with diabetes (17.4 percent) were three times more likely than those without the disease to have significant visual impairment. This increase was found in the Chinese American study participants with Type II diabetes who had cataracts or macular edema resulting in visual impairments. While 41 percent of these Chinese American study participants had DR, this is a lower percentage than has been reported among Chinese people living in rural China (46 percent) and Latinos living in Los Angeles (48 percent). As well, Chinese Americans were found to have a lower reported rate of DR than Chinese residing in rural Northern China, likely a result of their better access to diabetes screening and treatment.
Asian Americans are the fastest growing racial group in the U.S. and Chinese Americans are the largest segment of this population, according to the latest U.S. Census. Rohit Varma, MD, MPH, interim dean of the Keck School of Medicine of USC and director of the USC Roski Eye Institute, was the study’s principal investigator and one of the world’s leading experts in population based eye disease.
“This study sounds a clarion call for all eye care providers to be aware of the prevalence of wet AMD in those of Chinese ancestry and to provide the available treatments such as injections and laser therapies,” said Dr. Varma. “And while not as prevalent as we see in the Latino community, we also need to be aware of addressing those Chinese Americans with diabetes to prevent DR and the onset of significant visual impairment.”
Dr. Varma added that the treatments for wet AMD are aimed at blocking the growth of new abnormal blood vessels in the eye and are widely available as opposed to the lack of therapy options for dry AMD, a diagnosis that is typically treated through health lifestyle changes.
“The study gives us unprecedented insights into the burden of eye disorders among this fast growing racial group in the U.S. The findings will help inform preventive screening strategies and guide health care resource planning,” said Maryann Redford, D.D.S., M.P.H., a program director for Collaborative Clinical Research at NIH’s National Eye Institute (NEI).
The CHES study involved more than 4,500 Chinese Americans age 50 or older living in Monterey Park, Calif. Almost all (98 percent) of the study participants were first-generation immigrants. The participants underwent comprehensive eye exams and interviews to assess risk factors for AMD and DR, including lifestyle factors such as smoking and daily diet. Photographs of the inside of the eyes were taken to also detect signs of these eye diseases.
Dr. Varma is the principal investigator of many major National Institutes of Health (NIH)-funded studies, including the Los Angeles Latino Eye Study (LALES), Multi-Ethnic Pediatric Eye Diseases Study (MEPEDS), African-American Eye Disease Study (AFEDS) and the Chinese-American Eye Study (CHES). Additional findings from the CHES study analyzing cataracts, glaucoma and other visual impairments are forthcoming. The USC Roski Eye Institute is ranked in the Top 2 of the nation’s top grant recipients from the NEI and has achieved more than $32 million in annual grant funding.
About the USC Roski Eye Institute
The USC Roski Eye Institute, part of the Keck Medicine of USC university-based medical enterprise, has been a leader in scientific research and innovative clinical treatments for 40 years. Among the top two funded academic-based medical centers by the National Eye Institute (NEI) research grants and ranked in the Top 10 ophthalmology programs in U.S. News & World Report’s annual “Best Hospitals” issue for more than 20 years, the USC Roski Eye Institute is headquartered in Los Angeles with clinics in Arcadia, Beverly Hills and Pasadena.
Patients from across the country come to see the USC Roski Eye Institute experts who treat a comprehensive array of eye diseases across the life spectrum from infants to aging seniors. The USC Roski Eye Institute is known for its scientific research and clinical innovation including: creation of the Argus retinal prosthesis implant (also known as the “bionic eye”) for retinitis pigmentosa patients; stem cell therapies for those who have age-related macular degeneration; discovery of the gene that is the cause of the most common eye cancer in children; treatment for eye infections for AIDS patients; inventors of the most widely used glaucoma implant in the world; pioneers of a device for long-term intraocular drug delivery; and the first to use telesurgery to train eye doctors in developing countries. For more information visit: usceye.org.