Photo credit: Cassandra Thiel, PhDTransportation and fossil fuel industries typically come to mind as major sources of pollution. Less noticed is the contribution of the healthcare industry, which emits nearly 10 percent of greenhouse gases and other air pollutants in the United States and three percent in the United Kingdom.
Now, new research by faculty at NYU Langone Health, published online on December 6 in the Journal of Cataract and Refractive Surgery, finds that a healthcare center in India provides a model for environmental sustainability. Combining several techniques, Aravind Eye Care System in the south of India emitted 96 percent less carbon than the U.K. while producing comparable or better health outcomes for one of the world’s most common surgical procedures, cataract surgery.
Cataracts are the leading cause of blindness and visual impairment worldwide, so reducing the footprint of the procedure could make a significant difference, say the study authors.
“Our overuse of disposable materials in surgery is unsustainable,” says study leader Cassandra Thiel, PhD, assistant professor in the Department of Population Health at NYU Langone. “Ophthalmologists and other medical specialists should seek ways to reduce material use and emissions in medical procedures. This center in India can serve as a model.”
How One Hospital in India Slashed Emissions
Photo credit: Cassandra Thiel, PhDFrom November 2014 through February 2015, the researchers analyzed surgical materials, energy, and waste from cataract surgery, calculating their greenhouse gas emissions, as well as emissions related to ozone depletion, water eutrophication, toxicity, and air pollutants. For the same procedure, the authors found that Aravind emitted just four percent of the emissions of a comparable operation in U.K.
Specifically, Aravind’s emissions per surgery amounted to 6 kilograms of carbon dioxide equivalent compared to 160 kilograms of carbon dioxide equivalent in the U.K. The authors draw a comparison of driving just 14 miles, compared to 391 miles. The authors believe proportions would be similar, if not greater in the U.S.
Practices at Aravind that made the most difference were shorter surgery durations; better reuse of surgical gowns, caps, booties, and blankets; multiuse pharmaceuticals; and more efficient sterilization of stainless steel instruments, so they can be reused the same day.
What High-Income Countries Can Learn
Aravind’s advances come as India seeks to end preventable blindness—a goal of the World Health Organization Vision 2020 initiative—by doubling its current cataract surgical rate.
If India’s ophthalmologists used the U.K.’s current surgical methods to achieve its goal, it would emit the same greenhouse gases as 250,000 passenger vehicles’ yearly mileage, say the study's authors. However, if India employed Aravind’s approach, it would emit the same greenhouse gases as only 9,000 passenger vehicles.
“As healthcare systems and professionals worldwide become more aware of and concerned for the public health implications of climate change and excessive resource use, efficient care delivery models must be better understood and promoted,” says Dr. Thiel.
“Aravind’s model for surgery—its use of reusable instruments, energy-efficient appliances and air handling systems, and investment in low-carbon energy sources—serves as an example of more sustainable, efficient cataract surgery,” adds senior author Joel S. Schuman, MD, chair of the Department of Ophthalmology at NYU Langone Health.
Along with Dr. Thiel and Dr. Schuman, the study authors are Emily Schehlein, Alan L. Robin, MD, and Osamah J. Saeedi, MD, of University of Maryland Medical Center; and Thulasiraj Ravilla, R.D. Ravindran, MD, and Rengaraj Venkatesh, MD, of Aravind Eye Care System. The study was funded by a Fulbright-Nehru Academic and Professional Excellence Award administered by the United States–India Educational Foundation. Dr. Saeedi is supported by a National Institutes of Health Career Development Grant K23 EY025014. The sponsor or funding organization had no role in the design, conduct, or reporting of this research.