An analysis of real-world data from more than 1.2 million patients from health systems in four geographically dispersed states -- Indiana, Oregon, Texas and Utah -- conducted by the U.S. Centers for Disease Control and Prevention's VISION Network, has determined both the number of adults needed to be vaccinated to prevent one COVID-19 associated hospitalization and the number needed to be vaccinated to prevent one COVID-19 associated emergency department (ED) visit.
This study is one of the first, largest and most comprehensive studies to present clear measurement, by age groups, of how widespread vaccination needs to be to provide protection against serious and moderate disease in adults.
Preventing a hospitalization indicates that vaccination provided protection against severe disease. Preventing an ED visit indicates that vaccination provided protection against moderate disease.
"The number needed to be vaccinated or more technically, 'number needed to vaccinate,' comes from the related concept of 'number needed to treat' -- how many must be treated to avoid one bad outcome. One can think of number needed to treat or vaccinate as similar to how much gas you need, or how hard you need to push on the gas pedal to accelerate," said study co-author Shaun Grannis, M.D., M.S., Regenstrief Institute Vice President for Data and Analytics and the Regenstrief Professor of Medical Informatics at Indiana University of School of Medicine. "Knowing the number of patients who need to be vaccinated is a way of measuring how effective the vaccine is. The lower the number of patients needed to be vaccinated, the more effective the vaccine. If we can prevent more hospitalizations with fewer vaccinations, that's important to know.
"Knowing the number of patients needed to be vaccinated helps us plan on the volume of vaccine needed and the type of awareness and education that we want to provide. This number informs decision-making processes by public health officials, vaccine producers, health systems and others."
The study found that the number of patients needed to be vaccinated to prevent one COVID-19-associated hospitalization was higher than the number needed to vaccinate to prevent one COVID-19 associated ED visit, reflecting differences in outcome severity. These numbers were dependent on patient risk factors as well as local disease incidence.
The number needed to be vaccinated to prevent one COVID-19-associated hospitalization ranged from 44 to 615 (median was 205) individuals and was lower for adults aged 65 years or older and for those with underlying medical conditions. The number needed to be vaccinated decreased as the population became older because older individuals are more susceptible to the adverse effects of the virus and, therefore, the vaccine provides greater protection.
The number of patients needed to be vaccinated to prevent COVID-19-associated ED visits showed a different pattern because vaccines were more effective at preventing ED visits among younger adults than older ones. The median number needed to be vaccinated to prevent one ED visit ranged from 75 to 592 (median was 156) individuals.
Information from patients who had received either two or three mRNA vaccine doses was analyzed. None were immunocompromised. Data was from December 2021- February 2022, a period of Omicron BA.1 variant predominance.
"The reason why the number of patients needed to be vaccinated to prevent a COVID-19 related hospitalization is different from the number needed to prevent an ED (Emergency Department) visit is not fully understood, but it is likely because of how people seek healthcare. Many people, especially younger ones who lack health insurance or Medicare, are more likely to use the ED for primary healthcare. On the other hand, older people usually go to their regular doctor instead of going to the ED," Dr. Grannis observed.
"Number needed to vaccinate with a COVID-19 booster to prevent a COVID-19-associated hospitalization during SARS-CoV-2 Omicron BA.1 variant predominance, December 2021-February 2022, VISION Network: a retrospective cohort study" is published in The Lancet Regional Health–Americas.
Regenstrief Institute co-authors, in addition to Dr. Grannis, are Interim Director of the Center for Biomedical Informatics Brian Dixon, PhD, MPA; William F. Fadel, PhD and Nimish R. Valvi, DrPH. Peter Embí, M.D., former president of the Regenstrief Institute and current affiliated scientist, is also a co-author.
All authors and affiliations:
Katherine Adams, MPH1; John J. Riddles, M.S.2; Elizabeth A. K. Rowley, DrPH2; Shaun J. Grannis, M.D., M.S.3,4; Manjusha Gaglani, MBBS5,6; Bruce Fireman, M.A.7; Emily Hartmann, MPP8; Allison L. Naleway, PhD9; Edward Stenehjem, M.D., MSc10; Alexandria Hughes, PhD2; Alexandra F. Dalton, PhD1; Karthik Natarajan, PhD11,12; Kristin Dascomb, M.D., PhD10; Chandni Raiyani, BDS, MPH5; Stephanie A. Irving, MHS9; Chantel Sloan-Aagard, PhD8,13; Anupam B. Kharbanda, M.D.14; Malini B. DeSilva, M.D., MPH15; Brian E. Dixon, PhD, MPA3,16; Toan C. Ong, PhD17; Jean Keller, M.S.2; Monica Dickerson, B.S.1; Nancy Grisel, MPP10; Kempapura Murthy, MBBS, MPH5; Juan Nanez, R.N., BSN8; William F. Fadel, PhD3,16; Sarah W. Ball, ScD, MPH2; Palak Patel, MBBS, MPH1; Julie Arndorfer, MPH10; Mufaddal Mamawala, MBBS, MPH5; Nimish R. Valvi, DrPH15; Margaret M. Dunne, MSc2; Eric P. Griggs, MPH1; Peter J. Embi, M.D., M.S.3,18; Mark G. Thompson, PhD1; Ruth Link-Gelles, PhD1; and Mark W. Tenforde, M.D., PhD1.
1Centers for Disease Control and Prevention COVID-19 Response Team, Atlanta, Georgia; 2Westat, Rockville, Maryland; 3Center for Biomedical Informatics, Regenstrief Institute, Indianapolis, Indiana; 4School of Medicine, Indiana University, Indianapolis, Indiana; 5Baylor Scott & White Health, Temple, Texas; 6Texas A&M University College of Medicine, Temple, Texas;7Kaiser Permanente Vaccine Study Center, Kaiser Permanente Northern California Division of Research, Oakland; 8Paso del Norte Health Information Exchange (PHIX), El Paso, Texas; 9Center for Health Research, Kaiser Permanente Center for Health Research, Portland, Oregon; 10Division of Infectious Diseases and Clinical Epidemiology, Intermountain Healthcare, Salt Lake City, Utah; 11Department of Biomedical Informatics, Columbia University Irving Medical Center, New York, New York; 12New York-Presbyterian Hospital, New York; 13Brigham Young University Department of Public Health, Provo, Utah; 14Children's Minnesota, Minneapolis, Minnesota; 15HealthPartners Institute, Minneapolis, Minnesota; 16Fairbanks School of Public Health, Indiana University, Indianapolis; 17School of Medicine, University of Colorado Anschutz Medical Campus, Aurora; and 18Vanderbilt University Medical Center, Nashville, Tennessee.
About Shaun Grannis, M.D., M.S.
In addition to his role as the vice president for data and analytics at Regenstrief Institute, Shaun Grannis, M.D., M.S., holds the Regenstrief Chair in Medical Informatics and is a professor of family medicine at Indiana University School of Medicine.
About Regenstrief Institute
Founded in 1969 in Indianapolis, the Regenstrief Institute is a local, national and global leader dedicated to a world where better information empowers people to end disease and realize true health. A key research partner to Indiana University, Regenstrief and its research scientists are responsible for a growing number of major healthcare innovations and studies. Examples range from the development of global health information technology standards that enable the use and interoperability of electronic health records to improving patient-physician communications, to creating models of care that inform practice and improve the lives of patients around the globe.
Sam Regenstrief, a nationally successful entrepreneur from Connersville, Indiana, founded the institute with the goal of making healthcare more efficient and accessible for everyone. His vision continues to guide the institute's research mission.
About IU School of Medicine
IU School of Medicine is the largest medical school in the U.S. and is annually ranked among the top medical schools in the nation by U.S. News & World Report. The school offers high-quality medical education, access to leading medical research and rich campus life in nine Indiana cities, including rural and urban locations consistently recognized for livability.
