Antibiotic resistance may be contributing to a trend in rising healthcare costs for infections associated with disease-causing bacteria that can live inside drinking water distribution systems, including household and hospital plumbing
BOSTON (September 12, 2016)—A new analysis of 100 million Medicare records from U.S. adults aged 65 and older reveals rising healthcare costs for infections associated with opportunistic premise plumbing pathogens—disease-causing bacteria, such as Legionella—which can live inside drinking water distribution systems, including household and hospital water pipes.
A team led by researchers from the Friedman School of Nutrition Science and Policy at Tufts University and Tufts University School of Medicine found that between 1991 and 2006, more than 617,000 hospitalizations related to three common plumbing pathogens resulted in around $9 billion in Medicare payments—an average of $600 million a year. The costs may now exceed $2 billion for 80,000 cases per year, write the study authors. Antibiotic resistance, which can be exacerbated by aging public water infrastructure, was present in between one and two percent of hospitalizations and increased the cost per case by between 10 to 40 percent.
The study was published online in the Journal of Public Health Policy on Sept. 12.
State and federal oversight has ensured generally safe and good quality public drinking water in the U.S. However, premise plumbing systems—the pipes and fixtures in homes and buildings that transport water after delivery by public water utilities—are largely unregulated, which can lead to inconsistent monitoring and reporting of potentially harmful deficiencies. This is highlighted by the ongoing crisis in Flint, Michigan, where a water source change, aging pipes, and lack of corrosion control not only exposed thousands of children to elevated lead levels in drinking water, but is also thought to have triggered an outbreak of Legionnaire’s disease that led to 10 deaths.
Opportunistic premise plumbing pathogens, such as the bacteria that causes Legionnaire’s disease, Legionella pneumophila, can thrive in low-nutrient conditions and grow as biofilms on the inner surfaces of pipes. Biofilms allow these pathogens to resist disinfectants and environmental stressors, and aid in the spread of antibiotic resistance and virulent genes. As water distribution systems age, their susceptibility to contamination increases. However, few large-scale studies have examined the economic and public health burden of these bacteria.
To investigate, Naumova and her colleagues analyzed 100 million medical claims from 1991 through 2006 from the US Centers for Medicare and Medicaid Services, which provides exhaustive coverage of Medicare beneficiaries aged 65 and older. The team focused on hospitalizations related to three opportunistic premise plumbing pathogens: Legionella pneumophila, Mycobacterium avium, and Pseudomonas aeruginosa, which can cause a range of serious respiratory, systemic, or localized infections, particularly in vulnerable populations such as the elderly or immunocompromised individuals.
Based on clinical diagnostic codes, reported cases for all three infections totaled 617,291, with the majority due to pneumonia caused by Pseudomonas and related bacteria (560,504). Legionnaire’s disease and Mycobacteria infections accounted for 7,933 and 48,854 cases respectively. On average, each hospitalization represented $45,840 in Medicare charges and $14,920 in payments. Antibiotic resistance, recorded in a little under two percent of cases, increased the average costs to $60,870 in Medicare charges and $16,690 in payments per case.
Over the past decade, the US Centers for Disease Control and Prevention reported a substantial increase in incidence of opportunistic premise plumbing pathogens, with Pseudomonas alone accounting for 51,000 hospitalizations per year with more than 6,000 multi-drug resistant infections in 2011. The annual costs for these pathogens may now exceed a total of $2 billion for more than 80,000 cases per year, as increased antibiotic resistance leads to greater hospital charges, longer lengths of stay, and increased risk of complications. Antibiotic resistance is likely underreported, and this number is a conservative estimate for the Medicare population based on the study findings and reported data on hospitalization costs per case, says Naumova.
The authors caution that their data cannot draw conclusions about the percentage of infections directly caused by contaminated water. The link between aging water distribution systems and drug resistance is highly plausible, but has yet to be firmly established, say the authors. However, this study highlights the need for improved surveillance systems and targeted investigations of water-related outbreaks in order to determine the direct link between water contamination and drug-resistant infection.
A 2010 report from the national Waterborne Disease and Outbreak Surveillance System, a partnership between the Centers for Disease Control, the Council of State and Territorial Epidemiologists, and the U.S. Environmental Protection Agency, urged serious attention to be paid to the growing proportion of outbreaks associated with premise plumbing deficiencies in public water systems. However, budgets for state and federal water regulators have decreased. In 2013, the Association of State Drinking Water Administrators reported that "federal officials had slashed drinking-water grants, 17 states had cut drinking-water budgets by more than a fifth, and 27 had cut spending on full-time employees," with "serious implications for states’ ability to protect public health.”
“The Flint Water Crisis revealed many unsolved social, environmental, and public health problems for US drinking water,” Naumova said. “Unfortunately, water testing for pathogens is not done routinely; furthermore, most water tests are not accessible, are too complicated, or are too costly. Well-controlled, experimental studies of the influence of microbial ecology, disinfectant type, pipe materials, and water age, on opportunistic pathogen occurrence and persistence are needed in order to establish their relationships to drug resistance.”
Additional authors on this study are Alexander Liss, M.B.A., Ph.D., postdoctoral fellow in the Department of Civil and Environmental Engineering in the School of Engineering at Tufts University, Jyotsna S. Jagai, M.S., M.P.H., Ph.D., assistant professor in the Division of Environmental and Occupational Health Sciences at the University of Illinois at Chicago, Irmgard Behlau, M.D., research assistant professor in the Department of Molecular Biology and Microbiology at Tufts University School of Medicine.
This study was in part supported by awards from the National Institute of Environmental Health Sciences (ES013171) and the National Institute of Allergy and Infectious Diseases (AI062627 and AI050032), both of the National Institutes of Health.
Naumova, EN, Liss, A, Jagai, JS, Behlau, I, Griffiths, JK, “Hospitalizations due to selected infections caused by opportunistic premise plumbing pathogens (OPPP) and reported drug resistance in the United States older adult population in 1991-2006,” Journal of Public Health Policy. 2016. DOI: 10.1057/s41271-016-0038-8
About the Friedman School of Nutrition Science and Policy
The Gerald J. and Dorothy R. Friedman School of Nutrition Science and Policy at Tufts University is the only independent school of nutrition in the United States. The school's eight degree programs – which focus on questions relating to nutrition and chronic diseases, molecular nutrition, agriculture and sustainability, food security, humanitarian assistance, public health nutrition, and food policy and economics – are renowned for the application of scientific research to national and international policy.
About Tufts University School of Medicine and the Sackler School of Graduate Biomedical Sciences
Tufts University School of Medicine and the Sackler School of Graduate Biomedical Sciences are international leaders in medical and population health education and advanced research. Tufts University School of Medicine emphasizes rigorous fundamentals in a dynamic learning environment to educate physicians, scientists, and public health professionals to become leaders in their fields. The School of Medicine and the Sackler School are renowned for excellence in education in general medicine, the biomedical sciences, and public health, as well as for innovative research at the cellular, molecular, and population health level. The School of Medicine is affiliated with six major teaching hospitals and more than 30 health care facilities. Tufts University School of Medicine and the Sackler School undertake research that is consistently rated among the highest in the nation for its effect on the advancement of medical and prevention science.