Volume 24, Number 3—March 2018
Global Health Estimate of Invasive Mycobacterium chimaera Infections Associated with Heater–Cooler Devices in Cardiac Surgery
Invasive Mycobacterium chimaera infection associated with heater–cooler devices (HCDs) in cardiac surgery was identified as a new disease entity in 2014 (1). The most likely pathogenesis involves aerosols transmitted from the HCD to the patient during surgery (2). As of September 2017, ≈120 cases have been recognized globally; mycobacterial device contamination at the manufacturing site of the LivaNova 3T (LivaNova, London, UK), the HCD market leader, seems to represent the most likely point source for the outbreak (3,4). The incubation period after exposure is long, with a median of 17 months (range 3–72 months). Signs and symptoms are generally nonspecific and include fatigue, fever, and weight loss. There is no established therapy, and the case-fatality rate is ≈50% (3,5). The disease appears to be rare and most commonly affects patients after valve replacement or other implant procedures in open heart surgery. Currently, the extent of the epidemic is unknown. We aimed to estimate the global epidemiology of disseminated M. chimaeradisease associated with open heart surgery. The study followed the Guidelines for Accurate and Transparent Health Estimates Reporting (6).
Switzerland was the leading country in recognizing and researching the global outbreak of M. chimaera disease associated with open heart surgery (1,2,5,7,8). This recognition included early establishment of a nationwide interdisciplinary expert group consisting of hospital epidemiologists, infectious disease physicians, cardiac surgeons, perfusionists, microbiologists, and consultants from the Swiss Agency for Therapeutic Products and the Federal Office of Public Health (collectively called the Swiss Chimaera Taskforce). This expert group has issued nationwide recommendations on case definition, lookback mechanisms, and infection prevention measures and releases updates on proven cases (9,10). We identified cases for our study through review of clinical and microbiological data, based on a previously published case series (7) and on reports to the Swiss Chimaera Taskforce. A proven case was defined as a case in a patient with previous open heart surgery, including implant surgery, and the subsequent detection of the M. chimaera outbreak strain from a sterile site.
Valve Replacements and HCDs in Use
Data on annual valve replacements performed during 2008–2016 were available from the Swiss National Registry for Cardiac Surgery. We report aggregated data for mitral and aortic valves. Currently active HCDs with the reporting date of January 15, 2015, were submitted via an electronic spreadsheet to the Swiss Chimaera Taskforce.
We obtained data on demographic development from the Swiss Federal Office of Statistics (11). By applying a linear regression model, we determined estimates of the annual prevalence per 1,000 valve replacement procedures for index surgeries from 2008 (the presumed beginning of the outbreak) through 2014 (taking the latency of disease manifestation into account). Likewise, we calculated the yearly incidence of detected cases per 1,000,000 inhabitants from 2011 (the year of the first diagnosed case) through 2016. We determined best fit values and 95% CIs.
We identified 11 proven cases during January 2008–September 2017 (Figure, panel A). The number of annual valve replacement procedures increased from 1,632 in 2008 to 2,581 in 2016. During the same period, the population of Switzerland increased from 7,593,494 to 8,327,126 (Table). The annual estimated incidence of proven cases per 1 million inhabitants increased from 0.16 (95% CI 0–0.37) in 2011 to 0.25 (95% CI 0.05–0.45) in 2016 (p = 0.49). The prevalence per 1,000 valve replacement surgeries increased from 0.52 (95% CI 0–1.41) in 2008 to 0.94 (95% CI 0.05–1.83) in 2014 (p = 0.49; Figure, panel B). The LivaNova 3T was the predominant HCD, in use by 15 of 18 reporting cardiac surgery centers in Switzerland as of January 15, 2015, with 28 of 44 HCDs in use (64%). This rate is comparable with the worldwide LivaNova 3T market share of 70% (3).
The prevalence we found is similar to that in a previously published report of a relatively crude estimation (12) and about 4 to 7 times higher than a UK study based on national laboratory and hospital admissions data (13). The difference from the UK study can be explained by the active case detection strategy in Switzerland, compared with the laboratory investigation in the United Kingdom (10,13).
The risk for M. chimaera in patients undergoing heart surgery is similar to the risks for more widely known diseases such as parathyroid carcinoma (0.2/million/y), adrenal carcinoma (0.3/million/y), and congenital rubella syndrome (0.3/million/y) (14) that draw more attention but may have a smaller preventable proportion.
Considering an estimated 300,000 global annual valve replacement surgeries in the 10 major market countries and a US population of 323 million (12,15), we can extrapolate our findings to an annual incidence of 156–282 cases for the 10 major valve replacement markets and 51–80 cases in the United States alone. The currently known cases of invasive M. chimaera disease related to valve replacement reported from around the globe (n ≈ 120) are well below our estimate (3,4). Many countries in Europe did not report cases during the past few years, which is likely due to underreporting or underdiagnosing (3,4).
The study has limitations. Invasive M. chimaera is not a mandatory reportable disease in Switzerland. However, the small size of the country and the close collaboration of the Swiss Chimaera Taskforce with the professional societies, as well as the broad coverage of the outbreak in television and newspapers, decreases the likelihood of underreporting. In addition, the Swiss National Center for Mycobacteria in Zurich receives most, if not all, strains for confirmation. As demonstrated previously, some patients may still be misinterpreted as having a rheumatologic disease (7), a potential reason for reporting bias. With valve replacement surgery as the denominator, we may overestimate the incidence/prevalence of invasive M. chimaera, as it is possible that some cases resulted from a procedure other than valve replacement surgery. All cases in Switzerland were associated with valve replacement surgery, however. Furthermore, many factors may influence incidence/prevalence on a global level, such as the predominant HCD brands in use, the degree of mycobacterial contamination of these HCDs, the built hospital environment, positioning in the operating room, and the number and type of cardiac surgery procedures performed. Infection after HCD exposure is likely to be unevenly distributed and may be quite high in 1 hospital but near zero in a nearby hospital, even though each hospital uses the implicated HCD. It is essential to investigate this variability and understand the relative contribution of some of these variables to the risk of infection. Nevertheless, it is likely that the aggregated risk derived from these factors is similar across national healthcare systems.
In summary, our data provide an estimate of the global burden of M. chimaera associated with open heart surgery, enabling policy makers to guide actions and to decrease the risk for transmission from HCDs. Our data suggest implementation of systematic lookback approaches in each country where LivaNova 3T HCDs have been used to optimize case finding. In addition, countries may consider mandatory reporting of invasive nontuberculous mycobacterial infections.
Dr. Sommerstein is an internal medicine and infectious diseases specialist at the Department of Infectious Diseases, Bern University Hospital, Bern, Switzerland. His research interests focus on interactions among hosts, pathogens, and the environment.
Additional members of the Swiss Chimaera Taskforce are Jolanda Consiglio, Samuel Erny, Céline Gardiol, Achim Häussler, Peter M. Keller, Daniel Koch, Virginie Masserey, Rafael Moreno, Bettina Schulthess, and Markus Wälti.
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TableCite This Article
1Additional members of the Swiss Chimaera Taskforce are listed at the end of this article.