Epidemiology of Nontuberculous Mycobacteriosis

Adjemian, Jennifer; Daniel-Wayman, Shelby; Ricotta, Emily; Prevots, D. Rebecca

doi:10.1055/s-0038-1651491

Cited by 74 publications

(29 citation statements)

References 77 publications

(131 reference statements)

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“…Further, many identified predictors of receiving a mycobacterial culture test are consistent with predictors of positivity, as identified in this and previous studies. This finding suggests that tests are being successfully focused toward groups such as older women and Asians that are at high risk for culture positivity (1).…”

Section: Discussionmentioning

confidence: 98%

“…Nontuberculous mycobacteria (NTM) are opportunistic environmental pathogens that can cause chronic lung disease ( 1 , 2 ). NTM are identified through laboratory testing for acid-fast bacilli, which test for all mycobacteria, including Mycobacterium tuberculosis .…”

mentioning

confidence: 99%

“…NTM are identified through laboratory testing for acid-fast bacilli, which test for all mycobacteria, including Mycobacterium tuberculosis . Multiple studies have described increasing NTM pulmonary disease (NTM PD) prevalence in the United States ( 1 , 3 – 6 ), a phenomenon that might be caused by true increase in disease rates, new efficient testing technologies, increased mycobacterial testing, or any combination of those. We assessed trends in mycobacterial testing rates and NTM PD prevalence from 2009 through 2015.…”

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confidence: 99%

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Mycobacterial Testing Trends, United States, 2009–20151

Dean¹,

Ricotta²,

Fintzi³

et al. 2020

Emerg. Infect. Dis.

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N ontuberculous mycobacteria (NTM) are opportunistic environmental pathogens that can cause chronic lung disease (1,2). NTM are identified through laboratory testing for acid-fast bacilli, which test for all mycobacteria, including Mycobacterium tuberculosis. Multiple studies have described increasing NTM pulmonary disease (NTM PD) prevalence in the United States (1,3-6), a phenomenon that might be caused by true increase in disease rates, new efficient testing technologies, increased mycobacterial testing, or any combination of those. We assessed trends in mycobacterial testing rates and NTM PD prevalence from 2009 through 2015. We also analyzed factors associated with differential testing rates and prevalence across subpopulations. The Study The population for our study comprised persons whose medical encounters were represented in the Cerner HealthFacts Electronic Health Record database (https://sc-ctsi.org/resources/cerner-healthfacts). We extracted microbiological, demographic, and clinical data for all patient encounters at 31 facilities across the United States that continually reported microbiological data (Appendix, https://wwwnc. cdc.gov/EID/article/26/9/20-0749-App1.pdf) and that speciated mycobacterial culture results from 2009 through 2015. We included only microbiology data collected from pulmonary body sites and that used the words "AFB" and "culture" in the testing description (i.e., mycobacterial culture tests). For analyses of mycobacterial culture testing and pathogenic NTM culture positivity rates (Appendix), we used the number of unique inpatients and outpatients at the 31 facilities as the population denominator. To estimate mycobacterial culture testing trends, we used Poisson regression models fit through quasilikelihood methods, which enable overdispersion (7). We analyzed trends within the overall study population and subpopulations stratified by age, sex, race/ethnicity, concurrent conditions, facility size, region, and facility teaching status. To identify variables associated with the odds of mycobacterial culture testing per facility encounter and the odds of pathogenic NTM culture positivity per facility encounter, we fit 2 mixed-effect logistic regression models to the data. We adjusted these models for patient age, sex, interactions between age and sex, race/ethnicity, teaching facility status, facility census region, encounter year, and whether the patient had a pulmonary computed tomographic scan or radiograph during the study period. The following concurrent conditions have been associated with a higher risk for NTM PD and were included as predictors in the model: bronchiectasis (4,8), chronic obstructive pulmonary disease (4,8), cystic fibrosis (CF) (9), lung cancer (4,5,8), and rheumatoid arthritis (8). We included deidentified patient number as a random effect to account for clustering among an individual patient's multiple encounters. Persons with mycobacterial culture tests were older and had more concurrent conditions than the overall population in the 31 study facilities...

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Section: Discussionmentioning

confidence: 98%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Mycobacterial Testing Trends, United States, 2009–20151

Dean¹,

Ricotta²,

Fintzi³

et al. 2020

Emerg. Infect. Dis.

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“…Although some mycobacterial species may cause other forms of disease, such as cutaneous infections, in this review, we will focus mainly on pulmonary disease. The exact numbers are difficult to find, as in most countries, the reporting of infections by NTM is not mandatory [5][6][7]. According to the available data, the incidence of disease varies considerably with NTM species, geographic distribution, sex, race/ethnicity, age, and risk factors (e.g., concomitant debilitating diseases).…”

Section: Epidemiologymentioning

confidence: 99%

“…Women are at higher risk of infection, alongside people with Asian ancestry and from the Southern United States, such as Hawaii [8,9]. Species of the M. avium complex (MAC) are the most common causes of NTM infections and are mainly responsible for the observed increase in disease incidence [3,5,6,10]. Their resistance to antibiotics is growing; therefore, the treatment used today is a multidrug therapy comprising at least three antibiotics, with treatments taking from six months to years.…”

Section: Epidemiologymentioning

confidence: 99%

Looking beyond Typical Treatments for Atypical Mycobacteria

2020

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The genus Mycobacterium comprises not only the deadliest of bacterial pathogens, Mycobacterium tuberculosis, but several other pathogenic species, including M. avium and M. abscessus. The incidence of infections caused by atypical or nontuberculous mycobacteria (NTM) has been steadily increasing, and is associated with a panoply of diseases, including pulmonary, soft-tissue, or disseminated infections. The treatment for NTM disease is particularly challenging, due to its long duration, to variability in bacterial susceptibility profiles, and to the lack of evidence-based guidelines. Treatment usually consists of a combination of at least three drugs taken from months to years, often leading to severe secondary effects and a high chance of relapse. Therefore, new treatment approaches are clearly needed. In this review, we identify the main limitations of current treatments and discuss different alternatives that have been put forward in recent years, with an emphasis on less conventional therapeutics, such as antimicrobial peptides, bacteriophages, iron chelators, or host-directed therapies. We also review new forms of the use of old drugs, including the repurposing of non-antibacterial molecules and the incorporation of antimicrobials into ionic liquids. We aim to stimulate advancements in testing these therapies in relevant models, in order to provide clinicians and patients with useful new tools with which to treat these devastating diseases.

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Airborne and Emerging Infectious Diseases

Chiang

Palmore

2021

Patty's Industrial Hygiene

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Airborne transmission of infections pathogens can occur in a wide range of occupational settings. Tuberculosis is a particular concern for personnel in health care and allied fields. The risk from exposure to infectious aerosols or droplet nuclei depends in part on characteristics of the source, the pathogen, and the aerosol droplets, as well as host susceptibility. The movement of infectious droplets is determined by their size and the flow of air. Many pathogens that are not classically airborne can be transmitted via aerosols under certain circumstances. Special consideration should be given to workers with immune impairment, who may be at higher risk of infection. Emerging pathogens that are not airborne but have had recent and significant public health consequences are also discussed.

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Epidemiology of Nontuberculous Mycobacteriosis

Cited by 74 publications

References 77 publications

Mycobacterial Testing Trends, United States, 2009–20151

Mycobacterial Testing Trends, United States, 2009–20151

Looking beyond Typical Treatments for Atypical Mycobacteria

Airborne and Emerging Infectious Diseases

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