Nontuberculous mycobacteria (NTM), also known as environmental mycobacteria, atypical mycobacteria[1] and mycobacteria other than tuberculosis (MOTT), are mycobacteria which do not cause tuberculosis or leprosy (also known as Hansen's disease). NTM do cause pulmonary diseases that resemble tuberculosis.[2] Mycobacteriosis is any of these illnesses, usually meant to exclude tuberculosis. They occur in many animals, including humans.
Introduction
Mycobacteria are a family of small, rod-shaped bacilli that can be classified into 3 main groups for the purpose of diagnosis and treatment:
- Mycobacterium tuberculosis complex which can cause tuberculosis: M. tuberculosis, M. bovis, M. africanum, M. microti and M. canetti.
- M. leprae and M. lepromatosis which cause Hansen's disease, also called leprosy.
- Nontuberculous mycobacteria (NTM) are all the other mycobacteria which can cause pulmonary disease resembling tuberculosis, lymphadenitis, skin disease, or disseminated disease. Although over 150 different species of NTM have been described, pulmonary infections are most commonly due to Mycobacterium avium complex (MAC), Mycobacterium kansasii, and Mycobacterium abscessus (see image).
Taxonomy
In 1959, botanist Ernest Runyon put these human disease-associated bacteria into four groups (Runyon classification):[3]
- Photochromogens, which develop pigments in or after being exposed to light. Examples include M. kansasii, M. simiae and M. marinum.[3]
- Scotochromogens, which become pigmented in darkness. Examples include M. scrofulaceum and M. szulgai.[3]
- Non-chromogens, which includes a group of prevalent opportunistic pathogens called M. avium complex (MAC). Other examples are M. ulcerans, M. xenopi, M. malmoense, M. terrae, M. haemophilum and M. genavense.[4]
- Rapid growers include four well recognized pathogenic rapidly growing non-chromogenic species: M. chelonae, M. abscessus, M. fortuitum and M. peregrinum. Other examples cause disease rarely, such as M. smegmatis and M. flavescens.[4]
The number of identified and cataloged NTM species has been increasing rapidly, from about 50 in 1997 to over 125 by January 2007. The surge is mainly due to improved isolation and identification technique.[5]
However, even with these new techniques, the Runyon classification is still sometimes used to organize the mycobacteria into categories.[6]
Epidemiology
NTM are widely distributed in the environment, particularly in wet soil, marshland, streams, rivers and estuaries. Different species of NTM prefer different types of environment.[7] Human disease is believed to be acquired from environmental exposures. Unlike tuberculosis and leprosy, animal-to-human or human-to-human transmission of NTM rarely occurs.[8]
NTM diseases have been seen in most industrialized countries, where incidence rates vary from 1.0 to 1.8 cases per 100,000 persons. Recent studies, including one done in Ontario, Canada, suggest that incidence is much higher. Pulmonary NTM is estimated by some experts in the field to be at least ten times more common than TB in the U.S., with at least 150,000 cases per year.
Most NTM disease cases involve the species known as Mycobacterium avium complex or MAC for short, M. abscessus, M. fortuitum and M. kansasii. M. abscessus is being seen with increasing frequency and is particularly difficult to treat.[9]
Mayo Clinic researchers found a three-fold increased incidence of cutaneous NTM infection between 1980 and 2009 in a population-based study of residents of Olmsted County, Minnesota. The most common species were M. marinum, accounting for 45% of cases and M. chelonae and M. abscessus, together accounting for 32% of patients.[10] M. chelonae infection outbreaks, as a consequence of tattooing with infected ink, have been reported in the United Kingdom[11] and the United States.[12]
Rapidly growing NTMs are implicated in catheter infections, post-LASIK, skin and soft tissue (especially post-cosmetic surgery) and pulmonary infections.[13]
Pathogenesis
The most common clinical manifestation of NTM disease is lung disease, but lymphatic, skin/soft tissue, and disseminated disease are also important.[9]
Pulmonary disease caused by NTM is most often seen in post-menopausal women and patients with underlying lung disease such as cystic fibrosis, bronchiectasis, and prior tuberculosis. It is not uncommon for alpha 1-antitrypsin deficiency, Marfan syndrome and primary ciliary dyskinesia patients to have pulmonary NTM colonization and/or infection. Pulmonary NTM can also be found in individuals with AIDS and malignant disease. It can be caused by many NTM species which depends on region, but most frequently MAC and M. kansasii.[14]
Clinical symptoms vary in scope and intensity but commonly include chronic cough, often with purulent sputum. Hemoptysis may also be present. Systemic symptoms include malaise, fatigue, and weight loss in advanced disease.[15] The diagnosis of M. abscessus pulmonary infection requires the presence of symptoms, radiologic abnormalities, and microbiologic cultures.
Lymphadenitis can be caused by various species that is different from one place to another; but again, MAC is the main cause worldwide. Most patient are aged less than 5 years, but the incidence is rare for children having BCG vaccine. The disease has a high curability.[16]
Soft tissue disease due to NTM infection include post-traumatic abscesses (caused by rapid growers), swimming pool granuloma (caused by M. marinum) and Buruli ulcer (caused by M. ulcerans or M. shinshuense). Post-traumatic abscesses most commonly occur after injection.[16]
Disseminated mycobacterial disease was common in US and European AIDS patients in the 1980s and early 1990s, though the incidence has declined in developed nations since the introduction of highly active antiretroviral therapy. It can also occur in individuals after having renal transplantation.[14]
Diagnosis
A) Neck and chest of a 53-year-old woman 14 days after fractionated CO2 laser resurfacing, showing Nontuberculous Mycobacterial infection B) Neck of the patient after 5 months of multidrug therapy and pulsed dye laser treatment.
Diagnosis of opportunistic mycobacteria is made by repeated isolation and identification of the pathogen with compatible clinical and radiological features. Similar to M. tuberculosis, most nontuberculous mycobacteria can be detected microscopically and grow on Löwenstein-Jensen medium.[14] Many reference centres now use a nucleic acid-based method such as sequence differences detection in the gene coding for 16S ribosomal RNA to identify the species.[7]
Pulmonary NTM disease diagnosis requires both identification of the mycobacterium in the patient's lung(s) as well as a high resolution CT scan of the lungs.
Research
French researchers finalized the genome sequence of M. abscessus in March 2008. The genome is available at https://www.ncbi.nlm.nih.gov/sites/entrez?db=genome&cmd=search&term=abscessus.
Notes
- ^ Nontuberculous Mycobacteria at the US National Library of Medicine Medical Subject Headings (MeSH)
- ^ American Thoracic Society (1997). "Diagnosis and treatment of disease caused by nontuberculous mycobacteria. This official statement of the American Thoracic Society was approved by the Board of Directors, March 1997. Medical Section of the American Lung Association". American Journal of Respiratory and Critical Care Medicine. 156 (2 Pt 2): S1–25. doi:10.1164/ajrccm.156.2.atsstatement. PMID 9279284.
- ^ a b c Grange, p. 221
- ^ a b Grange, p. 222
- ^ American Thoracic Society, p.369
- ^ Tortoli E (April 2003). "Impact of genotypic studies on mycobacterial taxonomy: the new mycobacteria of the 1990s". Clinical Microbiology Reviews. 16 (2): 319–54. doi:10.1128/CMR.16.2.319-354.2003. PMC 153139 . PMID 12692101.
- ^ a b Grange, p. 226
- ^ Bryant, Josephine M; Grogono, Dorothy M; Greaves, Daniel; Foweraker, Juliet; Roddick, Iain; Inns, Thomas; Reacher, Mark; Haworth, Charles S; Curran, Martin D (2013-05). "Whole-genome sequencing to identify transmission of Mycobacterium abscessus between patients with cystic fibrosis: a retrospective cohort study". The Lancet. 381 (9877): 1551–1560. doi:10.1016/s0140-6736(13)60632-7. ISSN 0140-6736. PMC 3664974 . PMID 23541540.
- ^ a b American Thoracic Society, p. 370
- ^ Wentworth, A.B.; Drage L.A.; Wengenack N.L.; Wilson J.W.; Lohse C.M. (4 December 2012). "Increased Incidence of Cutaneous Nontuberculous Mycobacterial Infection, 1980 to 2009: A Population-Based Study". Mayo Clinic Proceedings. 88 (1): 38–45. doi:10.1016/j.mayocp.2012.06.029. PMC 3690780 . PMID 23218797.
- ^ Sergeant, A.; Conaglen P.; Laurenson I.F.; Claxton P.; Mathers M.E.; Kavanagh G.M.; Tidman M.J. (25 July 2012). "Mycobacterium chelonae infection: a complication of tattooing". Clinical and Experimental Dermatology. 38 (2): 140–2. doi:10.1111/j.1365-2230.2012.04421.x. PMID 22831709.
- ^ Centers for Disease Control and Prevention (CDC) (24 August 2012). "Tattoo-associated nontuberculous mycobacterial skin infections--multiple states, 2011-2012". CDC - Morbidity and Mortality Weekly Report (MMWR). 61 (33): 635–6. PMID 22914227.
- ^ De Groote, MA and Huitt G. Infections due to Rapidly Growing Mycobacteria. Clinical Infectious Diseases 2006;42:1756–1763.
- ^ a b c Grange, p. 225
- ^ Johnson & Odell (2014); Nontuberculous mycobacterial pulmonary infections. J Thorac Dis.; 6(3): 210–220. PMC 3949190
- ^ a b Grange, p. 223
References
- Griffith David E.; Aksamit Timothy; Brown-Elliott Barbara; et al. (2007). "American Thoracic Society Guidelines: Diagnosis, Treatment and Prevention of Nontuberculous Mycobacterial Diseases". Am. J. Respiratory and Critical Care Medicine. 175 (4): 367–417. doi:10.1164/rccm.200604-571st. PMID 17277290.
- New BTS Guideline has been published in 2017, https://www.brit-thoracic.org.uk/standards-of-care/guidelines/bts-guidelines-for-non-tuberculous-mycobacteria/
- Grange, J. M. (2007). "Environmental mycobacteria". In Greenwood, David; Slack, Richard; Peitherer, John; & Barer, Mike (Eds.), Medical Microbiology (17th ed.), pp. 221–227. Elsevier. ISBN 978-0-443-10209-7.
- Deppisch C et al. (2016). Gaseous nitric oxide to treat antibiotic resistant bacterial and fungal lung infections in patients with cystic fibrosis: a phase I clinical study. Infection. 44(4):513-20. pmid= 26861246.
- Meng-Rui Lee et al., (2015). Mycobacterium abscessus Complex Infections in Humans. Emerg Infect Dis.; 21(9): 1638–1646. PMC 4550155.
External links
- The NTM Handbook: A Guide for Patients with Nontuberculous Mycobacterial Infections Including MAC
- NTM Info & Research, a nonprofit research and patient support organization
- NTMinfo produced this 21-page PDF entitled "Insight -- A Patient's Perspective" and vetted by experts in 2014
- Stop NTM Now
- National Jewish Medical and Research Center
- University of Texas, Tyler Health Center
- Lung, Nontuberculous Mycobacterial Infections from eMedicine Radiology
- A guide for patients and clinicians - AIT Therapeutics
Gram-positive bacterial infection: Actinobacteria (primarily A00–A79, 001–041, 080–109) |
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Actinomycineae | Actinomycetaceae |
- Actinomyces israelii
- Actinomycosis
- Cutaneous actinomycosis
- Tropheryma whipplei
- Arcanobacterium haemolyticum
- Arcanobacterium haemolyticum infection
- Actinomyces gerencseriae
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Propionibacteriaceae | |
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|
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Corynebacterineae | Mycobacteriaceae | M. tuberculosis/ M. bovis |
- Tuberculosis: Ghon focus/Ghon's complex
- Pott disease
- brain
- Tuberculous lymphadenitis
- Tuberculous cervical lymphadenitis
- cutaneous
- Scrofuloderma
- Erythema induratum
- Lupus vulgaris
- Prosector's wart
- Tuberculosis cutis orificialis
- Tuberculous cellulitis
- Tuberculous gumma
- Lichen scrofulosorum
- Tuberculid
- Papulonecrotic tuberculid
- Primary inoculation tuberculosis
- Miliary
- Tuberculous pericarditis
- Urogenital tuberculosis
- Multi-drug-resistant tuberculosis
- Extensively drug-resistant tuberculosis
|
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M. leprae |
- Leprosy: Tuberculoid leprosy
- Borderline tuberculoid leprosy
- Borderline leprosy
- Borderline lepromatous leprosy
- Lepromatous leprosy
- Histoid leprosy
|
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Nontuberculous | R1: | |
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R2: | |
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R3: |
- M. avium complex/Mycobacterium avium/Mycobacterium intracellulare/MAP
- M. ulcerans
- M. haemophilum
|
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R4/RG: |
- M. fortuitum
- M. chelonae
- M. abscessus
|
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|
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|
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Nocardiaceae |
- Nocardia asteroides/Nocardia brasiliensis
- Rhodococcus equi
|
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Corynebacteriaceae |
- Corynebacterium diphtheriae
- Corynebacterium minutissimum
- Corynebacterium jeikeium
- Group JK corynebacterium sepsis
|
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|
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Bifidobacteriaceae | |
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Mycobacteria (including Nontuberculous) |
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Slowly growing (R1P=photochromogenic; R2S=scotochromogenic; R3N=nonchromogenic) | Long helix 18 (TKHGC) | M. tuberculosis group |
- MTC
- M. tuberculosis
- M. bovis
- M. africanum
- M. microti
- M. canetti
- M. caprae
- M. pinnipedii
- MPM
- R1P
- M. marinum
- R2S
- M. pseudoshottsii
- R3N
- M. ulcerans
- M. shottsii
- M. ulcerans liflandii
- Leprosy
- M. leprae
- M. lepraemurium
- M. lepromatosis
- R3N
- other
- M. lacus
- M. kumamotonense
|
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K/H groups | M. kansasii group |
- MAC
- R3N
- M. intracellulare/M. avium
- M. avium subspecies paratuberculosis
- M. chimaera
- R2S
- M. bohemicum
- GK
- R1P
- M. kansasii
- R3N
- M. gastri
- R2S
- M. nebraskense
- M. seoulense
- R3N
- M. scrofulaceum
|
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M. haemophilum group | |
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|
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M. gordonae group | |
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M. conspicuum group | |
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|
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Long helix 18 (other) | M. xenopi group |
- M. botniense
- M. shimoidei/M. xenopi
- M. heckeshornense
- M. hassiacum
|
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M. celatum group | |
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M. hiberniae group |
- M. terrae
- M. hiberniae
- M. nonchromogenicum/M. arupense
|
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|
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Short helix 18 | M. simiae clade |
- M. simiae group
- R3N
- M. genavense/M. triplex
- M. florentinum/M. montefiorense
- M. heidelbergense/M. parmense
- M. simiae
- R2S
- M. lentiflavum
- M. kubicae group
- R3N
- M. parascrofulaceum
- R2S
- M. palustre/M. kubicae
- M. interjectum group
- M. interjectum
- M. saskatchewanense
|
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M. intermedium group | |
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|
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Ungrouped |
- M. triviale
- M. doricum
- M. tusciae
- M. arosiense
|
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|
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Rapidly growing/ Runyon IV | M. neoaurum group |
- M. mageritense
- M. wolinskyi
- M. canariasense
- M. cosmeticum
- M. diernhoferi
- M. hodleri
- M. frederiksbergense
- M. neoaurum
|
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F/T groups | M. fortuitum group |
- M. chitae/M. fallax/M. gadium
- M. rhodesiae
- M. houstonense
- M. neworleansense/M. boenickei/M. fortuitum/M. porcinum/M. senegalense
- M. septicum/M. peregrinum/M. alvei
|
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M. vaccae group |
- M. obuense/M. gilvum/M. parafortuitum
- M. chlorophenolicum/M. chubuense
- M. psychrotolerans/M. sphagni
- M. aubagnense/M. mucogenicum/M. phocaicum
- AV
- M. aurum
- M. vanbaalenii
- M. vaccae
- M. austroafricanum
- M. pyrenivorans
|
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|
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M. smegmatis group |
- M. agri/M. thermoresistibile
- M. duvalii/M. flavescens
- M. monacense
- M. pulveris/M. conceptionense/M. moriokaense
- M. novocastrense/M. brumae/M. phlei
- M. confluentis/M. madagascariense
|
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M. chelonae group |
- M. komossense
- M. murale/M. tokaiense
- M. aichiense
- M. chelonae
- M. abscessus
- M. immunogenum
- M. massiliense
- M. bolletii
|
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M. elephantis group |
- M. elephantis
- M. holsaticum
|
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|
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