Increase in non-tuberculous mycobacteria isolated from humans in Tuscany, Italy, from 2004 to 2014

Background In Italy, the prevalence of non-tuberculous mycobacteria (NTM) in human infections is largely unknown. Herein, we report the epidemiology of NTM infections in a region of central Italy, Tuscany, over the last 11 years, and provide a review of the recent literature on NTM isolation rates in different geographic regions. Methods The complete collection of NTM strains isolated from a total of 42,055 clinical specimens at the Laboratory of Clinical Mycobacteriology of Pisa University Hospital, Italy, from 1 January 2004 to 31 December 2014 was included. Results In our setting, in the period 2004–2014 a total of 147 patients had cultures positive for NTM. The number of NTM isolates increased considerably from five isolates in 2004 to 29 in 2014; a sharp increase occurred in the last 3 years. Overall, 16 NTM species were isolated; the most common were M. avium, M. intracellulare and M. gordonae detected in respectively in 41.5, 14.3 and 11.6 % of NTM patients. In general, NTM isolates were largely prevalent in people older than 60 (57.8 %); patients aged 1–10 year-old almost exclusively yielded M. avium and M. intracellulare. Of the 147 NTM clinical isolates, 76.2 % were from respiratory specimens, 10.9 % from lymph nodes, 2.7 % from blood (yielding exclusively M. avium), and the remaining 10.2 % from other clinical specimens. Conclusions The observed increase in NTM isolation rate in our setting is in keeping with the general increase in NTM infections reported worldwide in the past two decades, although the distribution of the NTM prevalent species differs by geographic region.


Background
Non-tuberculous mycobacteria (NTM) include all Mycobacterium species other than Mycobacterium tuberculosis complex and Mycobacterium leprae. NTM are a group of over 150 enviromental species, but, due to recent advancement of molecular techniques, novel species are being identified [1]. NTM are generally endowed with low pathogenicity to humans [2], however some species are associated with a variety of human diseases, especially concomitantly to particular risk factors [3]; respiratory tract infections are the most frequent, followed by lymphadenitis in children, disseminated infections in severely immunocompromised patients and skin infections [4]. Although significant differences in geographic distribution of NTM have been observed [5], species belonging to Mycobacterium avium complex (MAC), particularly M. avium and M. intracellulare, are the most frequently reported; other important human NTM pathogens include slowly growing mycobacteria, usually community-acquired from environmental or animal sources, such as Mycobacterium kansasii, Mycobacterium xenopi, Mycobacterium malmoense, and rapidly growing mycobacteria typically hospital-acquired, such as Mycobacterium abscessus, Mycobacterium chelonae and Mycobacterium fortuitum. A considerable increase in both incidence and prevalence of NTM infections has been observed worldwide in the past two decades, not only for the development of new and more sensitive molecular methods for NTM identification, but also for a    [7][8][9], however NTM epidemiology in Italy is largely unknown. The aim of the present survey is to provide an overview of the epidemiology and recent trend of NTM infections in a region of central Italy, Tuscany, over the last 11 years.

Clinical isolates
The Research ethics approval was not necessary for retrospective studies in our Institution; informed consent was not required as the data were analyzed anonymously.

Results and discussion
Between January 2004 and December 2014, a total of 42,055 clinical specimens collected from approximately 15,000 patients with suspected mycobacterial infection were tested; a total of 595 patients had cultures positive for mycobacteria; M. tuberculosis complex and NTM species were isolated from 448 (75.3 %) and 147 (24.7 %) patients, respectively. A total of 16 NTM species were isolated (Table 1), the most common belonging to the MAC (n = 82, 55.8 %); in particular, M. avium subsp. hominissuis was detected in 61 (41.5 %) and M. intracellulare in 21 (14.3 %) patients. M. gordonae was the third prevalent species (n = 17, 11.6 %), followed by M. xenopi (n = 14, 9.5 %), M. fortuitum (n = 10, 6.8 %), and M. kansasii (n = 7, 4.8 %). In general, the species distribution of NTM isolated in our setting was close to that reported earlier in an inventory study of NTM in the European Union, which included Italy [7]. Similarly to other studies [9,11], the NTM infections were not associated with gender, although M. intracellulare and M. kansasii appeared to be more common in men (16 males vs 5 females, P = 0.002 for M. intracellulare; 6 males vs 1 females, P = 0.003 for M. kansasii, by χ2 analysis). In general, NTM isolates were largely prevalent in people older than 60 (n = 85, 57.8 %)¸patients aged 1-10 yearold almost exclusively yielded M. avium and M. intracellulare (11 out of 12, 91.7 % in total), the most commonly encountered species in mycobacterial lymphadenitis in children [12]. Of the 147 NTM clinical strains, 112 (76.2 %) were isolated from respiratory tract specimens (sputum and bronchoalveolar lavage), 4 (2.7 %) from blood, 16 (10.9 %) from lymph nodes, and the remaining  15 isolates (10.2 %) from other specimens, including urine, stool, skin, gastric lavage and other body fluid. In particular, all the blood specimens yielded M. avium, which was also the prevalent species isolated from adenitis episodes; M. xenopi and M. kansasii were isolated only from pulmonary specimens; M. marinum was isolated exclusively from skin samples. These results reflect the ability of the mycobacterial species to infect and localize in different body sites [3].
The distribution over time of the NTM isolates is reported in Fig. 1. As shown, the number of NTM isolates increased considerably from five isolates in 2004 to 29 in 2014; a sharp increase occurred in the last 3 years. In 2014, in particular, M. avium and M. intracellulare were the prevalent isolates representing 58.6 % of total NTM isolates; the increase in MAC isolates occurred mostly in people aged over 60 with pulmonary infections, as also reported by others [9,13,14]. Notably, M. kansasii, a pulmonary pathogen not reported before 2012 in our setting, was repeatedly isolated in the last 3 years, representing 9.6 % of total NTM isolates; M. gordonae, which is considered a non-pathogenic enviromental contaminant, was the third most frequently isolated species.
On the whole, the increase in isolation rate of NTM in our setting in recent years is in keeping with several reports all over the world [7-9, 11, 15-19]. However, it is kansasii were the prevalent species, the rise in NTM isolates was mostly due to M. gordonae generally isolated from pulmonary specimens in patients over 60 year-old [9,13]; similarly, in a study from Croatia, the highest increase in NTM isolation frequency was attributed to M. gordonae and M. fortuitum [11]; also studies from the Netherlands and Athens (Greece) showed high rates of M. gordonae isolates [14,20]. In the United States the prevalent NTM species were M. avium complex, M. gordonae and M. abscessus [21,22], while in Eastern Asia the most frequent were M. avium complex, M. kansasii and M. abscessus and M. fortuitum [23][24][25].

Conclusions
In conclusion, the present study, although not representing a population-based investigation, shows an increase in NTM isolation rate in our setting, which is consistent with the increasing rates seen elsewhere, and provides a snapshot of the prevalent NTM species in our setting.
The clinical significance of the increased isolation rate of NTM from human specimens observed in the present study remains largely unknown for the difficulties to interpret whether the NTM isolations are related to colonisation or disease. Further studies involving detailed clinical data are needed to better understand the changes in NTM epidemiology.