Background

Multidrug drug-resistant (MDR) and extensively drug-resistance (XDR) strains of Acinetobacter baumannii have emerged as formidable nosocomial pathogens among burned patient [1],[2].

In developing countries, such as Iran, clinicians face serious challenges in management of burned patients with MDR- A. baumannii (MDR-AB) infections, which present significant health care challenges by prolonging hospitalization, treatment failures, and increased mortality [3].

Members of the genus Acinetobacter have been implicated in a wide spectrum of infectious diseases such as Respiratory Infection, Bacteremia, Meningitis and Urinary Tract Infection [4]. Acinetobacter spp infections in admitted intensive care unit (ICU) patients hospitals very dangerous and acquired resistance of A. baumannii to carbapenems has increasingly been reported all over the world during the last decade [5].

The clinical strains of A. baumannii are usually multidrug resistant to aminoglycosides, fluoroquinolones, ureidopenicillins and third generation cephalosporins. Carbapenems were considered to be the mostactive antimicrobials against A. baumannii. However, Carbapenem resistance is rising and is often associated with a multidrug resistance phenotype [6],[7].

Carbapenems are currently the drug of choice; however, clonal outbreaks of carbapenems resistant A. baumannii (CR-AB) have led to an inadequacy of therapeutic choices in treating MDR-AB infections among patients in developing countries [8]. While expression of blaOXA genes play a major role in carbapenem resistance among CR-AB [9]), blaOXA mediated carbapenem resistance requires enhancement of gene expression either by insertion element IS Aba [10]-[12].

Despite a few reports on the distribution and/or frequency of resistance genes among CR-AB isolate from burned patients in Iran [13],[14], the scarcity of molecular epidemiologic data has rendered national efforts to control the spread of CR-AB infections unsuccessful. To date, no extensive studies have addressed the distribution of bla oxa-23, IS Aba and distribution in MDR-AB strains that cause infection in burned and ICU patients in Iran.

We in this research surveyed susceptibility of A. baumannii isolates, the carbapenems and Aminoglycosides resistance patterns, and its association with IS Aba elements of A. baumannii isolates among burned and ICU patients in Tehran and Sari, Iran. We obtain consent from the patient for the publication of this report.

Methods

Bacterial isolates

During 2013, a total of 100 non-repetitive clinical isolates of A. baumannii were collected from the burned patients of a tertiary burn and ICU center in Tehran and Sari, Iran as described previously [1]. All of the patients have given his/her consent for the report to be published. All study-related materials before and during the trial were operated in accordance with national and/or local regulations, as well as with ICH good clinical practices (GCPs) guidelines.

Identification of Acinetobacter species

Initially, isolates were identified as A. baumannii using API-20NE system [15],[16]. All the clinical Isolates were kept at -20°C in CRYOBANK (Copan Diagnostics Inc., Canada) until further testing.

Bacterial identification

During a One year period, 100 specimens A. baumannii (MDR) were isolated from patients that were admitted to Intensive Care Unit and burned patients with proved nosocomial infections in Tehran and Sari(Iran). The strains were isolated from the trachea and burned skin. We considered a strain as MDR if it was resistant to two or more antibiotic classes. Patients had no bacterial infections at the time of admitted to hospital. All the samples were confirmed as A. baumanni by biochemical Tests.

Antimicrobial susceptibility tests

Susceptibility to various antimicrobial agents was determined by the disc-diffusion method on Mueller Hinton agar recommended by the guidelines of Clinical and Laboratory Standards Institute (CLSI). Briefly, 0.1ml of a suspension of the test microorganism (1.5*10 8cfu /ml) was spread on Mueller-Hinton Agar (diameter, 90mm) (Merck), by the disc diffusion method for the following antimicrobial agents (Mast/Rosco) with concentrations: Streptomycin (10µg), Tobramycin (10µg), Gentamicin (10µg) Kanamycin (10µg), Imipenem (10µg) and Meropenem (10µg) were then placed on the agar plate and incubated at 37°C for 24h. The diameters of the zones of inhibition were measured and reported in mm.

Isolates of A. baumannii were defined as multidrug-resistant (MDR) when the organism was resistant to at least one agent in three or more antimicrobial categories that would otherwise serve as treatments for Acinetobacter infection.

An isolate was considered extensively drug-resistance (XDR) when it was non-susceptible to one or more of agent in all but 2 or less the categories. Pan drug resistant (PDR) was defined as non-susceptibility to all antimicrobial agents [17].

DNA extraction, synthetic primers and PCR Assay

DNA extraction was carried out by commercial DNA extraction kit (CinnaGen, Iran).The presence of bla OXA-23Carbapenemases gene was detected by PCR. PCR was performed in a standard enzyme Taq DNA polymerase. Single primer pair was used to amplify blaOXA-23 gene target fragment based on GenBank. The primers sequences as follows: Primer F: CCGTCGTTTACGACATTCA and blaOXA-23 R: AAAGAGCGCATTGCTTTGAT. For PCR reaction we used CinnaGen Master Mix and reactions were performed in a final volume of 25 ?According to Primer (10µmol, DNA template (50ng). PCR was performed in a standard enzyme PCR system (Cinnagen) concentration reaction, Master Mix (1x) each, primer, template DNA 50ng. The mixtures were incubated for 4min at 94oc for primary denaturation, 60sec at 94oc for secondary denaturation of the target DNA and then, annealing at 50oc for 1min, and extension at 72oc for 1min that 35cycle was performed. The amplified products were analyzed by electrophoresis on 1% agarose gel (cinnagen) containing 0.1g of ethidium bromide per ml in TAE buffer. The PCR product was visualized under UV light and photographed.

To determine the frequency of IS Aba elements sets of primers (IS Aba 1F/OXA-23R and ISAba 4F/OXA-23R) was used, respectively. PCR primers were designed using Primer 3 plus software (version 4.0; http://primer3.wi.mit.edu/; accessed 05.06.11) with sequences IS Aba 1F: TGAGATGTGTCATAGTATTC, IS Aba /OXA23 R: AGAGCATTACCATATAGATT. PCR assays were performed under standard conditions.

Results

In total, 100 Acinetobacter baumannii isolates were isolated from patients that were admitted to Intensive Care Unit and burned patients in Tehran and Sari (Iran). During 2013, we observed that, 62% isolates showed resistance to aminoglycosides and carbapenems. Based on the susceptibility of the isolated Acinetobacter baumannii to number of antibiotics, was observed minimum resistance against Imipenem (67%) and Meropenem (74%) and maximum resistance against Streptomycin (90%), Gentamicin (83%), Tobramycin (83%) and kanamycin (80%).The results of PCR screening from 61 Acinetobacter baumannii resistant to aminoglycosides and carbapenems, 41(67%) isolates have bla OXA-23 carbapenemase gene and IS Aba (32.2%).

Discussion

Nosocomial infections caused by multidrug resistant strains of Acinetobacter baumannii (MDR-AB) are currently among the most difficult to treat, and they continue to present serious challenges to clinicians empirical and therapeutic decisions in burned patient [1]. Outbreaks of extensively, and pan drug-resistant A. baumannii (XDR, and PDR, respectively) currently has been reported from worldwide. In this study, the high prevalence of XDR and PDR A. baumannii isolates (37.1% and 8.1%, respectively) from burned patient is consistent with previous reports.

The present study revealed that 17.8% vs 41.8% and 11.3% vs 0%of A. baumannii isolates from burned patients are resistant to Tigecycline and Colistin, respectively, by comparison with the other studies in Iran [1],[18].

Acinetobacter baumannii is one of the most important nosocomial pathogens, able to cause severe infections, occurring principally in immunosuppressed patients, in patients with serious underlying diseases, or subjected to invasive procedures and treatment with broad-spectrum antibiotics. A. baumannii isolates resistant to various classes of antibiotics are emerging worldwide, and the recent resistance or reduced susceptibility to carbapenems, is considered aserious clinical problem due to the role of first choice therapy that these drugs have had until now [19]. A. baumannii isolates resistant to various classes of antibiotics are emerging worldwide, and the recent resistance or reduced susceptibility to carbapenems, is considered as serious clinical problem due to the role of first choice therapy that these drugs have had until now.Demonstrated that A. baumannii was the third pathogen for severity in high-risk wards, frequently derived from nosocomial pneumonia or bacteremia [10].

In a timely manner, antimicrobial resistance surveillance and strict infection control strategies are still lacking in burn ward in Iran, despite the alarming emergence of MDR-AB strains, particularly among those isolates that are not susceptible to Colistin. The emergence of Colistin-resistant A. baumannii in this study might be due to differences in A. baumannii strains available for study or increasing empirical use of Colistin. However, it is still unknown whether this obvious resistance to Colistin in A. baumannii isolates from burned patients in Iran was due to increase of A. baumannii virulence or other intervening factor. Interestingly, all Colistin resistant isolates were susceptible to Tigecycline and/or Tobramycin. This is very important for treating serious infections caused by Colistin resistance isolates. However, this combination still needs to be validated in animal model and clinical trials. The results of this study are consistent with a recent report in which a number of combinations exhibited potent activity against multidrug resistant strains of A. baumannii (MDR-AB) [20].

Although the presence of IS Aba to play a substantial role in antimicrobial resistance in MDR-AB isolates, according to the best of our knowledge there is no data on the presence of IS Aba in MDR-AB strains isolated from burn patients in Iran. However, further investigation is required to recover various IS Aba in MDR-AB strains isolated from Iran.

This research showed that, it was notified that, the Acinetobacter baumannii resistant to aminoglycoside and Carbapenem in Tehran and Sari are rising dangerously. We have documented those almost more than half strains are resistant to carbapenems and aminoglycosides. Also we observed that resistance to aminoglycosides was higher than carbapenems.Carbapenem-resistance in these strains is due to the presence of bla OXA-23 gene and we show that this gene, carried in 67%.

In conclusion, our data support that Tigecycline alone or plus Tobramycin exhibited a potent activity against Colistin-resistant A. baumannii isolates from burned patients. Acinetobacter baumannii strains isolated from Iranian burned patients are so heterogeneous and this is the first report of spreading of IS Aba in the upstream of blaOXA genes in MDR-AB isolates among burned patients in Iran. We also show that MDR-AB integrons were present among burned patients in Iran at almost the same time as they were described worldwide.

Acinetobacter baumannii strains isolated from Iranian burned patients are so heterogeneous and this is the first report of spreading of IS Aba in the upstream of blaOXA genes in MDR-AB isolates belonging to burned patients in Iran. Antimicrobial resistance surveillance and strict infection control strategies are still lacking in burn ward and ICU in Iran, despite the alarming emergence of MDR-AB strains, particularly among those isolates that are not susceptible to Colistin. The results of this study are consistent with a recent report in which a number of combinations exhibited potent activity against multidrug resistant strains of A. baumannii (MDR-AB).

Authors contributions

This work was carried out in collaboration between all authors. DE designed the Performed studies and wrote the first draft of the manuscript. AB managed and assisted in the data analyses. Other author s designed, advised, evaluated the data, and finalized the manuscript for publication. All authors read and approved the final manuscript.