Genetic and antibiotic susceptibility profiles of drug-resistant Acinetobacter baumannii in Lebanon

Objectives To determine the population structure and antimicrobial sensitivity profile of carbapenem-resistant A. baumannii isolates in Lebanon. Materials and Methods Thirty-two isolates of A. baumannii were collected between Jan-June 2011 from three distant hospitals in Lebanon. Molecular identification was done by partial rpoB sequencing. The antibiotic susceptibility testing was determined by agar disc diffusion. MICs for imipenem, meropenem, colistin, tigecycline and sulbactam were also determined for imipenem resistant strains. Genetic testing was performed using MLST. Results Thirty isolates were identified as A. baumannii according to the molecular identification which 24 exhibited imipenem resistance. Sensitivity profiles [sensitive vs. intermediate vs. resistant] of these isolates were 0%vs.12.5% vs.87.5% for meropenem, 8.3%vs.54.2%vs.37.5% for tigecycline and 8.3%vs.8.3%vs83.4% for sulbactam. All isolates (100%) were sensitive to colistin. All isolates (except one) belonged to international clone 2. Conclusion Extensively drug resistant A. baumannii pauses a major risk for patients in Lebanon and with the absence of an effective antimicrobial treatment, tight infection control and rational antibiotic use are mandatory to prevent further aggravation of the antibiotic resistance in this country

Limiting the Spread of Multidrug-Resistant Bacteria in Low-to-Middle-Income Countries: One Size Does Not Fit All

The spread of multidrug-resistant organisms (MDRO) is associated with additional costs as well as higher morbidity and mortality rates. Risk factors related to the spread of MDRO can be classified into four categories: bacterial, host-related, organizational, and epidemiological. Faced with the severity of the MDRO predicament and its individual and collective consequences, many scientific societies have developed recommendations to help healthcare teams control the spread of MDROs. These international recommendations include a series of control measures based on surveillance cultures and the application of barrier measures, ranging from patients’ being isolated in single rooms, to the reinforcement of hand hygiene and implementation of additional contact precautions, to the cohorting of colonized patients in a dedicated unit with or without a dedicated staff. In addition, most policies include the application of an antimicrobial stewardship program. Applying international policies to control the spread of MDROs presents several challenges, particularly in low-to-middle-income countries (LMICs). Through a review of the literature, this work evaluates the real risks of dissemination linked to MDROs and proposes an alternative policy that caters to the means of LMICs. Indeed, sufficient evidence exists to support the theory that high compliance with hand hygiene and antimicrobial stewardship reduces the risk of MDRO transmission. LMICs would therefore be better off adopting such low-cost policies without necessarily having to implement costly isolation protocols or impose additional contact precautions

Antimicrobial effects of chlorine dioxide in a hospital setting

Abstract Chlorine dioxide is a powerful disinfectant with strong antibacterial properties. We conducted a study at different sites of the Lebanese American University Medical Center-Rizk Hospital to determine the efficacy of the ECOM air mask in decreasing the particle load. Air cultures were obtained from three different locations, namely the patients’ elevator, visitors’ elevator and mobile clinic and the number of colonies grown on each type of agar was determined. We also measured particle counts at the three sites both at baseline and after placement of the ECOM air mask. After 7 days of ECOM air mask use, the numbers of colonies grown on all types of media was decreased by 20–100% versus the baseline values. The counts of particles of different diameters (0.3, 0.5 and 5 µm) were decreased at all three sampled sites. This study highlighted the efficacy of the ECOM air mask. The utility of the gaseous form of ClO2 as an antiseptic in the hospital setting appears promising

Epidemiology of Community-Acquired Respiratory Tract Infections in Patients Admitted at the Emergency Departments

Objectives: Community-acquired respiratory infections (CARTIs) are responsible for serious morbidities worldwide. Identifying the aetiology can decrease the use of unnecessary antimicrobial therapy. In this study, we intend to determine the pathogenic agents responsible for respiratory infections in patients presenting to the emergency department of several Lebanese hospitals. Methods: A total of 100 patients presenting to the emergency departments of four Lebanese hospitals and identified as having CARTIs between September 2017 and September 2018 were recruited. Specimens of upper and lower respiratory tract samples were collected. Pathogens were detected by a multiplex polymerase chain reaction respiratory panel. Results: Of 100 specimens, 84 contained at least one pathogen. Many patients were detected with ≥2 pathogens. The total number of pathogens from these 84 patients was 163. Of these pathogens, 36 (22%) were human rhinovirus, 28 (17%) were Streptococcus pneumoniae, 16 (10%) were metapneumovirus, 16 (10%) were influenza A virus, and other pathogens were detected with lower percentages. As expected, the highest occurrence of pathogens was observed between December and March. Respiratory syncytial virus accounted for 2% of the cases and only correlated to paediatric patients. Conclusion: CARTI epidemiology is important and understudied in Lebanon. This study offers the first Lebanese data about CARTI pathogens. Viruses were the most common aetiologies of CARTIs. Thus, a different approach must be used for the empirical management of CARTI. Rapid testing might be useful in identifying patients who need antibiotic therapy

Logistic regression for hospitalization outcome (deceased vs improved/cured).

Logistic regression for hospitalization outcome (deceased vs improved/cured).</p

S1 Data -

BackgroundCOVID-19 infection in patients with type 2 diabetes mellitus (T2DM) -a chronic illness in Lebanon–is not well described.MethodsThis was a single-centre retrospective observational study of 491 patients, including 152 patients with T2DM, who were hospitalised for COVID-19 between 20 August 2020 and 21 April 2021. Data on clinical characteristics, laboratory and radiological findings and outcomes were collected from the electronic medical records. Clinical characteristics and in-hospital mortality between patients with and without T2DM infected with COVID-19 using multivariate analysis were compared.ResultsPatients with T2DM were significantly older than those without T2DM (mean age, 68.7 vs. 60.3 years). Patients with T2DM were more likely to present with a body temperature of ConclusionAmong patients hospitalised for COVID-19, those with T2DM were older, presented with milder symptoms and had more comorbidities and higher troponin T levels compared with those without T2DM. Despite the worse clinical course, the patients with T2DM had lower odds of mortality than those without T2DM.</div