Prevalence and antimicrobial susceptibility pattern of Enterococcus species isolated from different clinical samples at Black Lion Specialized Teaching Hospital, Addis Ababa, Ethiopia

Objective Enterococci which are parts of the normal intestinal flora are opportunistic human pathogens. Their increasing importance is largely due to their resistance to antimicrobials. So the aim this study was to determine the prevalence and antimicrobial pattern of Enterococcus spp. Result From the total of 422 samples processed, 15 Enterococcus species were isolated. In this study, linezolid were the drug of choice for Enterococcus species, which showed 100% sensitive followed by vancomycin 93.3% sensitive. In contrast, highly resistance (80%) was observed for ampicillin followed by doxycycline (73.3%). All of isolated Enterococci were sensitive to linezolid, however, resistance was observed to common antibiotics. The presence of multidrug resistant Enterococci in our study should be considered as an alarm for Enterococcal infections.


Introduction
Enterococcus species have become problem of the world as emerging nosocomial infection and multi drug resistance bacteria [1]. Among several species which belong to genus Enterococcus, E. faecalis is the most common isolate that has an association with 80-90% of human Enterococcal infection. E. faecium is also isolated from 10 to 15% of infections [2,3]. Infections commonly caused by enterococci include urinary tract infections, bacteremia, endocarditis, catheter-related infections, wound and soft tissue infections, meningitis, respiratory infections, neonatal sepsis and intra-abdominal and pelvic infections [4,5].
During the past decade, there has been a worldwide trend in increasing occurrence of Enterococcus species in the hospitals, a shift in the spectrum of Enterococcal infections and emergence of antimicrobial resistance among such isolates. This indicates that a need for continuous surveillance of the bacteria [6].
The second most frequent Enterococcal infections generally have been intra-abdominal and intra-pelvic abscesses or post-surgery wound infections [7]. In these settings, Enterococcus species are usually part of a mixed flora commonly found in the GIT so identifying the bacteria which cause the disease will be critical. Interactions among various bacteria have been demonstrated, and studies suggest that Enterococcus species can act synergistically with other bacteria to enhance infection. The third most frequent infection caused by these organisms is blood stream infections [1]. Other infections caused with lower frequency are central nervous system and neonatal infections. Enterococcus species rarely cause respiratory tract infections, osteomyelitis, or cellulitis [8]. Ferede et al. BMC Res Notes (2018) 11:793 Enterococcus species have become the second or third leading cause of nosocomial urinary tract infections (UTIs), wound infections (mostly surgical, decubitus ulcers, and burn wounds), and bacteremia in the United States [9,10]. UTIs are the most common of the Enterococcal infections: Enterococcus species have been implicated in approximately 10% of all UTIs and in up to approximately 16% of nosocomial UTIs [11]. Enterococcal bacteremia is frequently associated with metastatic abscesses in multiple organs and high mortality rates. Enterococcus have also been considered an important cause of endocarditis; they are estimated to account for about 20% of the cases of native valve bacterial endocarditis and for about 6-7% of prosthetic valve endocarditis [12,13]. Endocarditis remains among the most difficult to treat Enterococcal infections because of limitations on bactericidal antimicrobial therapy for Enterococcal infections, especially when caused by vancomycin-resistant Enterococcus (VRE). There is also a growing concern about the role of the Enterococcus species in endodontic and implant-and medical device-associated infections [8].
The emerging contest of Enterococcus nosocomial infection and resistance rates to the most common prescribed drugs vary considerably in different areas due to local antimicrobial prescribing practices, empirical treatment, and prevalence of circulating resistant Enterococcus species in a given area [14,15]. The etiologies and their susceptibility to different antibiotics may have also changed over time. The irrational use of antibiotics in different set up has also immensely contributed to the antimicrobial resistance and emergence of multidrug resistant urinary isolates [16].
The emergence of nosocomial Enterococcus infection, multi drug resistance and VRE in different clinical sample were recorded in different country throughout the world. But, to our knowledge there was no previous data or study showing resistance pattern and prevalence of Enterococcus species in the study area. The aim of this study was to determine the prevalence of Enterococcus species and their antimicrobial susceptibility pattern isolated from different clinical samples in Black Lion Specialized Teaching Hospital, Addis Ababa, Ethiopia.

Cross-sectional was conducted at Black Lion Specialized
Hospital from April to May 2016; this hospital is a one of the tertiary, teaching and national referral hospital in Ethiopia under the Federal Ministry of Health.
Patients who were seeking medical service at Black Lion Specialized Hospital during the study period considered as the source and all age groups who were suspected for UTI, septicemia, wound infection, endocarditic and meningitis, were the study populations.
Prevalence of Enterococcus species and their antimicrobial susceptibility pattern of Enterococcus species were dependent variables, whereas, socio-demographic variables, previous antibiotic usage, history of catheterization for urine sample, duration of admission and other associated risk factors, were independent variables.

Sample size and sampling technique
Since there is no previous study, prevalence of Enterococcus species in different clinical sample was calculated by using single population proportion formula taking, 50% prevalence. Therefore, a total of 422 study participants were included in this study. All consecutive Enterococcal infection suspected patients were included in the study.

Data collection and processing
Relevant information including; age, sex, source of infection, were gathered on a prepared questionnaires. Clinical samples (urine, blood, body fluid, CSF and Pus) were collected according to the microbiological sample collection techniques.
Prior to data collection, information about how to collect data was given to selected data collectors (two nurses and two laboratory technicians).
All clinical samples were collected by trained personnel with sterile container according to the standard operating procedures (SOP). All the samples were analyzed (examined) immediately arrived to the laboratory to ensure that the Enterococcus species present in the sample were isolated.
Blood for culture must be collected and dispensed with great care to avoid contamination of specimen and culture medium. After disinfecting the site of blood collection, 10-15 ml of blood for adult patient and 3-5 ml of blood for children were collected. Then all blood samples were cultured in blood culture bottles and incubated at 37 °C for 24 h to see hemolysis and turbidity.
Other specimens were cultured on blood and Mac-Conkey agar media immediately and incubated at 37 °C for 24 h. Then, the suspected colony on the culture was identified primarily as Enterococcus spp. according to the colony morphology and gram staining.
Growth of enterococci on solid media were as follows: On blood agar plate, enterococci produced small, round, smooth, transparent colonies and some colonies showed hemolysis alpha(α) or beta(β) and some were non-hemolytic. On MacConkey's medium, Enterococci produced tiny deep pink colonies. Ferede et al. BMC Res Notes (2018) 11:793 Drug susceptibility patterns The antimicrobial susceptibility testing was performed by using the Kirby Bauer disc diffusion method according to the National Committee for Clinical Laboratory Standards (NCCLS, 2014) guidelines.
The turbidity of suspension was determined in comparison with 0.5 MacFarland standards. A sterile swab was dipped in the broth suspension and excess suspension was removed by pressing the swab against the wall of the tube. The entire surface of MHA plate was uniformly flooded with suspensions and allowed to dry for about 15-30 min. The antimicrobial impregnated disks were placed by using sterile forceps at least 24 mm away from each other to avoid the overlapping zone of inhibition [17]. Grades of susceptibility pattern was recognized as sensitive, intermediate and resistant by comparison of zone of inhibition as indicated in the manufacturer's guidance [17,18]. The antibiotic susceptibility pattern was interpreted as per the manufacturer guide line [3].

Quality control
Standard operating procedures were strictly followed. Quality control was performed to check the quality of medium. Each new lot was quality controlled before use by testing the ATCC E. faecalis 29212, as per the Clinical and Laboratory Standards Institute guidelines standard strains [17]. All statistical analyses were performed with the SPSS statistical software package (version 20). Probability values (P) of < 0.05 were considered as statistically significant. Finally, the study findings were explained in words and tables.

Ethical considerations
Ethical clearance and permissions were obtained from the department of ethics committee of medical laboratory science in Addis Ababa University; and written informed consent was obtained from voluntary participants and parents or guardians for children under 18 years old during data collection. The findings of pathogenic bacteria were reported to the responsible body.

Socio-demographic characteristics of study participants
A total of 422 participants were involved in the study from those 41.71% were females and 58.29% were male participants. The mean ± SD age of participants was 23 ± 10 years (range 1-87) ( Table 1).

Enterococcus isolates
Fifteen strains of Enterococci were isolated from a total of 422 various clinical specimens ( Table 2).

Associated factors
Since Enterococcus species have now emerged as nosocomial pathogens, in this study from 15 of the Enterococcus spp. isolated 14 were form hospitalized patients and the higher prevalence, 13 of the 14 Enterococcus spp. were from patients which were stayed in the hospital from 3 to 6 days with statistical significance difference (P < 0.05).

Discussion
The epidemiology of Enterococci is not fully understood since there are striking differences among different species of resistant isolates obtained from various geographic locations [11]. Despite the fact that enterococci have been considered to be relatively low virulent in the past few years, they are among all nosocomial pathogens that have emerged as a significant concern [6,19]. Intestinal colonization with resistant Enterococcal strains is more common than clinical infection. Colonized patients are a potential source for the spread of organisms to the health care workers, the environment and other patients [20].
In our study, the prevalence of Enterococci among different clinical samples was 3.5%. This prevalence rate was consistent with the findings of other authors who found the prevalence rate in Egypt (3.3%), in Bangladesh (3.2%), in India (2.3%) and in Asian pacific (3.6%) [21][22][23]. On the other hand, the prevalence in the present study was higher than the report from Kenya (0.22%) [24], and different hospitals of Ethiopia including Jimma, Felege Hiwot and University of Gondar Teaching Hospital that accounted 0.59%, 0.64% and 2.13% respectively [10,25,26]. However, it was lower than the prevalence study done in USA and Canada, 18.0% and 21.2%, respectively [21].
The variation in results might be explained due to the different characteristics in the study participants and in the use of conventional methods for identification of Enterococci. As the opinion explained earlier by other study [13,27], it was mentioned that the conventional methods for the identification of microorganisms are based on phenotypic and culture characteristics and may not be able to identify the causative organism correctly when strains with unusual phenotypes. Moreover,  the study subjects included in most of the previous studies were hospitalized patients as their aim was to show hospital acquired infections. The gradual increase in the prevalence of enterococci infections might have also contributed to the increased prevalence as evidenced by other studies. All Enterococcus spp. isolates, in the present study, were sensitive to linezolid. This result was in agreement with studies in India, Bangladesh and India which reported that none of the Enterococci isolates were resistant to linezolid [28,29].
In general, only one Enterococcus species were sensitive to all drugs used in our study but the other isolates were resistant to at least one drug. 66.7% of the isolated Enterococci were multi drug resistances which were resistant to three and above drugs. This result was comparable with the study reports in Egypt and Nigeria which accounts [30,31].

Conclusion
The study showed that the rate of isolated Enterococci had variable degrees of resistance to the antibiotics, but all were sensitive to linezolid by disc diffusion methods. The presence of high percentage multidrug resistant Enterococci in our study should be considered as alarm and further study in large scale is needed.

Limitation of the study
This study has limitation to identify the isolated Enterococci up to species level.