Blood culture result profile and antimicrobial resistance pattern: a report from neonatal intensive care unit (NICU), Asella teaching and referral hospital, Asella, south East Ethiopia

Background Antimicrobial resistance is one of the major public health emergencies worldwide, and this trend didn’t spare developing countries like Ethiopia. The objective of this study was to evaluate patterns of bacterial isolates and local antimicrobial susceptibility patterns in neonatal sepsis. Methods A hospital based observational study was conducted from April 2016 to May 2017 in Asella teaching and referral hospital (ATRH). A total of 303 neonates with clinical sepsis were included. Collected data were entered into EPI-INFO version 3.5.1 for cleanup; and then exported to SPSS version 21 for further analysis. Frequencies and proportion were used to describe the study population in relation to relevant variables. Results Bacterial growth was detected in 88 (29.4%) of blood cultures. Predominantly isolated bacteria were coagulase negative staphylococci (CoNS) 22 (25%), Escherichia coli (E.Coli) 18 (20.5%) and Staphylococcus aureus 16 (18%). Resistance rates of S. aureus and CoNS against Ampicillin were 11 (69%) and 20 (91%) respectively. The resistance rate of E. coli against Ampicillin and Gentamycin were 12 (66.7%) and 10 (55.6%) while Klebsiella spp. resistance rate gets much higher against these two first line antibiotics [10 (91%) and 9 (82%) respectively]. Similarly, both Gram-positive and Gram-negative bacteria isolates were also highly resistant to third generation Cephalosporins, and 63 (72%) isolated bacteria showed multidrug-resistance. However; Gram-positive bacteria isolates had better susceptibility patterns to third line antibiotics like Clindamycin, Vancomycin and Ciprofloxacin while Gram-negative isolates had a higher susceptibility to Ciprofloxacin and Amikacin. Conclusion CoNS, S. aureus, E. coli and Klebsiella spp. were the leading bacterial causes of neonatal sepsis in our study. They were highly resistant to first- and second-line empiric antimicrobial treatment used at NICU (Neonatal intensive care unit), reducing the antimicrobial choices for management of neonatal sepsis. Fortunately, the mentioned isolated bacteria remained susceptible to third line antibiotics used to treat neonatal sepsis.


Background
Neonatal mortality contributes significantly to the infant mortality rates in developing countries, various conditions are responsible for neonatal mortality among which neonatal sepsis accounts for variable figures ranging from 26 to 50% [1][2][3][4]. Neonatal sepsis is defined as any sepsis diagnosed during the first 28 days of life and further sub classified as early onset neonatal sepsis if signs and symptoms of sepsis appeared within the first six days of life and classified as late onset sepsis if clinical features of sepsis are presented between 7 and 28 days of age [5]. Neonatal sepsis is mainly caused by different Gram-positive and Gram-negative bacteria and few cases by fungi like candida species. There is a significant geographical diversity of bacteria causing neonatal sepsis and the spectrum is constantly changing over time, even in the same place [5][6][7]. Antibiotic resistance has become a global threat. Reports of multidrug-resistant bacteria causing neonatal sepsis in developing countries are increasing, particularly in intensive care units. The clinical signs and symptoms of neonatal sepsis are subtle and nonspecific, making early diagnosis difficult and leading to high rate of empiric antibiotic utilization which could contribute for the selection and spread of antimicrobial resistant strains of bacteria. Knowing the causative agents of neonatal sepsis and their antimicrobial sensitivity patterns could enable to choose appropriate therapy for neonatal sepsis. Targeted antibiotic therapy plays a significant role in reduction of antimicrobial resistance [5,6].
The objective of this study was to assess the etiology of neonatal sepsis and to provide local antimicrobial susceptibility patterns in the neonatal intensive care unit.

Methods
A hospital-based observational study was conducted from April 2016 to May 2017at Asella teaching and referral hospital (ATRH) being a federal referral hospital located in Arsi zone, Oromia region, south east Ethiopia. The neonatal intensive care unit (NICU) is one of the wards with the highest performance of the hospital with the admission of close to 1200 neonates per year. Microbiology, hematology and biochemistry diagnostic laboratory services are available around the clock.
During the study period a total of 901 neonates were admitted to NICU from which the study participants were selected based on WHO neonatal sepsis screening tool augmented with national Neonatal Intensive Care Unit Manual [5,7]. Neonates meeting the inclusion criteria but being too critically ill to undergo the necessary laboratory evaluation and other procedures were excluded. Accordingly, data of 19 neonates were excluded and a total 303 study subjects were analyzed.

Operational definition
Early onset sepsis (EONS): Sepsis diagnosed in the first six days of life [5,7].
Prolonged labor: Total duration of labor for more than 24 h [5,7].
A standardized questionnaire was prepared by reviewing relevant literatures and neonatology text books and translated to local Amharic language to capture demographic data, risk factors and clinical features of sepsis. After the neonates were enrolled in the study, the mothers were interviewed at a convenient, comfortable and confidential area.
Blood cultures are the gold standard test for the diagnosis of blood stream infection and should be performed in all cases of suspected sepsis prior to administering antibiotics. Accordingly, blood cultures were taken of neonates with clinical diagnosis of. Under preferably aseptic techniques a blood sample was collected by trained laboratory technicians: The laboratory technicians wore sterile gloves during the procedure and prepared a patch of skin approximately 5 cm in diameter over the proposed site of veni-puncture. This area was cleansed thoroughly with 70% isopropyl alcohol, followed by povidone-iodine, and followed again by alcohol. The skin was allowed to dry for at least 1 min before veni-puncture. One-mL sample of blood was drawn from a fresh veni-puncture site and added to a bottle containing 5-10 mL of blood Agar culture media. The blood cultures were incubated aerobically at 37°C and observed daily for consecutive three days for preliminary results by checking the presence of one of the following findings on culture media: hemolysis, air bubbles (gas production), and coagulation of broth [12]. At the same time, subcultures were made during three successive days on enriched and selective media including blood agar, chocolate agar, MacConkey agar and mannitol salt agar plates and examined for growth after 24-48 h of incubation. Showing no growth on the 7th day, blood cultures were reported as sterile. Isolated bacteria were identified using different standard techniques like Gram stain reaction, biochemical reaction properties (Lactase, Catalase, Indolase), morphological and colony characteristics [12]. Antimicrobial sensitivity testing was performed by Kirby Bauer diffusion method using Mueller Hinton agar with incubation of 24 h at 37°C. according to Clinical Laboratory Standard Institute standards (CLSI) [8].
Testing was done for antibiotics used for first-, secondand third-line treatment in neonatal sepsis at ATRH [8].
Data was entered into EPI-INFO version 3.5.1 for cleanup and anthropometric interpretation; and then, data were exported to SPSS version 21 edition for further analysis. Frequencies, proportion and summary statistics were used to describe the study population in relation to relevant variables. P-values < 0.05 were considered statistically significant.

Results
A total of 303 (33.6%) neonates were admitted with the diagnosis of clinical sepsis of which 88 (29.4%) were culture proven. From those with culture confirmed neonatal sepsis, male constituted for 52 (59.1%) while females were 36 (40.9%). When looking at bacteria isolates disaggregated to the age of neonates at presentation, 37 (42.4%) bacteria isolates were identified from EONS while 54 (61.2%) from LONS which is statistically significant (p = 0.001). neonates born to mother who took antibiotic during labor and delivery were having two-fold reduced risk of acquiring EONS compared to LONS [AOR 2.02 (95% CI 1.17-3.50, p = 0.011]. Eight (9%) neonates with culture proven sepsis were born at home while 80 (91%) were born at a health institution (health center or hospital). Babies with low 5th minute Apgar score had high associated with culture confirmed neonatal sepsis [AOR 2.10 (95% CI 1.18-3.73, p = 0.001].  (Table 1). When disaggregating to specific bacteria pathogen; CoNS (22,25%) and E. coli (18,20.5%) were by far the leading causes of neonatal sepsis in our study.
E. coli and Klebsiella resistance rates against Cefotaxime, one of the commonly used third-generation Cephalosporin at our NICU were also high. Chloramphenicol, Ciprofloxacin and Amikacin showed more effectiveness against identified Gram-negative bacteria.

Multidrug-resistant (MDR) bacterial isolates
Most bacterial isolates from blood culture were found to be multidrug-resistant, mainly against first-and second-line

Discussion
In the current study, about one third of the total neonatal admissions were due to clinical sepsis with or without bacterial growth in blood cultures still remains the most important cause of neonatal morbidity. This finding is consistent with reports from other developing countries [1][2][3]. The rate of blood culture confirmed neonatal sepsis were significantly lower among neonates with EONS than neonates with LONS. One possible explanation for the difference in blood culture results could be because of the routine utilization of antibiotics during obstetric care which might affect the blood culture yield of the neonates as there is significant transplacental transfer of these antibiotics to the fetus. Gram-positive bacteria were the most commonly isolated organisms causing neonatal sepsis in this finding which is in congruent with study reports from Egypt, Uganda and other developing countries [3,4,9,13,14].
Babies with low 5 th minutes Apgar score had high risk of developing culture-confirmed Gram-positive neonatal sepsis which could be explained by the fact that most neonates with low Apgar score might undergo extensive manipulation and resuscitation predisposing them for possible invasive colonization with Gram-positive bacteria. Also, this finding is in accordance with studies from Ethiopia and Tanzania [1,2]. The majority of the isolates were found in LONS, being previously described in a study from Tanzania-Muhimbili which reported S. aureus as the leading cause of neonatal sepsis [1,15]. Similar findings were reported from Egypt, Tanzania, Uganda, Ethiopia and other developing countries which showed Gram-positive bacteria as predominant isolates causing neonatal sepsis [6,7,11,[16][17][18]. Guidelines on neonatal sepsis management in most centers [7,19] recommend Ampicillin and Gentamycin as first-line empiric therapy. Unfortunately, most identified bacteria were highly resistant in this current report. Egypt and India [6,7] showed high resistance rates of isolated bacteria against Ampicillin (85-95%) and Gentamycin (57.3-72%). The demonstrated high rate of antimicrobial resistance (AMR) could be indicating overutilization of the named drugs as empiric treatment for most other common neonatal problems which were not actually infectious in origin. Additionally, most neonates with culture proven bacteremia were born at a health institution where most neonatal sepsis is arising from hospital acquired infections. Resistance rates of isolated Gram-positive bacteria against third generation Cephalosporines were also high in our study which is consistent with studies from Nigeria, Tanzania, Georgia, Iran and other developing countries [11,12,15,17,[19][20][21][22][23].
Methicillin resistant S. aureus (MRSA) and MDR against both, Gram-positive and Gram-negative bacteria isolates were very high in our study finding which is in agreement with most studies [1,2,17,18,24].
Our study demonstrated a better susceptibility of isolated Gram-positive bacteria against Vancomycin, Clindamycin  and Ciprofloxacin, which is also supported by the study from India and other reports [1-4, 9, 13, 15, 17, 24]. This could be explained by less utilization of these antibiotics for two reasons: First, the antibiotics are used as third line options indicating less utilizations of these agents at NICU. Second, Ciprofloxacin is not validated to use among younger children unless benefit-risk analysis warrants its utilization and, Amikacin is not easily accessible in most centers showing its lower rate of utilization making most isolated bacteria better susceptible to these two antibiotics. Still about one-fifth of isolated S. aureus were found to be resistant for vancomycin which is in contrary with study findings from Vietnam and Egypt showed no resistance strains of S. aureus against Vancomycin [7,21]. This could be explained by increasing trends of utilization of this antibiotic as third line because most first-line and second-line antimicrobial agents have been failing which is in line to other study findings [5,10,11,21,22,[25][26][27], E. coli and Klebsiella spp. the two predominant Gram-negative bacteria isolates in our study, were highly resistant to Ampicillin, Gentamycin and third generation Cephalosporines. Better susceptibility of E. coli and Klebsiella spp. for Ciprofloxacin and Amikacin were reported in our study which have been also demonstrated in other study findings [11,16]. These two drugs could be a potential antibiotic of choice for empiric treatment of neonatal sepsis in the future.

Limitations of the study
Some of the study participants were referred to our hospital and might have been partially treated or their mothers might have received antibiotics during labor and delivery which could significantly affect the yield of blood culture. There was no consideration of isolating anaerobic bacteria, which may cause neonatal sepsis rarely [6,7,24,28]. CoNS isolated in early neonatal sepsis may be due to contamination during blood collection. Extended beta lactamase resistant strains were not determined since there was limited availability of biochemical tests (e.g. IMVIC, MR-VP, different sugar tests, KIA) to solidify the research output and furthermore, molecular methods were not available.

Conclusion
CoNS, S. aureus, E. coli and Klebsiella spp. were the leading causes of neonatal sepsis in our study finding. These bacteria isolates were highly resistant to first-and second-line empiric antimicrobials used at NICU contracting antimicrobial choices for management of neonatal sepsis. Third line antibiotics relatively effective against isolated bacteria. High utilization rate of antibiotics is the most important contributory factor for the development of AMR and continuous surveillance is needed in order to keep national guidelines on antimicrobial therapy updated.