Colonization Rate of Potential Neonatal Disease-Causing Bacteria, Associated Factors, and Antimicrobial Susceptibility Profile Among Pregnant Women Attending Government Hospitals in Hawassa, Ethiopia.

INTRODUCTION: Vaginal colonization with some species of bacteria during the last term of pregnancy can affect the health of fetuses and newborns resulting in high morbidity and mortality among newborns.
OBJECTIVE: The aim of this study was to determine the colonization rate of potential neonatal disease-causing bacteria, factors associated with colonization rate, and the antimicrobial susceptibility profile of bacteria among pregnant women.
METHODS: Institution-based cross-sectional study was conducted on pregnant women from October 13 to December 28, 2020, at government hospitals located in Hawassa, Ethiopia. Background data were captured using a structured questionnaire. Vaginal swabs were collected to isolate bacteria using the standard method. Antimicrobial susceptibility test was performed using the modified Kirby-Bauer disc diffusion method. Data were analyzed using SPSS. Factors that could predict vaginal colonization with potential neonatal disease-causing bacteria were determined using logistic regression.
RESULTS: Overall bacterial colonization rate among pregnant women was 271 (98.9%) 95 CI (97.4‒100.1). The prevalence of potential neonatal disease-causing bacteria was 95 (34.7%) 95 CI (28.8‒40.1). The proportion of potential neonatal disease-causing bacteria were as follows: Escherichia coli (n=82, 29.9%), Acinetobacter species (n=9, 3.3%), Staphylococcus aureus (n=7. 2.6%), and Klebsiella pneumoniae (n=4, 1.5%). Pregnant women with a gestational age of 38‒40 weeks were 1.9 times (AOR= 1.9, 95% CI= 1.0-3.4, p=0.04) were more likely to be colonized by potential neonatal disease-causing bacteria. All E. coli, Klebsiella species, and Acinetobacter species were susceptible to gentamicin and imipenem. All S. aureus were susceptible to penicillin, tetracycline, clindamycin, and erythromycin.
CONCLUSION: High proportion of pregnant women in this study were colonized with potential neonatal disease-causing bacteria. E. coli was the predominant bacteria. Most bacteria isolated in this study were susceptible to antimicrobial agents tested. Gestational age was significantly associated with the colonization rate of potential neonatal disease-causing bacteria.

Introduction

Approximately four million children die within their first month of life; most newborns’ death occur in least income countries.1 Between 1998 and 2017, neonatal death declined from 50.6 to 28.9 per 1000 live births.2 In sub-Saharan Africa, about 34.6% to 66.0% of neonatal death occur within the first 24 hours after birth.3–5 In Ethiopia, 81,000 neonatal death occur per year.1 Most neonatal deaths are due to infection; the source of the infectious agent can be from mothers, family members, or health care workers. Bacteria such as Streptococcus agalactiae and Escherichia coli are the main causative agents of neonatal disease.4,5

Infections or colonization of the vagina compartment with some species of bacteria during pregnancy may cause amniotic fluid infection, preterm labor, premature rupture of the fetal membranes, and low birth weight leading to high prenatal mortality.6 The prevalence of bacterial colonization varies according to gestational age, race, genetic factors, socioeconomic status, and types of bacteria studied.7–9

There are several pieces of evidences that show vertical transmission of bacteria from pregnant women to their fetuses. Neonatal infection accounts for a significant proportion of death in the first week of life. Close to 30% of pregnant women who deliver at term have shown signs of chorioamnionitis.10

The bacteria most frequently involved in neonatal sepsis are Group B Streptococcus and E. coli, which account for the majority of infections combined.11 The prevalence of E. coli among pregnant women ranges from 5% to 45%.12,13 E. coli colonization may lead to obstetric infections and the subsequent development of infections among newborns. The rise of ampicillin-resistant strains of E. coli is a challenge for the treatment of obstetric and neonatal infections. S. aureus has also been reported as a causative agent for chorioamnionitis and neonatal sepsis in pregnancy.14 K. pneumoniae and Acinetobacter species can colonize pregnant women and cause neonatal sepsis.12,15–17

Maternal vaginal colonization with S. aureus, E. coli, Acinetobacter species, or K. pneumoniae could affect the health of mother and newborn. In Ethiopia, there is no published data that addresses colonization of pregnant women with more than one bacteria that could affect the health of newborns. This study aimed to determine the colonization rate of potential neonatal disease-causing bacteria, factors associated with colonization rate, and antimicrobial susceptibility profile among pregnant women at government hospitals located in Hawassa city, Ethiopia.

Materials and Methods

Study Design and Area

An institution-based cross-sectional study was conducted from October 13 to December 28, 2020, at Hawassa University Comprehensive Specialized Hospital (HUCSH) and Adare General Hospital (AGH). These hospitals are located in Hawassa city, Sidama Regional State, Ethiopia. Hawassa University Comprehensive Specialized Hospital provides antenatal care services for about 2560 pregnant women per year and 3896 pregnant women get delivery service at this hospital per year. Adare General Hospital provides antenatal care services for about 1540 pregnant women per year and 3154 pregnant women get delivery service at this hospital per year.

Operational Definition

Potential Neonatal Disease-Causing Bacteria

In this study, bacteria such as E. coli, S. aureus, K. pneumoniae, Acinetobacter species, Streptococcus agalactiae were considered as potential pathogen for neonatal disease, if they are isolated from pregnant women with gestational age ≥35 weeks.

Study Population

The study population was selected from pregnant women who visited the antenatal care (ANC) clinic of HUCSH and AGH during the study period. Pregnant women with gestational age ≥35 weeks and were voluntary to participate in the study were included. Pregnant women on active delivery and with a history of antibiotic use in the past two weeks were excluded from the study.

Sample Size Determination and Sampling Technique

A single proportion population formula was used to calculate the sample size by considering a previous prevalence reported from Ethiopia, 20.9%,18 5% margin of error, 95% confidence interval, and 10% for non-response rate. Accordingly, the total sample size was 279. To recruit participants, a convenient sampling technique was implemented.

Data Collection

Sociodemographic Data

A structured questionnaire was used to collect sociodemographic characteristics (maternal age, residence, marital status, occupation, and educational status) and clinical data (gravidity, prenatal care, urinary tract infection, outcomes of previous delivery, mode of delivery, prolonged rupture of membrane, and gestational age).

Isolation of Bacteria

The lower vaginal swab was collected using a sterile cotton-tipped swab (Oxoid, Basingstoke, UK). The swabs were inoculated onto Blood agar (Oxoid, Basingstoke, UK) and MacConkey agar (Oxoid, Basingstoke, UK) and then incubated aerobically at 37°C for 24 hours. Bacteria were identified using their characteristic appearance, Gram reaction, biochemical tests such as catalase, coagulase, kligler iron agar (KIA), motility, citrate, lysine decarboxylase, bile-esculin, malonate, and oxidase tests.19

Antimicrobial Susceptibility Testing

Antimicrobial susceptibility test (AST) was performed using the modified Kirby–Bauer disc diffusion method on Mueller-Hinton agar (Oxoid, Basingstoke, UK) according to Clinical and Laboratory Standards Institute guidelines (CLSI).20 Antibiotics tested were selected based on the prescription patterns in the study area and CLSI guidelines.20 Antibiotics selected include cefazolin discs (30 μg), cefepime (30 µg), ceftriaxone (30 µg), cefuroxime (30 µg), amoxicillin‒clavulanic acid (20 µg), penicillin (10 μg), erythromycin (15 µg), cotrimoxazole (25 µg), gentamycin (10 µg), imipenem (10μg), amikacin (30 µg), ciprofloxacin (5 µg), tetracycline (30 µg), vancomycin (30 µg), and clindamycin (2 µg). To determine the susceptibility of S. aureus to a vancomycin, vancomycin (MIC) E-test (Oxoid, Basingstoke, UK) was used. Briefly, from overnight bacterial growth, 3–5 pure colonies of bacteria were emulsified in 3–4 mL of sterile physiological saline until it matched the turbidity of 0.5 McFarland turbidity standard. The suspension was uniformly inoculated all over the surface of Mueller-Hinton agar using a sterile cotton swab. Antibiotic discs were placed manually on the inoculated Mueller-Hinton agar and incubated at 37°C for 18 hours. The zones of inhibition were measured using a caliper after overnight incubation. The result was interpreted as susceptible (S), intermediate (I), and resistant (R) according to CLSI.

Data Analysis

Data were entered and analyzed using Statistical Package for Social Science (SPSS) computer software (Version 25, SPSS Inc. USA). Descriptive statistics such as percentage, mean, and standard deviation were computed to assess the distribution of variables. Variables with a p-value less than 0.2 in univariable analysis were further analyzed by multivariable logistic regression. A p-value <0.05 was used as a cut point to determine a significant association between dependent and independent variables.

Data Quality Control

The questionnaire was prepared in English and translated to Amharic and then translated back to English to check for its consistency. The data collection tool was pre-tested among pregnant women representing 5% of the sample size. During data collection, captured data were checked for completeness, consistency, coding errors, accuracy, clarity, and missing values. A standard operating procedure was followed for specimen collection, isolation of bacteria, and AST.19 The sterility of culture media was checked by incubating 5% of the culture media at 35°C for 24 hours without inoculation. Performance of culture media was checked using S. aureus ATCC 25923, E. coli ATCC 25922, and P. aeruginosa ATCC 27853 reference strains.

Results

Sociodemographic Characteristics

Two hundred seventy-four (274) pregnant women were enrolled in this study with a 98.2% response rate. Out of the total participants, 156 (56.9%) were from HUCSH and 118 (43.1%) were from AGH. The mean age of the participants was 26.3 years (±SD±4.2; Range, 18–37 years). Seventy-six percent of participants belong to the age category of 20–30 years. Urban residents accounted for 76.3% and most of the study participants were married. More than half of the study participants were housewives, 32.8% had completed higher education, and 21.2% had no formal education (Table 1).

Table 1

Sociodemographic Characteristics of Pregnant Women Attending Antenatal Clinic of HUCSH and AGH from October 13 to December 28, 2020, Hawassa, Ethiopia (N=274)

Variables	Category	Frequency	Percent
Study site	HUCSH	156	56.9
	AGH	118	43.1
Age group in years	18–20	38	13.9
	21–30	210	76.6
	31–40	26	9.5
Residence	Urban	209	76.3
	Rural	65	23.7
Educational status	Primary	69	25.2
	Secondary	57	20.8
	Higher	90	32.8
	NFE	58	21.2
Marital status	Married	272	99.3
	Divorced	2	0.7
Occupation	Student	11	4.0
	Farmer	15	5.5
	Merchant	1	0.4
	Government employee	69	25.2
	Daily laborer	9	3.3
	House wife	144	52.6
	Others*	25	9.1
Type of house	Private	85	31
	Public	189	69
Domestic animal	Yes	47	17.2
	No	227	82.8
Source of drinking water	Public tap water	240	87.6
	Spring tap water	20	7.3
	Private	14	5.1
Cigarette smoking	Yes	–	–
	No	274	100
Chewing chat	Yes	–	–
	No	274	100
Alcohol drinking	Yes	–	–
	No	274	100

Note: *Private accountant, private auditor.

Abbreviations: AGH, Adare General Hospital; HUCSH, Hawassa University Comprehensive Specialized Hospital; NFE, no formal education.

Clinical and Obstetric Data

The mean gestational age of the study participants was 37.6 weeks (SD±1.6; Range, 35–42 weeks). Seventy-one percent of the study participants were multigravida and 48.5% used ultrasound to know gestational age (Table 2). In this study, 1.5%, 1.1% of participants were positive for Human Immuno Deficiency Virus (HIV) and Hepatitis B Virus (HBV), respectively (Table 3).

Table 2

Obstetrics-Related Characteristics of Pregnant Women Attending Antenatal Clinics of HUCSH and AGH, from October 13 to December 28, 2020, Hawassa, Ethiopia (N=274)

Variables	Category	Frequency	Percent
Vaginal cleaning after toilet	Plane water	243	88.7
	Soft Paper	31	11.3
Type of toilet	Private	83	30.5
	Public	189	69.5
Gestational age	35–37	116	42.3
	38–40	146	53.3
	>40	12	4.4
Method to know gestational age	Ultrasound	133	48.5
	LMP	97	35.4
	Others*	44	16.1
Type of gravida	Primigravida	71	26.3
	Multigravida	203	73.7
History of abortion	Yes	44	16.4
	No	159	83.6
No of children before current pregnancy	No children	89	32.5
	1–3	171	62.4
	>3	14	5.1
History of PROM	Yes	1	0.4
	No	202	99.6
History of labor <37wks	Yes	–	–
	No	203	100
History of neonatal infection	Yes	3	1.1
	No	200	98.9
History of neonatal death aged <7days	Yes	11	5.4
	No	192	94.6
Type of contraceptive used	Injectable	94	34.3
	Pills	33	12
	Implant	75	27.4
	Loop	6	2.2
	Injectable and pills	5	1.8
	None	61	22.3
Current ANC visit	Once	40	14.6
	Two times	55	20.1
	Three times	107	39.1
	Four times	72	26.3
Current Gestational DM	Yes	1	0.4
	No	273	99.6
Current Gestational hypertension	Yes	3	1.1
	No	271	98.9

Note: *Palpitation.

Abbreviations: AGH, Adare General Hospital; HUCSH, Hawassa University Comprehensive Specialized Hospital; ANC, antenatal care; CS, cesarean section; DM, diabetes mellitus; LMP, last menstrual period; SVD, spontaneous vaginal delivery; PROM, premature rupture of membrane.

Table 3

Clinical Characteristics of Pregnant Women Attending Antenatal Clinics of HUCSH and AGH, from October 13 to December 28, 2020, Hawassa, Ethiopia (N=274)

Variables	Category	Frequency	Percent
History of hospitalization in the past 3 months	Yes	1	0.4
	No	273	99.6
HIV status	Positive	4	1.5
	Negative	270	98.5
Syphilis status	Reactive	–	–
	Non-reactive	274	100
HBV status	Positive	3	1.1
	Negative	271	98.5
HCV status	Positive	–	–
	Negative	274	100
Hemoglobin level in mg/dl	<12mg/dl	84	30.7
	≥12mg/dl	190	69.3
Current UTI	Present	2	0.7
	Not present	272	99.3
Vaginal discharge	Present	8	2.9
	Not present	266	97.1

Abbreviations: AGH, Adare General Hospital; HUCSH, Hawassa University Comprehensive Specialized Hospital; HBV, hepatitis B virus; HCV, hepatitis C virus; HIV, human immune-deficiency virus; UTI, urinary tract infection.

Bacterial Colonization Rate

Out of the 274 pregnant women, 271 (98.9%) 95% CI (97.4‒100.1) were colonized with different types of bacteria. All participants from AGH 118 (100%) and 156 (98.1%) from HUCSH were colonized with bacteria. The prevalence of potential neonatal disease-causing bacteria was 95 (34.7%) 95% CI (28.8‒40.1). The prevalence of potential neonatal disease-causing bacteria was as follows: E. coli 82 (29.9%), Acinetobacter species 9(3.3%), S. aureus 7(2.6%), and K. pneumoniae 4(1.5%). Among 95 participants colonized with the potential neonatal disease‒causing bacteria, 48 (40.7%) and 47 (30.1%) were from AGH and HUCSH, respectively. One hundred forty-seven (53.6%) and 50 (18.2%) participants were colonized with two and three different types of bacteria, respectively. Seventy-four (27%) participants were colonized with a single type of bacteria whereas 3(1.1%) participants were not colonized with any bacteria.

Proportion of Isolated Bacteria

From 490 bacteria isolated, Coagulase-negative Staphylococcus (CONS) was the predominant bacteria, (46.3%) followed by E. coli (16.7%), S. viridians (3.5%), Acinetobacter species (1.8%), and Enterococcus species (1.6%) (Figure 1). Out of the total bacteria, 102 (20.8%) were potential neonatal disease-causing bacteria. Among them, the predominant was E. coli 82 (80.4%) followed by Acinetobacter species 9(8.8%), S. aureus 7(26.8%), and K. pneumoniae 4(3.9%).

Figure 1

Proportion of bacteria isolated from pregnant women attending HUCSH and AGH from October 13 to December 28, 2020, Hawassa, Ethiopia (n=490). *Gram-positive rod, Gram-negative rod with no growth on MacConkey, Gram-negative diplococci.

Factors Associated with the Prevalence of Potential Neonatal Disease-Causing Bacteria

Independent variables such as age, study site, gestational age, ways of vaginal cleaning, type of house, type of toilet, and source of drinking water had a p-value less than 0.2 in bivariate analysis. These factors were further analyzed using multivariate logistic regression. In multivariate analysis, study site and gestational age were significantly associated with the prevalence of potential neonatal disease-causing bacteria. Pregnant women within the gestational age of 38‒40 weeks were 1.9 times likely to be colonized by potential neonatal disease-causing bacteria (p=0.04) (Table 4).

Table 4

Bivariate and Multivariate Analysis of Factors Associated with the Prevalence of Potential Neonatal Disease-Causing Bacteria Among the Study Participants at HUCSH and AGH from October 13 to December 28, 2020, Hawassa, Ethiopia (N=274)

Variables	Category	Culture Result (n, %)		COR (95% CI)	AOR (95% CI)	p-value
		Positive	Negative
Study site	HUCSH	47 (30.1)	109 (69.9)	0.6 (0.4‒1.0)	0.5 (0.3‒1.0)	0.04
	AGH	48 (40.7)	70 (59.3)	1	1
Age group in year	18–20	9 (23.7)	29 (76.3)	1	1
	21–30	76 (36.2)	134 (64.6)	1.8 (0.8‒4.0)	1.5 (0.6‒3.4)	0.4
	31–40	10 (38.5)	16 (61.5)	2 (0.7‒5.9)	1.9 (0.6‒5.8)	0.3
Ways of vaginal cleaning	Plane water	89 (36.6)	154 (63.4)	2.4 (1.0‒6.0)	1.4 (0.5‒4.6)	0.5
	Soft paper	6 (19.4)	25 (80.6)	1	1
Gestational age	35–37	36 (31.0)	80 (69.0)	1	1
	38–40	57 (39.0)	89 (61.0)	1.4 (0.8‒2.4)	1.9 (1.0‒3.4)	0.04
	>40	2 (16.7)	10 (83.3)	0.4 (0.09‒2.1)	0.9 (0.2‒4.5)	0.9
Type of houses	Private	24 (28.2)	61(71.8)	1	1
	Public	71 (37.6)	118 (62.4)	1.5 (0.9–2.7)	2.2 (0.1–37.9)	0.6
Type of toilets	Private	23 (27.7)	60 (72.3)	1	1
	Public	72 (37.7)	118 (62.4)	1.6 (0.9–2.8)	3.3 (0.2–59.0)	0.4
Source of drinking water	Public tap water	85 (35.4)	155 (64.6)	3.3 (0.7–15)	1.4 (0.2–8.9)	0.7
	Spring tap water	8 (40.0)	12 (60.0)	4 (0.7–22.9)	2.1 (0.3–16.0)	0.5
	Private inside access	2 (15.3)	12 (85.7)	1	1

Abbreviations: AGH, Adare General Hospital; HUCSH, Hawassa University Comprehensive Specialized Hospital.

Antimicrobial Susceptibility Profile

In the present study, we conducted AST for a total of 102 bacteria. These bacteria belong to E. coli (n=82, 80.4%), Acinetobacter species (n=9, 8.8%), K. pneumoniae (n=4, 3.9%), and S. aureus (n=7, 6.8%). All E. coli were susceptible to amikacin, ceftriaxone, gentamicin, and imipenem. Two (2.5%), 1 (1.2%), 2 (2.5%), 7 (8.5%), 1 (1.2%), and 23 (28.1%) of E. coli were resistant to amoxicillin and clavulanic acid, cefazolin, cefepime, cefuroxime, ciprofloxacin, and cotrimoxazole, respectively. All K. pneumoniae were susceptible to amikacin, cefazolin, cefepime, ceftriaxone, cefuroxime, ciprofloxacin, and gentamicin (Table 5).

Table 5

Antimicrobial Susceptibility Profile of Selected Bacteria Isolated from Pregnant Women Attending at HUCSH and AGH from October 13 to December 28, 2020, Hawassa, Ethiopia (n=122)

Type of Bacterial Isolates (n)		Antimicrobial Susceptibility Profile n (%)
		AN	AMC	CZ	FEP	CRO	CXM	CIP	COT	CN	IMP	VA	P	TE	CD	ERY	VA
E. coli (n=82)	S	82 (100)	80 (97.5)	81 (98.1)	79 (96.3)	82 (100)	75 (91.5)	81 (98.8)	58 (70.7)	82 (100)	82 (100)	–	–	–	–	–	–
	I		–	–	1 (1.2)	–	–	–	1 (1.2)	–	–	–	–	–	–	–	–
	R		2 (2.5)	1 (1.2)	2 (2.4)	–	7 (8.5)	1 (1.2%)	23 (28.1)	–	–	–	–	–	–	–	–
Acinetobacter species (n=9)	S	9 (100)	8 (88.9)	9 (100)	8 (88.9)	9 (100)-	6 (66.7)	9 (100)	8 (88.9)	9 (100)	9 (100)	–	–	–	–	–	–
	I		–	–	–	–	–	–	–	–	–	–	–	–	–	–	–
	R		1 (11.1)	–	1 (11.1)		3 (33.3)	–	1 (11.1)	–	–	–	–	–	–	–	–
K. pneumoniae (n=4)	S	4 (100)	3 (75)	4 (100)	4 (100)	4 (100)	4 (100)	4 (100)	3 (75)	4 (100)	4 (100)	-	-	-	-	-	-
	I	–	–	–	–	–	–	–	–	–	–	–	–	–	–	–	–
	R	–	1 (25)	–	–	–	–	–	1 (25)	–	–	–	–	–	–	–	–
S. aureus (n=7)	S	–	–	–	–	–	–	–	–	–	–	4 (57.1)	7 (100)	7 (100)	7 (100)	7 (100)	–
	I	–	–	–	–	–	–	–	–	–	–	2 (28.6)	–	–	–	–	–
	R	–	–	–	–	–	–	–	–	–	–	1 (14.3)	–	–	–	–	–

Abbreviations: AGH, Adare General Hospital; HUCSH, Hawassa University Comprehensive Specialized Hospital; AN, amikacin; AMC, amoxicillin and clavulanic acid; CD, clindamycin; CIP, ciprofloxacin; CN, gentamicin; CRO, ceftriaxone; COT, cotrimoxazole; CXM, Cefuroxime; CZ, cefazolin; ERY, erythromycin; FEP, cefepime; IMP, imipenem; P, penicillin; TE, tetracycline; VA, vancomycin; VA MIC, vancomycin minimum inhibitory concentration.

Discussion

Vaginal colonization with some species of bacteria in late pregnancy may affect the health of the newborn. In this regard, S. agalactiae was the leading cause of neonatal disease in developed countries until it was under control by Intrapartum antimitotic prophylaxis.21 However, invasive S. agalactiae is not frequently reported from developing countries including Ethiopia. Instead of S. agalactiae, other bacteria are commonly isolated from newborns with sepsis.22

The overall prevalence of potential neonatal-disease causing bacteria among pregnant women in the current study (34.7%) was similar to the study conducted in India (34%)17 and Sri Lanka (32.8%);23 however, it was higher than the prevalence reported from Indonesia (24.4%),16 Sudan (12%),9 and Korea (6%).24 On the other hand, our finding was lower than the prevalence reported from Uganda (55%).25 The discrepancies could be due to the fact that the current study considered four bacterial species as a potential pathogen for neonatal disease while the other studies considered different types and numbers of bacteria. The variations could also be due to gestational age and laboratory methods used.

A newborn can acquire potential pathogenic bacteria from the mother before birth or through horizontal transfer. E. coli is among the potential neonatal disease-causing bacteria. In the present study, a high prevalence of E. coli (29.9%) was detected. The prevalence of E. coli among pregnant women varies across different countries. Unlike our study, a higher proportion of E. coli was reported from South Africa (45.1%),13 Iran 56.3%),8 and Uganda (34.5%).25 On the other hand, the prevalence of E. coli we identified (29.9%) was higher than the prevalence reported from Nigeria (5%),12 North-eastern India (16.3%),26 India (19.6%),17 Sudan (6%),9 Spain (13%),27 Sri Lanka (5.6%),23 and Indonesia (3.3%).16 The difference could be due to socioeconomic background and contamination during sample collection. Moreover, admission to a hospital for delivery, gestational age, hygienic, and environmental conditions in the given locales could have contributed to the difference observed.

K. pneumoniae is a common bacteria isolated from newborns suspected of neonatal sepsis at HUCSH (personal communication and observation). The source of infection is not clear; it needs further investigation. One possibility is vertical transmission of K. pneumoniae from colonized pregnant women to newborns. In the present study, we have isolated K. pneumoniae from pregnant women with a prevalence of 1.5%. The finding was similar to the prevalence of K. pneumoniae reported from Nigeria (2%).12 In contrast, countries such South Africa (7.7%),13 India (7%),17 Sri Lanka (12.4%),23 Indonesia (3.3%),16 and Uganda (9.8%) reported a high prevalence of K. pneumoniae.25 A study from Morocco reported lower proportion of K. pneumoniae (0.6%).15 The difference could be due to a study from Nigeria and Sri Lanka calculated a prevalence for the total Klebsiella species; in our case, we have considered only one species (K. pneumoniae).

Another potential pathogen detected in this study was S. aureus with the prevalence of 2.6%. Our finding is lower than a study conducted in Sudan (6%),9 Maiduguri, Nigeria (9%),12 India (5.4%),17 Indonesia (18.6%),16 United States (13.7%),14 China (7.3%),28 and Uganda (8.2%).25 The difference could be due to the underlying condition of participants, socioeconomic status of participants, gestational age at which specimens were collected. For example, all participants of the Indonesian study were in gestational age of 35–40 weeks and they were admitted for parturition.16 All the Sudanese participants were suspected of infection and they were in different gestational ages.9

The last potential pathogenic bacteria we selected in the present study was Acinetobacter species. The prevalence of Acinetobacter species (3.2) is consistent with a study conducted in Indonesia (3%);16 however, relatively lower prevalence was reported from Uganda (2.2%)25 and India (1%).17 On the other hand, a higher prevalence of Acinetobacter (7.2%) species was reported from Malaysia.29

We assessed the antimicrobial susceptibility profile of 102 bacteria from 4 different categories. All E. coli were susceptible to imipenem which is in line with a report from Sri Lanka.23 Moreover, the majority the E. coli were also susceptible to ciprofloxacin. Similar to the current study, most E. coli from Sudan9 and Sri Lanka23 were susceptible to ciprofloxacin. Almost all E. coli isolated in this study were susceptible to amoxicillin and clavulanic acid which is, in contrast, to a study conducted in Sudan, where only 20% of E. coli were resistant to amoxicillin and clavulanic acid.9 According to a study conducted in various parts of Nigeria, 25%, and 62% of E. coli were susceptible to cefuroxime, ciprofloxacin, and gentamicin, respectively.12 The report from Nigeria12 disagrees with our finding, in which most E. coli we isolated were not susceptible to mentioned antibiotics. Unlike our study, greater than 50% of E. coli isolated in India were resistant to amoxicillin, cefuroxime, ceftriaxone, ciprofloxacin, and cotrimoxazole.17

In the current study, all K. pneumoniae were susceptible to all antimicrobial agents tested except amoxicillin and clavulanic acid (75%) and cotrimoxazole (75%) which is, in contrast, to a study conducted in Nigeria12 and India.30 According to a study conducted in Morocco15 83% of K. pneumoniae were susceptible to ciprofloxacin which is, in contrast, to the current study. A report from India indicated a high proportion of Klebsiella which were resistant to ciprofloxacin (51%), cotrimoxazole (55%), and cefuroxime (69%).17 The difference could be due to repeated or misuse of the antibiotics or it could be due to the small number of K. pneumoniae tested in the present study.

Unusually, all S. aureus identified in this study were susceptible to penicillin, tetracycline, clindamycin, and erythromycin and 57.1% were susceptible to vancomycin. This finding is not in line with a report from Nigeria which reported clindamycin and erythromycin-resistant S. aureus.31 High susceptibility to penicillin and resistance to vancomycin observed in this study are unusual. In contrast to this study, significant number of S. aureus isolated in this study were resistant to penicillin.32 Like our study, all S. aureus isolated from HIV-infected individuals from Hawassa, Ethiopia, were susceptible to penicillin.33 Most Acinetobacter species isolated in this study (33.3%) were resistant to cefuroxime; this finding is comparable with a study conducted in Kenya.34

Among different factors we assessed, gestational age was significantly associated with colonization of potential neonatal disease-causing bacteria. Pregnant women within the gestational age of 38‒40 weeks were about 1.9 times more likely to be colonized by potential neonatal disease-causing bacteria (p=0.04). This finding is not in line with a study conducted in the United States14 and Bangladesh.35 The difference could be because of types and number of bacteria studied. In a study conducted in the United States, only S. aureus was included.14 Other factors were not significantly associated with the prevalence of potential neonatal disease-causing pathogenic bacteria (p>0.05).

Limitation of the Study

Because of the lack of necessary reagents, we did not address Streptococcus agalactiae. As we used a convenient sampling technique, a selection bias could not be avoided. The operational definition we used for “potential neonatal disease-causing bacteria” is not standard and it may vary across the studies.

Strength of the Study

In this study, we tried to address potential pathogenic bacteria that can reside in a vaginal compartment of pregnant women and may cause neonatal disease.

Conclusions

This study revealed a high colonization rate of potential neonatal-disease causing bacteria in pregnant women. The most prevalent potential pathogen was E. coli followed by Acinetobacter species, S. aureus, and K. pneumoniae. All bacteria isolated in this study were susceptible to most antimicrobial agents tested. Pregnant women within the gestational age of 38‒40 weeks were 1.9 times more likely to be colonized by potential neonatal-disease causing bacteria.