Prevalence of rectal carbapenem resistant Enterobacterales carriage among patients attending healthcare facilities in Ibadan, Nigeria: a descriptive study

Background Carbapenem Resistant Enterobacterales (CRE) infections are increasingly associated with or directly responsible for morbidity and mortality from bacterial infections in sub-Saharan Africa where there are limited antibiotic options. CRE rectal colonization of patients in healthcare facilities provides a reservoir of these organisms and could potentially cause invasive infections in these settings. The prevalence of rectal carriage among patients attending healthcare facilities in Nigeria has not been previously described. We set out to assess the prevalence of rectal CRE carriage and their antibiotic susceptibility patterns among patients attending healthcare facilities in Nigeria. Methods A descriptive cross-sectional study was carried out from December 2021 to September 2022 in Ibadan, in which patients attending primary, secondary and tertiary healthcare facilities were screened for rectal carriage of CRE by microscopy, culture and sensitivity of rectal swab specimens. Results A total of 291 patients were screened; 45 (15.5%), 66 (22.7%) and 180 (61.8%) at primary, secondary and tertiary healthcare facilities, respectively. All but one of them had received a third-generation cephalosporin or carbapenem in the preceding 30 days. The mean age was 28.8 years and 55.7% were male. Overall, 51 (17.5%) participants had CRE colonization, with 5(11.1%), 9(13.6%) and 37(20.6%) at primary, secondary and tertiary healthcare facilities, respectively (p = 0.243). Regarding antimicrobial susceptibility, 43(84.3%) CRE isolates were resistant to at least 3 different classes of antibiotics while two Escherichia coli isolates were resistant to all 5 classes of antibiotics tested. The lowest rates of CRE resistance were to tigecycline (6, 11.5%) and colistin (8, 15.7%). Conclusions In this first study on CRE colonization in Nigeria, we found that a substantial proportion of patients in three levels of healthcare facilities had rectal carriage of CRE, including pan-resistant isolates. Active surveillance and appropriate infection prevention and control practices (IPC) need to be urgently strengthened to mitigate the risk of active CRE infection. Trial registration Not applicable. Supplementary Information The online version contains supplementary material available at 10.1186/s12879-024-09627-z.


Background
As a group, Enterobacterales are the leading cause of healthcare associated and community acquired infections [1].Carbapenem resistant Enterobacterales (CRE) are resistant to carbapenems, often the last line of antibiotics available to treat multi-drug resistant gram-negative infections in resource limited settings [2].Using predictive statistical models, the Global Burden of antimicrobial resistance (AMR) 2019 study estimated the all-age mortality rates attributable to AMR to be highest in the West African sub-region [3].In addition, the commonly encountered Enterobacterales, Escherichia coli and Klebsiella pneumoniae were found to be the two leading pathogens responsible for death associated with AMR in 2019 [3].The human gut serves as a reservoir for Enterobacterales and can be a source for invasive Enterobacterales infections to the host itself as well as those around them.There is evidence to support the role of colonizing Enterobacterales leading to invasive infection at other anatomical sites within the individual [4,5].Studies have shown that a significant proportion of patients with colonization can progress to invasive infection in a matter of days [over one-third in one intensive care unit (ICU) cohort, within a mean period of 6.5 days] [6].In addition, globalization and rapid travel between countries and regions has made CRE colonization and infection data important globally.A study in the Netherlands found recent hospitalization abroad to be a risk factor for colonization with CRE [7].A study from China showed that certain factors such as being hospitalized more than three times, being in a coma and receiving carbapenems are risk factors for invasive CRE disease in patients with previous colonization [8].
All of these suggest that exploring the burden of CRE colonization in any patient population might provide a signal for the potential burden and risk of invasive CRE disease in that population.CRE were known to be associated with healthcare associated infections and not community acquired infections.However, given the widespread and often unregulated use of antibiotics in low-and-middle-income countries (LMICs), increase in complex outpatient medical procedures and other frequent exposures to healthcare, it is not surprising that CRE colonization may be seen in patients without the traditional risk factors and that CRE infections are increasingly community acquired.
There are limited data about colorectal carriage of CRE in patients attending healthcare facilities in sub-Saharan Africa in general and Nigeria in particular [9].While there exist data on invasive clinical infections including molecular characteristics, there are no published studies on fecal carriage of CRE in patients at primary, secondary and tertiary healthcare hospitals in Nigeria and rectal screening is not carried out routinely in Nigerian hospitals.There are policies aimed at preventing and controlling CRE infections at hospitals in Nigeria.These are mainly related to hand hygiene and regulation of broad spectrum antibiotic use.Implementation of these policies is inconsistent because of inadequate resources to support antimicrobial stewardship (AMS) and IPC.
Screening for CRE carriage is a preemptive and integral component of a multimodal approach to preventing invasive CRE infections along with other strategies such as handwashing and staff education [9,10].To fill a significant data gap regarding CRE colonization in Nigeria, we set out to measure the prevalence of CRE rectal colonization in select patients attending healthcare facilities in Ibadan, Nigeria.We also studied the antimicrobial susceptibilities of the CRE isolates.

Study setting and sites
The study was designed to take place concurrently in 3 West-African countries namely, Nigeria, Sierra Leone and Ghana.This is a report of the research at the Nigerian sites as the study has not yet been completed at the other sites.The study took place in Ibadan, Nigeria's third most populous city with a population of 3.9 million, located in Southwestern part of the country [11].It was a cross-sectional study carried out at one tertiary hospital, 3 secondary hospitals and 3 primary healthcare centers (PHCs).The main teaching hospital in Ibadan, the University College Hospital (UCH) was selected along with 3 secondary facilities: (Oni Memorial Children's Hospital, Ring Road State Hospital and Our Lady of Apostles (OLA) Catholic Hospital, Oluyoro) and 3 PHCs.The PHCs selected were ALGON, Oke Adu and Oniyanrin PHCs, they are all located outside the local government areas (LGAs) in which the secondary and tertiary facilities are located.
The UCH is situated in Ibadan North Local Government Area (LGA) and its immediate catchment covers all 5 urban LGAs of Ibadan city with an estimated population of about 3 million individuals.The Ring Road State Hospital is a 200 -bed hospital which provides a comprehensive suite of medical and surgical services, drawing patients from the entire city of Ibadan and surrounding communities.It is a referral center for other primary and secondary facilities in the city and refers necessary cases out to the UCH.The Oni Memorial Children's Hospital is a 62 bed state owned secondary healthcare facility which serves the city of Ibadan.OLA catholic hospital is a mission hospital with 160 beds which provides medical, surgical, paediatric, obstetric and gynaecologic services to patients from all over the city of Ibadan.The PHCs largely serve the communities in which they are located.

Sampling method
The sample size was calculated using WinPepi version 11.65 [12].The sample was determined to estimate a CRE rate of 100 per 1000 with an acceptable difference of 20 per 1000 at 95% confidence.This derived a minimum sample of 865 across three countries.We aimed to recruit a total of 900 (300 per country); 60%, 25% and 15% of patients to be recruited from tertiary, secondary and primary healthcare facilities respectively.A total of 291 patients were eventually recruited in Nigeria as follows: 180 at the tertiary hospital, 66 at the secondary facilities and 45 at the primary healthcare facilities.The target of 75 patients at the secondary level fell short by 7 patients because of low hospital utilization and slow recruitment rates till the end of the study period.
Certain criteria were used to identify patients at high risk of CRE colonization at primary, secondary and tertiary healthcare facilities.The criteria included exposure to carbapenems or 3rd or 4th generation cephalosporins in the preceding 30 days, ICU care, burn unit admission, hemodialysis, abdominal surgery and bladder catheterization for more than 48 h.See full list of enrollment criteria in additional file 1.
Patients with active lower gastrointestinal bleed, rectal or peri-rectal pathology and diagnosed invasive CRE infection were excluded from the study.This was to avoid causing discomfort to the patient, provoking a bleed or exacerbating the condition.

Clinical and Laboratory methods
Informed consent was obtained from patients who met inclusion criteria.Rectal swabs were collected by trained research nurses and transported in a cold box to the on-site microbiology laboratory at the tertiary hospital for processing.The temperature of the cooler box was maintained at between 2 and 8 degrees centigrade.Preconditioned gel packs and temperature data loggers were placed inside the cooler boxes.Samples were placed in a manner that allows even cooling.During transit, continuous monitoring of the temperature was done using the data logger.Upon arrival, the temperature records were checked to ensure the samples were kept within the desired range.Specimens collected from the primary and secondary centers were transported to the laboratory at the tertiary center in Amies transport medium.Patients were recruited from medical, surgical and pediatric wards after admission.At the primary healthcare centers, they were recruited during their ambulatory visit to the center.
Intermediate susceptibility and resistance to carbapenems were tested using modified Kirby Bauer disc diffusion method and evaluated according to the CLSI-2021 guidelines.For the purposes of analysis and discussion all intermediate and resistant isolates were classified as CRE.Escherichia coli (ATCC 25,922), Staphylococcus aureus (ATCC 25,923) and Pseudomonas aeruginosa (ATCC 27,853) control strains were used as control strains.As described by CLSI, carbapenemase production was tested using the modified carbapenamase inhibition method (mCIM).The mCIM is a phenotypic test to detect carbapenemase production in bacteria, particularly Enterobacterales.In this method, a carbapenem disk (e.g., meropenem) is incubated with a suspension of the test organism, then placed on a Mueller-Hinton agar plate inoculated with Escherichia coli (ATCC 25,922) and incubated overnight.Carbapenemase producing bacteria inactivate the carbapenem, resulting in little to no inhibition zone around the disk, allowing E. coli to grow close to the disk.In contrast, a clear inhibition zone indicates no carbapenemase production.An inhibition zone diameter of ≤ 15 mm was indicative of carbapenemase-producing carbapenem-resistant Enterobacterales (CP-CRE).E. coli ATCC 25,922 was used as quality control strain in antimicrobial susceptibility testing.E. coli NCTC-13,476 (blaIMP positive) and K. pneumoniae NCTC-13,440 (blaVIM-1 positive) were also used for positive control for mCIM.
Isolates were considered pan-resistant if they are resistant to at least one drug in all 5 classes of antibiotics or multi-drug resistant (MDR) if they are resistant to at least one antibiotic in three classes of antibiotics.

Data analysis
Data were analyzed using the IBM SPSS package version 22. Categorical variables were summarized as proportions, normally distributed quantitative variables were summarized as means with standard deviation while skewed quantitative variables were summarized as medians with interquartile ranges.The proportion of patients with CRE were determined and compared across facilities using chi square tests.All statistical testing were conducted at α -0.05.

Demographic characteristics of study participants
Of the 291 study participants, 45 (15.5%), 66 (22.7%) and 180 (61.8%) were enrolled at primary, secondary and tertiary healthcare centers, respectively.There were 162 (55.7%) males and the mean age of all participants was 28.8 (24.9) years.The largest age group of patients were those aged 40-64 years, with 83 (28.5%) patients in that category (Table 1).

Risk factors and outcomes of CRE colonization
All but one of the 291 patients had either received a carbapenem or 3rd /4th generation cephalosporin within the 30 days prior to the participation in the study (

Discussion
Our study evaluated colorectal carriage of Enterobacterales which are resistant to carbapenems in high-risk patients attending the 3 levels of healthcare facilities in Ibadan, Nigeria.A study which has hitherto not been conducted.We found carriage of CRE at all three levels of healthcare.Expectedly, the proportion of patients with CRE colonization increased from the PHC to tertiary level although this difference was not statistically significant (P = 0.2).This signifies that CRE carriage is not limited only to hospitalized patients previously considered to be 'high-risk' but also out-patients and possibly their healthy household contacts.It also reinforces the importance of (IPC) practices in healthcare facilities and water and sanitation in the community.
A study among hospitalized children in tertiary hospital In Lome, Togo revealed 6.9% fecal carriage of CRE [14].Similar proportions of rectal carriage of CRE were reported among children admitted to an academic hospital in Cape Town [15].These carriage rates are lower than the 17.5% of all recovered isolates and 26.4% of the patients admitted to pediatric wards found in our study.
Umar et al. found 14.9% CRE prevalence among cephalosporin resistant bacterial isolates obtained from clinical specimens at a tertiary hospital in Kano, Nigeria while Jamal and colleagues reported prevalences of 8% and 14% CRE among clinically significant Enterobacterales isolates in hospitalized patients in Nigeria and Kuwait, respectively [16,17].Suweiba et al. in Kaduna, Nigeria found 6.1% resistance of E. coli and 6.5% resistance of Klebsiella spp. to meropenem and ertapenem respectively among these isolates cultured from urine samples [18].The latter three of these CRE studies involved isolates from clinical specimens (and not colorectal carriage), highlighting the paucity of data on screening for asymptomatic CRE carriage in Nigerian healthcare facilities.Given that only high-risk patients were screened in our study, we are unable to arrive at an estimate of the prevalence of CRE carriage in the general population of patients attending the healthcare facilities.However, it is notable that all but one of the patients in our study met the enrollment criterion of antibiotic use which is quite common in ours and similar facilities.A point prevalence study done at the University College Hospital in 2020 reported 59.6% of all patients surveyed on 38 different wards received at least one dose of antibiotics and the most frequently used antibiotic was a third-generation cephalosporin [19].Of note, our study did not identify any significant risk factors for CRE colonization and that was probably due to the modest size of our study.
The importance of the possible downstream sequelae of CRE colonization cannot be over emphasized.A study in Oman showed that patients with CRE bacteremia who required ICU care were more likely to also be colonized with CRE [20].Another study from China showed that CRE K. pneumoniae rectal colonization is an independent risk factor for CRE K. pneumoniae blood stream infection in allogeneic hematopoetic stem cell transplant patients [21].Patients in ICUs have historically been targeted for CRE rectal surveillance in high income countries for multiple reasons including extensive antibiotic use and the critical health status of the patients which would make drug resistant infections all the more difficult to treat.Our study had relatively few ICU patients but nevertheless had substantial rates of CRE colonization.
We found that 11.1% of patients at the primary healthcare level were colonized with CRE.These were patients with antibiotic use as a predisposing factor rather than hospitalization and/or current in-patient healthcare exposure (all participants at the PHC level met the criterion of antibiotic use in the preceding 30 days).This finding was similar to a multi-center study in the US which showed 10% community acquired CRE colonization among hospitalized patients.[22].This finding that over one in ten out-patients attending primary healthcare facilities in Ibadan who had received a cephalosporin antibiotic are colonized with CRE has great implications for potential spread of CRE within the community.We also found that in-patient pediatric patients also had a significantly higher proportion of CRE colonization than in-patient adult medical and surgical patients which might be related to high antibiotic use as previously described in our tertiary hospital [19].Expectedly, there was almost universal resistance to 3rd generation cepahlosporins and amoxicillin-clavulanate.The lowest overall resistance in the CRE isolates was to tigecycline with a slightly higher overall resistance to colistin.This is similar to what was reported by Sader et al. from 70 US hospitals [23].Notably, 2 of the 51 (3.9%) CRE isolates were resistant to all locally available antibiotics while 84.3% of them were multiple drug resistant.
Our study has some limitations.The high rates of CRE colonisation in our study population is likely higher than the prevalence in the populations accessing care in our healthcare facilities due to our selection criteria.Nevertheless, it demonstrates, for the first time in Nigeria, CRE carriage for patients attending all levels of healthcare.This calls for increased surveillance and evidence-based guidelines for targeted screening and appropriate IPC interventions where necessary.Given that only highrisk patients, rather than all patients attending the facilities were screened, we are not able to comprehensively assess for risk factors for CRE colonization among all patients attending these healthcare facilities.This needs to be investigated to better understand the burden of CRE colonisation in hospital and the community, and to guide IPC and water, sanitation and hygiene practices.This will help control spread of these MDR organisms and address attendant risk of progression to invasive CRE infection which is associated with high mortality rates and additional healthcare costs.In addition, our study did not evaluate molecular characteristics of the CRE isolates found.This would have provided information on the mechanisms of carbapenem resistance which would then inform the appropriate IPC practices to prevent the spread of such isolates.Lastly, our study did not evaluate the susceptibility of the CRE isolates to newer antibiotics for CRE such as ceftazidime-avibactam and cefidorecol.As such, we are unable to make specific recommendations for the expansion of access to specific antibiotics to treat invasive infections caused by these isolates.

Conclusion
We have documented for the first time, a high magnitude of rectal colonization with CRE among high-risk patients attending primary, secondary and tertiary healthcare facilities in a major city in Nigeria.Patients in tertiary healthcare facilities and pediatric wards were more frequently colonized than other groups.IPC practices, antimicrobial stewardship and water sanitation and hygiene practices should be strengthened to prevent the spread of colonizing CRE in healthcare and community settings.

Fig. 1
Fig. 1 Flowchart of Clinical and Laboratory Methods

Table 1
Profile and selected care details of study participants

Table 2
).There were 104 (35.7%) patients with urinary catheters and 16 (31.4%) of them were colonized with CRE.On the other hand, only 35 (18.7%) of 187 patients without urinary catheters were colonized with CRE.The mean (SD) number of days on admission before participation in the study for those colonized and not colonized with CRE

Table 2
Clinical details of study participants

Table 3
CRE resistance to other antibiotics