Prevalence and antibiogram study of Staphylococcus aureus isolated from clinical and selected drinking water of Dutsin-Ma, Katsina state, Nigeria

Background Multidrug resistant Staphylococcus aureus in clinical and environmental samples is a global problem. Data comparing antibiogram of bacteria from these two sources in Nigeria is scarce. Therefore, this study compares antibiogram of isolates from both sources from Dutsin-Ma, Katsina State, Nigeria. Methodology A total of 120 and 150 clinical and aquatic samples respectively were collected for a five months period. Samples were analyzed for isolation of S. aureus using mannitol salt agar. Bacteria identification were carried out using standard biochemical characterization. Antibiogram of the isolates were determined using disc diffusion methods and comparison with Clinical Laboratory Standard Institute (CLSI)'s Standard. Result A total of 120 and 45 S. aureus were isolated from both clinical and aquatic samples respectively. Highest (100.0%) resistance to cloxacillin was observed among isolates from each source. Clinical and aquatic isolates showed least resistance of 20.0% and 48.0% respectively to gentamicin. All isolated S. aureus (165) from this studies were multidrug resistant with different antibiotic resistant pattern. Conclusion This study revealed that multidrug resistance strains of S. aureus can be isolated from both clinical and drinking water sources, hence, a public health significance that calls for urgent attention by clinicians and public health workers.


Introduction
S. aureus, is a facultative aerobic, Gram-positive cocci which has an inherent ability to ferment carbohydrates, producing quite a number of pigmentation ranging from white to deep yellow (on mannitol salt agar). They are easily identified by detecting the presence of deoxyribonuclease (DNase), catalase enzymes and coagulase proteins produced by them. 1 S. aureus has been implicated in many nosocomial infections 2 including some invasive infections such as noso-comial bacteremia and septicemia (sepsis). 3 MRSA is a major public health concern and is responsible for both hospital-and community-associated infections worldwide. 4,5,6,7,8,9 Although ubiquitous in nature, the occurrence and distribution of these organisms have been reported to be influenced by geographical location, type of hospital and studied population. 1 Moreover, there are few studies in Nigeria that compare antibiogram of this bacterium based on these different criteria.
however, a paucity of information on the isolation of S. aureus from Dutsin-Ma drinking water.
Researchers have reported that the presence of the organism in high concentrations in swimming pools 17 and bathing beaches 14 were associated with the skin and eye infections of the bathers. 15,16 However only few studies have reported this phenomenon especially in Nigeria. Likewise, studies have also shown that most S. aureus isolated from bathing water came from their users themselves 17,18 and may therefore indicate a possible relationship between clinical and environmental (drinking water) isolates. Hence, this study seeks to compare the antibiotic resistance profiles of S. aureus isolated from both clinical and selected drinking water environments from Dutsin-Ma, Katsina State, Nigeria.

Materials and methods Study area and sample location
The study was carried out in the town of Dutsin-Ma, Dutsin-Ma local government area, Katsina State, Nigeria which lies between the geographic coordinates of 12 o 27'17''N, 7 o 29'29''E. 19 The local government has an area of 527 km 2 and has the Zobe Dam lying to the South of the town. 20 Federal University Dutsin-Ma clinic and General hospital Dutsin-Ma were two hospitals selected for isolation of clinical S. aureus while drinking water samples were collected for aquatic S. aureus from selected wells, boreholes, tanks etc. from this same environment.

Ethical approval
Ethical approval was obtained from Federal University Dutsin-Ma clinic and Dutsin-Ma General Hospital. Informed consent was also obtained from patients sampled.

Samples and samples collection
A total of 120 clinical samples (from nasal, ear, pus, wound, and skin surfaces) were collected from patients from Federal university Dutsin-Ma clinic and General hospital Dutsin-Ma between April and August, 2016. Also, 150 water samples (comprising tap, borehole, tank, reservoir and well water from the water board, Abuja road, Kofa community, Federal University Dutsin-Ma students' hostel, and Doctors' campus, all in Dutsin-Ma) were aseptically collected for the purpose of this research during the same period.
Clinical samples were collected using sterile swap sticks while the water samples were collected using sterile sample bottles (20mls). All samples were transported within six hours of collection to the Laboratory of Department of Biological Sciences, Federal University Dutsin-Ma, Dutsin-Ma, Katsina State, Nigeria. Thereafter, samples were cultured on mannitol salt agar (MSA) for isolation of S. aureus.

Bacteria isolation, identification and characterization
Swap sticks used for clinical sampling were streaked on blood agar (to detect their hemolytic ability) and mannitol salt agar (MSA) in sterile petri dishes for isolation of S. aureus. Afterwards, plates were incubated at 37 o C in an incubator. blood agar plates were observed after 24 hours, while the mannitol salt agar were observed after 48 hours incubation for visible growth. 21 In order to obtain a distinct colony, bacteria isolated were sub-cultured by re-streaking on blood agar and MSA. Distinct colonies were isolated and stored on nutrient agar slants at 4 0 C in a refrigerator.
For the water samples, 1ml each was pipetted into a sterile petri dish, thereafter, 20ml of sterile mannitol salt agar was poured into it using pour plate method. It was then rocked gently to mix and allowed to set. Inoculated agar plate was afterwards opened briefly for 30 seconds in an incubator set at 37 0 C, so as to remove condensed water on its surface. Thereafter, covered, inverted and inoculated at 37 0 C for 24 to 48hrs in the same incubator. Using their colonial appearance such as size, shape, consistency, color, elevation and the differential characteristics such as pigmentation, suspected discrete colonies of S. aureus were sub-cultured by re-streaking on nutrient agar plates to obtain a pure culture according to guidelines. 22 Distinct well-separated yellow colonies and creamy white colonies on MSA and blood agar respectively were picked aseptically and stored on nutrient agar slants at 4 0 C for further biochemical characterization.
Each organism was subjected to some preliminary biochemical tests such as gram staining, catalase, mannitol fermentation, blood heamolysis and slide coagulase test. 23

Antimicrobial susceptibility testing
This was determined by the agar diffusion technique as African Health Sciences Vol 19 Issue 1, March, 2019 recommended by the Clinical Laboratory Standards Institute (CLSI) guidelines 24 on Mueller-Hinton agar (Oxoid) using the following antibiotic impregnated disks (Abtek Biologicals Ltd): gentamicin (10μg), cefuroxime (30μg), ofloxacin (5μg), cloxacillin (5μg), ceftazidime (30μg), ceftriaxone (30μg), erythromycin (30μg) and augumentin (30μg) for gram positive bacteria. The procedure includes inoculation of stock cultures stored at 4 o C on nutrient agar slants into 10ml of nutrient broth which was then incubated overnight at 37 o C. Thereafter, serial dilution of 10 1 into sterile distilled water was carried out. Afterwards, 1 ml of the culture solution was transferred into sterile petri dishes. Thereafter, sterile Mueller-Hinton agar that has been cooled to 55 o C in water bath was poured into each and allowed to solidify. However, another 1 in 10 dilution factor was also plated out on nutrient agar for each test for determination of viable count so as to know the average number of colony used during the susceptibility tests. Antibiotic sensitivity disc was later placed on one of the solidified Mueller-Hinton plates sterilely and both plates were incubated at 37 o C in an incubator overnight. Zone of inhibition seen round the antibiotic disc the following day were measured while diameter was categorized as resistant, intermediate and sensitive after comparing with Clinical and Laboratory Standards Institute (CLSI) standard for each bacteria isolate. 24 Those that were resistant to three or more classes of antibiotics, were classified as multidrug resistant.

Statistical analysis
The relationship between antibiotic resistant profiles and the sample locations (environmental and clinical) isolates was determined using chi-square two ways contingency table. The Qi Macros statistical software for excel was used for the analysis.

Results
A total of 150 water samples and 120 clinical samples were collected, out of which 45 and 120 S. aureus organisms were isolated respectively (Table 1).

Environmental Isolates
Clinical Isolates Total 45 100 120 100 Antibiotics resistant to environmental isolates showed the highest (100.0%) resistance to each of cloxacillin (CXC) and augmentin (AUG), the lowest (48.9%) antibiotic resistance was recorded for gentamycin (GEN) ( Table 2). The observed resistance for clinical isolates demonstrated the highest (100%) resistance to each of erythromycin (ERY) and cloxacillin (CXC) with the lowest (27.5%) resistance to ofloxacin (OFL) ( Table 2). However, the antibiogram profiles conducted on the isolates revealed a significant (P<0.05) association between both isolates (environmental and clinical) and resistance to antibiotics. Chi-Square analysis can be found on supplementary Table 1.

Discussion
Over the past decade, the percentage of S. aureus from clinical specimen that are multidrug-resistant has been steadily increasing around the world, 25 a phenomenon which has affected the timely administration of appropriate choice antibiotics. 26 Out of 150 water samples collected from 6 drinking water sources in this study, a total of 45 S. aureus were isolated. However, from a total of 120 clinical samples collected across different body sites: skin, nasal cavities, ear, wound and pus, of patients randomly selected from the study area, 120 S. aureus were isolated (Table 1).
Possible reasons for low prevalence of S. aureus from the aquatic environment could be due to the pre-treatment process through which the water had undergone, and also due to the fact that the inhabitants of the community have not had constant contact with the water, since S. aureus is a normal flora of the body. However, highest (60.0%) occurrence of S. aureus from nasal cavities, followed by pus (12.5%), wound (12.5%), skin (8.3%) and the least from ear (6.7%) were observed among clinical samples. This finding is consistent with other findings which reported highest (94.0%) colonization in extranasal site 27 ; and also a highest (46.8%), 28 (65.9%) 29 occurrence from pus. However our findings contradict that of some researchers who reported least isolation of S. aureus from nasal cavities. 1,30 The result of this study which revealed a least occurrence of S. aureus from wound (12.5%), skin (8.3%) and ear (6.7%) could be because these samples were collected from wounds which had undergone pre-treatment with antiseptics which had consequently reduced the microbial load on the wound site. This finding is consistent with other literature which reported a least (8.0%) colonization from wounds 27 and no isolation from the ear. 1,31 Among the water samples, Isa-Kaita's reservoir showed the highest prevalence (40 %) of the isolates, probably due to the constant contact with the inhabitants of the community. On the other hand, Isa Kaita's tank and Kadangaru's well both recorded the least number of isolates (8.9 %) ( Table 1). This findings agree with others who also reported the presence of S. aureus in drinking water in the city of Portugal. 11 Although this high microbial contamination may be due to poor hygiene and sanitary conditions in and near the water sources, 32 the propinquity of the water sources to dumpsites and latrines is a possible source of contamination. 33 Unfortunately, this kind of setting is peculiar to the Dutsin-Ma community in Katsina State where this study was carried out.
It is worthy to note that although S. aureus is not a bacteria indicator of fecal contamination, its presence in drinking water is of great public health importance. When present in large quantity, S. aureus in water intended for human consumption are potential health threats, especially if these strains possess determinants of antibiotic resistance 12,18,34 as suggested by this study. These resistance genes can be transferred to normal bacteria present in the GIT of the consumers if the genes are present on mobile genetic elements like integrons and its cassette, plasmid, transposon and insertion sequence These have been reported to be the most virulent and multidrug resistant among all of the HPC bacteria recovered from water supplies in South Africa. 34 They can form biofilms in major distribution channels. This harbors potential waterborne pathogens and can also serve as a reservoir for transferable resistance genes to other potential bacterial species. 11,12 Moreover, if they eventually cause diseases, treatment will require the administration of antibiotics (usually beta lactams). However, considering how important some of these beta-lactams have become over the years, both as first-line therapy for severe and mild infections, 35 resistance to them will affect their timely administration, 26 and this could increase mortality rate, and of course affect the economy. 36 The result of the antibiogram conducted on clinical isolates, revealed a highest (100.0%) resistance to both cloxacillin and erythromycin, followed by cefuroxime (94.2%) ( Table 2). The least (20.0%) resistance was demonstrated against gentamicin. When compared to the samples from drinking water sources, a similar result was obtained. The isolates demonstrated a highest (100%) resistance to both cloxacillin and augumentin, followed by cefuroxime (97.8%) and ceftazidime (97.8%). The least resistance was demonstrated against ofloxacin (0.00%) and gentamicin (48.9%) ( Table 2). This agrees with other findings which also reported a low (7.1%) resistance to gentamicin. 37 The resistance to the antibiotics tested may be attributed to the production of beta-lactamase, an enzyme that inactivates β-lactam rings in β-lactam antibiotics and closely related antibiotics. A similarity in the antibiotic resistance pattern displayed by the isolates could suggest a possible link between the isolates from the clinic and that from the water environment. Therefore, work is ongoing on the molecular typing of these bacteria isolates for any clonal similarities.
Among the clinical isolates, resistance to 5 antibiotic groups (42.5%) were the most commonly observed antibiotic resistance pattern, while resistance to 8 groups (2.5%) was the least prevalent. On the other hand, the environmental isolates demonstrated highest resistance to 7 groups (48.9%) of the antibiotics tested, while a least resistance to 4 groups (4.4%) was recorded. The multiple antibiotic resistance pattern cloxacillin (CXC), erythromycin (ERY), cefuroxime (CRX), augmentin (AUG), ceftazidine (CAZ) was the most frequently observed pattern (Table 3).

Conclusion
This study has for the first time, given a comparative insight into the antibiogram study of S. aureus isolated from clinical and selected drinking water of Dutsin-Ma town, Katsina State, Nigeria. The findings of this study reveals that Dutsin-Ma water sources are laden with multidrug resistant strains of S. aureus. These multidrug resistant S. aureus isolated from drinking water may transfer their resistant determinant to bacteria in the gastrointestinal tract (GIT) of consumers if present on mobile genetic elements such as plasmid and transposon, thereby, prolong treatment time and lead to an increase in mortality rate if bacterial infection arise. The result presented in this study may explain, in part, the increasing misuse of an-tibiotics, poor hygiene and sanitation practices including human attitudes such as dumping of refuse or untreated sewage in and around this water sources in the study area. This study hereby recommends the provision of potable water, modern sanitary and sewage disposal facilities and creation of awareness to the people in the community, of the risk associated with consumption of contaminatedwater. Also, the results of this study suggests the imperative need to reassess policies on antibiotics use as well as develop new antibiotics to curb the problems posed by resistant strains.