Prevention of Gastrointestinal Pathologies: Comparative Study of the Microbial Flora of the Sanitary Surfaces of the Toilets of Students and Staff of the Félix Houphouët-Boigny University ()
1. Introduction
In the world, Hygiene has been a major issue since antiquity as evidenced by the mobilization of the international community for its promotion [1]. Lack of hygiene is the basis of manual pathologies such as gastro pathologies-intestinal which constitute a real public health problem worldwide [1].
In sub-Saharan Africa, gastrointestinal pathologies also represent a major public health problem mainly in environments with poor hygienic conditions [2]. Today, it is estimated at more than 2.5 billion people worldwide, including 550 million in sub-Saharan Africa who do not have minimum hygiene conditions, according to the recent report of the joint WHO/UNICEF program on water, Hygiene and Sanitation (EHA) [3] [4] [5]. Human health risks are undoubtedly the most serious and widespread problem. Each year, around 3.5 million people die from manual diseases, especially in developing countries [6] [7]. The organization of several forums on Water, Hygiene and Sanitation (WASH) (Marrakech in 1997, The Hague in 2000, Kyoto in 2003, Mexico in 2006 and Senegal in 2012) testifies to the magnitude of this problem in developing countries [8]. In these countries, poor hygiene and a lack of basic sanitation are the foundations of these numerous manual pathologies [3] [4] [9] [10]. The latter are themselves the causes of absenteeism from school and work, and therefore from a low level of education and significant economic and income losses across a developing country [3] [11]. They represent a huge burden for these countries [12] [13]. Indeed, the physical environment and the degree of cleanliness of WAH works have an impact on the health and well-being of learners. In the event that this environment does not have acceptable sanitation and hygiene conditions such as hand washing facilities and toilets in good condition, the diseases develop and spread quickly. It becomes a high-risk space for the latter by accentuating their vulnerability to manual illnesses, especially gastrointestinal [14]. However, the provision of hygiene and sanitation facilities could reduce these manual diseases by almost 90% [15] [16] [17].
In Côte d’Ivoire, the level of hygiene and sanitation is still low despite the establishment of a policy to improve the living conditions and well-being of the populations [18].
This low level of hygiene recorded among students at the Félix Houphouët-Boigny University of Côte d’Ivoire [19] [20] and the promiscuity observed led to a study whose objective was to determine the microbial ecology of the germs present in the sanitary surfaces of university toilets. We thought it appropriate to assess microbial germs by emphasizing those capable of transmitting gastrointestinal infections in the sanitary toilets of students and staff of the Félix Houphouët-Boigny University.
2. Study Area
The study was carried out in the toilets of students and staff at the Félix Houphouët-Boigny University in Cocody (Abidjan, Côte d’Ivoire). It is located between 5˚20 and 5˚38 north latitude and 3˚58 and 3˚59 west longitude (Figure 1). It is the main University of Côte d’Ivoire. To date, it has received more than 60,000 students [21].
3. Methodology
3.1. Data Collection Methodology Sample Collection and Analysis
A quantitative and qualitative microbiological control study was carried out from April to August 2018 at the Félix Houphouët-Boigny University. Sampling was carried out at 184 functional toilets out of a total of 340 university toilets. It made it possible to count 368 contact surfaces including 80 door handles, 84 tap heads, 90 push buttons and 114 WC seats. The swab method [22] was used on surfaces such as toilet door handles, faucet heads, flush buttons and toilet seats. Sterile swabs were previously moistened in sterile peptone water contained in a tube. For each surface, the swab was passed over areas defined in narrow parallel ridges by rotating them slightly, then over the same areas in perpendicular ridges. The swab was then placed in the same tube containing sterile peptone water. The tube is identified and placed in a cooler containing cooling pack to maintain a temperature of 4˚C during transport to the laboratory. The content of each tube was homogenized by gentle manual stirring before being sown on several agars depending on the bacteria sought.
- Salmonella spp was sought according to the three stages described by ISO 6578 [23] and the confirmation of the strains was carried out thanks to biochemical tests (search for: gelatinase, production of indole, production of H2S, decarboxylase, deaminases and urease)
- Isolation of the Escherichia spp strains was carried out on lactose deoxycholate agar and the confirmation of the strains was carried out by biochemical tests.
- The identification of Pseudomonas spp was carried out by the search for greenish colonies, then oxidase tests were carried out using oxidase disks and confirmation of the strains was carried out using biochemical tests.
The search and identification of total coliforms, Escherichia spp, Salmonella spp and Pseudomonas spp were carried out according to classical microbiology.
3.2. Data Processing and Analysis
Data entry was carried out with Excel software. The chi-square test was used to compare values of the proportions of the germs. Interpretations are based on the p-value in a 95% confidence interval (CI). The digital locality map was produced with ArcGIS software.
4. Results
4.1. Sample Size
The microbiological analysis was carried out on 368 composite samples, including 170 in the staff washroom and 198 in the student washroom (Table 1).
Table 1. Composition of the sample size.
4.2. Staff Toilet Results
The overall proportions are 21.17% for total coliforms, the same for Escherichia spp, 1.17% for Salmonella spp. No Pseudomonas spp has been identified (Table 2). Escherichia spp is the most obtained genus with a proportion of 26%. WC seats are the most contaminated areas.
4.3. Results from Student Toilets
The overall proportions are 51.51% for total coliforms, the same for Escherichia spp, 4.54% for Salmonella spp (Table 3). No Pseudomonas spp has been identified. Escherichia spp and Salmonella spp is the most obtained genus with a proportion of 78.12% and 14.06% respectively. WC seats are the most contaminated areas.
4.4. Comparison of Bacterial Flora in Toilets
The main germs such as total coliforms, Escherichia spp and Salmonella spp are abundant on the surface of student toilets. No Pseudomonas were observed in the different toilets. The proportions of Escherichia spp are 13.63% and 8.33% respectively at the door handles of students and staff. No statistically significant difference was obtained between these proportions of Escherichia spp at the door handles (X = 0.65; p-value = 0.4187). At the level of the tap heads, proportions of Escherichia spp were 55% and 20.45% respectively at the level of the student and staff toilets. A statistically significant difference was observed between the proportions of Escherichia spp obtained at the tap heads (X = 11.14; p-value = 0.0008). A proportion of 48% of Escherichia spp was obtained at the level of the push buttons in the student toilets against 27.5% at that of the staff. We noted a statistically significant difference in these proportions (X = 3.77; X = 0.05). The WC seats, on the other hand, presented the strongest contamination. A proportion of 14.06% of Escherichia spp was obtained at the level of the staff toilets against 78.12% at the level of the students’ toilets. A statistically difference was obtained between the proportion of Escherichia spp at the level of the seats of the student and staff toilets (X = 30.59; p-value = 0.001). Salmonella spp proportions of 14.06% and 4% respectively were obtained at the level of the student and staff WC seats (Figure 2). No statistically significant difference was obtained between these values (X = 4.05; p-value = 0.44).
Figure 2. Comparison of germs on student and staff washroom surfaces.
Table 2. Proportion of germs sought according to the swabbed surfaces of the staff.
Table 3. Proportion of germs sought according to surface area squirmed in student toilets.
5. Discussion
This study highlighted the presence of total coliforms, Escherichia spp and Salmonella spp at the Félix Houphouët-Boigny university. The overall proportions are 21.27% for Escherichia spp, and 1.17% for Salmonella spp at the level of the staff toilets. On the other hand, the overall proportions are 51.51% for Escherichia spp, and 4.54% for Salmonella spp at the level of the staff toilets. However, the absence of Pseudomonas spp has been reported.
The results showed that the university environment of toilets has potentially pathogenic microorganisms. These results are corroborated with the studies of Rutala and collaborators on the one hand, and of Weber and collaborators on the other hand. Indeed, according to these authors, the human environment is largely contaminated by specifically environmental microorganisms [22] [23]. This contamination varies qualitatively and quantitatively over time. They also demonstrated that the capacity to create an infection results from a combination of factors associating the level of expression of the virulence factors of the microorganism, its quantity or its concentration, the mode of contamination and the receptivity of the host.
The contact surfaces of the hands in the toilets presented a bacterial flora in particular enterobacteria. These results are in agreement with that of Munoz and collaborators who have demonstrated the presence of bacteria at the contact surfaces of door handles in a university health center [24].
According to our results, the microbial flora detected at our study site consists of the genera Escherichia and Salmonella. It should be noted that this flora found on surfaces depends on several factors such as human activity which leads to an intake of microorganisms. Without effective bio-cleaning, the survival of these microorganisms on surfaces can be very prolonged. Escherichia spp bacteria can survive for 1.5 hours to 16 months on dry, inert surfaces [25]. In addition to the quality of the bio-cleaning, surface contamination depends on many factors linked to the microorganism: its life on an inert support (which varies depending on the material, temperature, drying), its adhesion to the surface, its ability to produce a biofilm and its ability to withstand adverse conditions [26] [27].
In our study, the genus Escherichia occupied the first place of enterobacteria. This abundance could be explained by their predominance in the optional aerobic-anaerobic flora of the digestive tract in humans and in many animal species on the one hand, and on the other hand by their undemanding living conditions [28] [29]. It has been noted that Escherichia spp is responsible for the most common in especially nosocomial infections and is much less resistant to desiccation [27] [30]. The absence of the genus Pseudomonas could be due to the method of analysis which is likely to be poorly suited to these. The microorganisms of human origin or specifically environmental present in the environment belong to opportunistic species and to pathogenic species for humans. It should be noted that most infections linked to environmental contamination are still poorly documented, with the exception of those linked to some microorganisms of environmental origin [31] [32] [33].
Controlled epidemiological studies show an association between infection and exposure to a contaminated environment is still rare [34] [35] [36] [37].
The most contaminated sites were the toilet seats, the push buttons and the tap heads and taps. This situation is linked to the fact that these materials are frequently exposed to faeces. This observation is confirmed by Marty [38]. For this author, this significant colonization of sites constitutes a real risk of manual transmission of bacilli which can be the source of infection [28]. In order to reduce this manual transmission to the handles of hygienist authors like Séguier in Strasbourg, proposed the use of ULNA door handles.
Concerning isolated bacteria, a high proportion of Gram-negative bacilli is noted.
The presence of Escherichia spp coli, a witness to faecal contamination confirms poor hygiene in our university structure. If these germs present themselves as opportunistic agents for the sick, the strains of Salmonella spp isolated in the present study constitute a major infectious risk for the students and the staff of the Félix Houphouët-Boigny University because they are specific pathogenic bacteria.
The limits of this study could be located in the analysis of samples. This analysis focused more on classical microbiology. High proportions of bacteria could be obtained if one had to use culture media more specific to germs.
6. Conclusion
The genera Escherichia spp and Salmonella spp are bacteria present on the contact surfaces of university surfaces of student toilets. The most abundant proportions were obtained in the area of student toilets (Escherichia spp: 51.51% and Salmonella spp: 4.54%). The most contaminated areas in order of abundance are toilet seats, push buttons; toilet tap heads and door handles. The presence of enterobacteria in the sanitary surfaces of the toilets of the Félix Houphouët-Boigny University represents a health risk for the university population. We recommend installing hand hygiene devices and regular cleaning of WASH sanitary facilities to limit the risk of faecal-oral contamination. The identification of the species of germs found and their resistance to different antibiotics will be the next step of the study.
Acknowledgements
Our thanks go to the heads of the training and research units, the heads of the cleaning service staff and the cleaning service staff of the Félix Houphouët-Boigny University. We also thank the managers and the technicians of central and veterinary laboratory of Bingerville (LCVB) in particular Mr ELOI ADJE and Mrs Traore Mariana épse AKE.