Intestinal parasites, also known as enteroparasites, are caused by organisms of the phyla Protozoa, Platyhelminthes, Nematoda and Acantocephala. Enteroparasites are a major public health issue, with individual and social consequences such as deficiencies in school and work performance, as well as expenses for health services 1,2.
They are transmitted orally by ingesting water or contaminated food and, therefore, they are more common in areas where sanitary conditions are inadequate 3. In 2014, the United Nations Food and Agriculture Organization 4 listed the 10 main parasites found in food products, especially Taenia solium in pork, Echinococcus granulosus and Entamoeba histolytica in fresh products and Trypanosoma cruzi in fruit juices. It is estimated that millions of individuals around the world are affected by foodborne illnesses due to the deficiency or absence of a hygienic control of products, handlers and traders 5,6,7.
Considering food as an important means for the transmission of enteroparasites, it is important to emphasize that asymptomatic individuals, particularly those who work in contact with food, can be a source of dissemination of enteroparasites, besides other pathogens. 1,8 Studies conducted by Nolla & Cantos 9 with food handlers in Florianópolis, Santa Catarina, Genuíno 8 in João Pessoa and Paraíba & Dias 10 in the island of São Vicente, Cape Verde, Africa, showed that the most common intestinal parasites observed in this population were Endolimax nana, Entamoeba coli, Enterobius vermicularis and Strongyloides stercoralis. In addition, Giardia lamblia and Hymenolepis nana also showed a significant frequency in food handlers from Porto Alegre, in Rio Grande do Sul 11.
E. nana and E. coli are amoeba species classified as commensal protozoa, whose transmission occurs by the ingestion of cysts in contaminated water and food. In cases of pure infections, they are capable of causing abdominal pain, diarrhea, flatulence, vomiting and fatigue, without major complications 12,13. On the other hand, G. lamblia, E. vermicularis, S. stercoralis and H. nana can trigger more severe clinical manifestations in infected individuals 13.
G. lamblia is transmitted by the ingestion of parasitic cysts, and can be transferred by food handlers by direct contact (anal-oral), as well as by the consumption of contaminated water, vegetables and fruits. 14 Infections by this parasite range from asymptomatic forms to infections with chronic diarrhea, accompanied by steatorrhea, weight loss and intestinal malabsorption 13,15. Abdominal pain and diarrhea accompanied by distension are also observed in the acute form 16.
E. vermicularis has a direct form of contamination -anal-oral ingestion of eggs- and an indirect form -ingestion of eggs through food or dust aspiration 13,17. It causes intense anal pruritus in the individual, which exacerbates at night due to the movement of the parasite as a consequence of the heat of the bed. Patients usually present with nausea, vomiting, abdominal cramps, tenesmus and, more rarely, bloody evacuations. In women, vulvar pruritus, vulvovaginitis, vaginal discharge and urinary infection may occur 13,16.
S. stercoralis is the etiologic agent of strongyloidiasis, a chronic disease of the gastrointestinal tract, usually asymptomatic. However, in massive infections, abdominal or epigastric pain, anorexia, nausea, vomiting, weight loss, secretory diarrhea or steatorrhea and protein-calorie malnutrition can be observed. Individuals with compromised immune systems are severely affected, resulting in hyperinfection and disseminated forms of strongyloidiasis, responsible for a high mortality rate due to its difficult recognition 13,18.
H. nana affects mainly children and young adults. Transmission can occur by ingesting eggs from contaminated hands or foods 19,20 and most patients develop the asymptomatic form of the infection. However, symptoms are related to the increasing age of the patient and parasite load, and may include abdominal cramps, nausea, vomiting, anorexia, weight loss, diarrhea, restlessness, insomnia, dizziness, seizures, epileptic seizures and allergies 13,19.
Considering that food handlers are facilitators of parasite transmission through food and that studies in this regard have not been conducted in São Mateus, one of the main cities in the state of Espírito Santo-Brazil, the objective of this study was to investigate the frequency of intestinal parasites in employees of restaurants and cafeterias located in the Commercial Center of the city.
MATERIAL AND METHODS
Study location
This study was conducted in the municipality of São Mateus, colonized by the Portuguese in 1544 and located on the coast of Espírito Santo. It has a population of 109 028 inhabitants spread over an area of 2 338 727km2, with a population density of 46.62 inhabitants/km2 and human development index (HDI) of 0.735 21,22.
Study and sample characterization
This is a descriptive cross-sectional study with a qualitative and quantitative approach to enteroparasite frequency in employees of restaurants and cafeterias of the Commercial Center of São Mateus.
Fecal samples of employees in 20 food establishments (restaurants and cafeterias) were collected between August 2013 and February 2014.
Research tool
A questionnaire was used to describe the profile of the studied sample, and the following indicators were analyzed: age, sex, place of residence (center/periphery), occupation in the food establishment, educational attainment and period of the last parasitological fecal examination.
Collection and analysis of samples
Fecal samples were collected and placed in plastic containers, properly identified with the names of the participants and the establishment where they work. Samples were sent to the Clinical Analysis Laboratory of the Federal University of Espírito Santo, São Mateus Campus. The analysis was performed using the spontaneous sedimentation method 23 in order to verify the presence of protozoan cysts, helminth eggs and larvae. Three slides were prepared from each fecal sample and Lugol was used for staining. The analysis was performed by light microscopy, with magnifications of 100X and 400X for visualization and confirmation of parasitic forms. The results were delivered to the employees of the establishments as an individualized and confidential reports.
Result analysis
The database generated by the questionnaire was systematized using Microsoft Excel 2007 and data were analyzed using the software STATA, version 12.0. Initially, descriptive analyses of the studied variables were performed to characterize the population, and the results were organized in tables and graphs.
Later, univariate analyses between the independent variables "place of residence (center/periphery)", "sex", "education", "occupation" and "period of the last parasitological examination", as well as the dependent variable "presence of parasites", were performed using Pearson chi-square test. P<0.20 was considered significant. Successive multivariate analyses were subsequently performed by Poisson regression between the dependent variable and the independent variables with significant p values, and variables with p values higher than 0.05. Confidence intervals at 95 % were excluded.
RESULTS
Samples from 20 commercial establishments were analyzed, of which 5 (25 %) had employees with some intestinal parasitosis. In total, 42 individuals participated in the survey, and eight of them (19 %) were positive for parasitic forms (Table 1).
Of the total participants, 23 (54.76 %) were females and 19 (45.24 %) males and, from eight positive samples, six (75 %) were females.
Among the parasites found, a higher frequency of the commensal E. coli was observed in 75 % of the cases. The age group with the highest number of positive individuals -females- was between 19 and 29 years old; among men, the most prevalent age group was between 30 and 39 years old (Table 2).
Ec: Entamoeba coli; Ehd: Entamoeba histolytica/dispar; Gl: Giardia lamblia Source: Own elaboration based on the data obtained in the study
The occurrence of polyparasitism is worth mentioning since the association of E. coli and E. histolytica/dispar was found in two of the eight positive samples.
Regarding educational attainment and frequency of parasitic contamination, it was found that most of the infected population (seven individuals) had completed secondary education (Table 3).
In relation to the occupation of infected individuals, waiters and housekeeping staff showed the highest number of positive samples (37.5 %), followed by managers and cooks (12.5 %).
Routine parasitological examinations revealed that 3 (37.5 %) infected individuals underwent stool culture examination less than six months before the study, and other 3 individuals (37.5 %) between one and two years before. The remaining participants (25 %) underwent the examination more than three years before.
Regarding the responses from employees of food establishments on the results of parasitological examinations carried out over the last few years, 61.9 % said that they were negative, 28.6 %that they were positive and 9.5 % did not remember the result.
Out of the eight infected individuals, five lived in the periphery (Litorâneo, Morada do Ribeirão, Santo Antônio, Porto and Aroeira residence neighborhoods) and and three in the downtown area (Centro, Boa Vista and Serrambi).
The Pearson chi-square test pointed to the dependent variable "presence of parasites" and significance for the independent variable "place of residence (center/periphery)" (p=0.005), while Poisson regression for this variable showed a prevalence ratio (PR) of 2.70 (p=0.040, 0=1.04-6.97) for the periphery. The other independent variables were not significant in the model.
DISCUSSION
The infection rate observed in the present study was small when compared to other parasitological surveys, such as those conducted in Florianópolis, se 9, which identified enteroparasites in 42.8 % of food handlers; in João Pessoa, PB 24, which found a contamination rate of 52 %; and in Parnaíba, Piauí 25, which found 51 % of positive samples in food handlers. Nevertheless, the results found in São Mateus cannot be underestimated, given that 19 % of food handlers were contaminated.
After analyzing the sex of the infected individuals, it was observed that the amount of infected women was higher, as reported in studies in Florianópolis and João Pessoa 9,24. On the other hand, studies conducted in Parnaíba, Piauí 25 showed more positive samples in males. Indeed, it is plausible to consider that men are less concerned with hygiene issues 26 and, therefore, with an increasing number of males working in food areas which used to be predominatly female, it is possible to speculate a higher possibility of finding infected men and, consequently, a greater potential for disease transmission. Still, it is important to emphasize that all infected individuals in this study were aged between 19 and 39 years, a period of high productivity in life 27. Besides the possibility of parasite transmission to other individuals, such fact may be reflected on professional performance, resulting in losses for employers 28.
Regarding the parasitic species found in São Mateus, E. coli was the most frequent (75 %), which coincides with Reis & Carneiro 1 in food handlers from Morrinhos, GO, whose results indicated 62.5 % contamination by this parasite. Although it is not considered a pathogenic microorganism, its presence is important, since it may indicate fecal contamination in food and, consequently, poor sanitary conditions 24,25.
The infection rate for E. histolytica/dispar, although small when compared to E. coli, requires public attention, since it is a parasite that is easily transmitted by food and is able of inducing more severe clinical conditions. In fact, according to the Guidelines for Integrated Surveillance, Prevention and Control of Foodborne Diseases (Manual Integrado de Vigilância, Prevenção e Controle de Doenças Transmitidas por Alimentos), amoebic dysentery outbreaks may be mainly related to the presence of pathogenic strains of E. histolytica in contaminated food, thus reflecting the importance of this parasite 24,29.
A frequency of 12.5 % for G. lamblia is small when compared to the study conducted by Wingert & Araújo 11 in Porto Alegre, RS, who found an infection rate of 40 % in individuals working in supermarkets. The lowest frequency of G. lamblia observed in São Mateus is probably related to the fact that infected individuals are older and the scientific literature shows that this parasite is most common in children aged between 0 and 5 years 30.
Whereas one of the transmission mechanisms of enteroparasites is the ingestion of parasitic forms through food, water and objects contaminated with infected feces, and that the parasites found in the studied population -G. lamblia, E. coli and E. histolytica/dispar- are limited to this type of oral transmission, it is possible to predict that one of the factors that contributes to the transmission of these protozoa is inadequate practice of personal and domestic hygiene. In this context, improper handwashing and the lack of good hygiene practices by food handlers would cause food contamination, making them potential sources of parasite transmission 1,31,32.
Regarding educational attainment in food handlers, Nolla & Cantos 33 and Basso et al.34 reported that this variable is one of the causes that contributes to the increased frequency of intestinal parasites in populations. In fact, studies indicate that less educated people show higher rates of parasitism, and this was also observed in São Mateus. In addition, the place of residence (center/periphery) of these workers may also contribute to the occurrence of parasitic diseases, since inadequate housing and sanitation are important factors in the distribution of the disease 34. In this study, these factors could be observed through the prevalence ratio, where workers living in the periphery showed an increase of 2.70 (p=0.040, C1=1.04-6.97).
Regarding the occupation of infected individuals, waiters and housekeeping staff were the most contaminated. Actually, these professionals can act indirectly on the transmission of enteroparasites by contact with utensils (plates, cups, cutlery, etc.) or even food for customers, if they do not perform proper hand washing after using the restroom 28.
In general, when analyzing the frequency of parasitological examinations in the population, it was reported 11 that it is of paramount importance for health care, especially among food handlers, since it allows the detection and prevention of some endemic diseases, and leads the individual to maintain their personal and collective physical integrity. This study revealed that only 37.5 % of infected individuals had undergone routine examinations in the past six months and 28.6 % of them reported positive results. In this context, it is worth noting that the culture of not taking parasitological exams periodically is a concern for public health, since many people believe that helminthiases do not require treatment or that they are part of our body as commensal beings. 35.
It is also important to emphasize that, in disease epidemiology, individuals who live in remote and periphery regions are more likely to develop parasitic diseases, among others, since these regions are marked by a precarious sanitary scenario 35,36. In São Mateus, it was not observed, given that each infected individual lived in a different neighborhood, even in remote areas of the city.
Finally, considering the importance of parasitic diseases in the public health context, it is necessary to implement health education measures and periodic parasitological examinations for food establishment employees in order to correct the flaws in health care and, consequently, reduce the risk of food contamination in these establishments, thus protecting the consumers.