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Research Article
 

Prevalence of Intestinal Parasites in Vegetables Consumed in Ahvaz, South West of Iran



Jasem Saki, Reza Asadpoori and Shahram Khademvatan
 
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ABSTRACT

Uncooked vegetables are an important part of a healthy diet in different parts of the world. The present study was carried out to determine the parasitological contamination of vegetables sold at markets of Ahvaz southwest of Iran. Parasitological examinations were performed in material derived from 135 vegetables to detect of intestinal parasites. Each sample was washed with physiological saline solution, allowing sedimentation at room temperature for 24 h. Ten milliliter of sediment were centrifuged at 3000 rpm for 5 min. Sediment was studied in lugol stained slides under light microscopy. Results of the current survey have shown that 21 out of 135 samples (15.5%) were contaminated with parasite stages. Parasites detected were Giardia cysts (13.3%), Entamoeba coli (6.6%), Entamoeba histolytica/dispar (2/9%), Trophozoite of free living protozoa (5.9%), larva of free living nematode (7.4%) and look alike hookworm eggs (2.2%). Vegetables proceeding from all areas presented a similar degree of contamination mostly of Protozoan cysts; radish was the most contaminated vegetable. This study further emphasized the role of vegetables in the transmission of Giardia parasite in the region.

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Jasem Saki, Reza Asadpoori and Shahram Khademvatan, 2013. Prevalence of Intestinal Parasites in Vegetables Consumed in Ahvaz, South West of Iran. Journal of Medical Sciences, 13: 488-492.

DOI: 10.3923/jms.2013.488.492

URL: https://scialert.net/abstract/?doi=jms.2013.488.492
 
Received: April 20, 2013; Accepted: May 02, 2013; Published: July 04, 2013



INTRODUCTION

Intestinal helminthes and protozoan parasites are among the most common infection worldwide particularly in developing countries (Pozio, 2008). It was reported that as much as 60% of the people in the world are infected with pathogen and nonpathogen gut Parasites (Brown and Neva, 1987; Kang et al., 1998). Freshly eaten vegetables make up an ordinary part of the healthy diet of many people. Because row consumption, vegetables potentially can be agent of transmission for intestinal parasitic infection (Erdogrul and Sener, 2005). Irrigation of agricultural land by rivers and mine ponds particularly in endemic area can make heminthic and protozoan contamination in vegetables because they are usually highly polluted with human and animal faeces (Okorokwo, 1998). As well as handling vegetables with contaminated hands is other factor for Contamination.

Many studies have reported the contamination of vegetables in Iran and other parts of the world. In Ardabil, Iran study was conducted on two groups of vegetables collected from markets and gardens showed fifty percent (48/96) of markets vegetables and 71% (32/45) of gardens vegetables were contaminated with different parasites (Daryani et al., 2008).

Study in south western Nigeria on 120 different vegetables samples showed eighty-two (68.3%) of the vegetables were contaminated by intestinal parasites from which water leaf (Talinium triangulare) and 'soko' (Celosis) had the highest rate of parasitic contamination (100%) (Ogbolu et al., 2009).

Internationally, other various studies reported diverse rates of parasitic contamination in row vegetables (Al-Binali et al., 2006; Al-Shawa and Mwafy, 2007; Abougrain et al., 2010). Accordingly, this study was aimed to evaluate the Parasitological contamination of freshly eaten vegetables sold at local markets in Ahvaz, southwest Iran.

MATERIALS AND METHODS

Study area: Ahvaz is a city in and the capital of Khuzestan province Southwest of Iran (Fig. 1). It is covering an area of 375.000 Square kilometers. The population of the city in year of 2006 was 1425891. Ahvaz has a desert climate and with summer temperature exceeding 50°C, consistently one of the hottest cities on the planet. The average annual rainfall is around 230 mm. According to recent report for World Health Organization (WHO) this city was the most air polluted in the world.

Image for - Prevalence of Intestinal Parasites in Vegetables Consumed in Ahvaz, South West of Iran
Fig. 1: Map of Ahvaz city, capital of Khuzestan province southwest of Iran, meteorological organization, 2012 (en.wikipedia.org/wiki/Ahvaz)

Sampling and parasitological examination: A total of 135 fresh vegetables of 9 sorts that are frequently eaten raw include Lettuce, Parsley, Radish, Leek, Spearmint, Basil, green onion, Spinach and Cress were randomly collected between February and July 2012 from markets of 5 local points in Ahvaz, Iran for the survey of vegetable-borne parasites. Simply, vegetable samples were placed in clean plastic bags till examination.

Fifteen samples of each vegetable were analyzed (15x9 = 135). The vegetables were processed immediately on arrival in our laboratory in the Parasitology department of Ahvaz Jundishapur University of medical sciences. Approximately 500 g of each vegetable washed with 10 L of physiological saline solution (0.95% NaCl). The washing solution after poured through sterile gauze was left for about 24 h for sedimentation to take place. The top water was discarded and 5 mL of the remaining washing water centrifuged at 3000 rpm for 5 min. The supernatant was decanted and a few drops of the sediment previously added by lugol stain were spread on 3 slides and examined for parasites through light microscopy.

Statistical analysis: SPSS version 16 software was used for data analysis and Chi-square for significance differences. Differences were considered as significant whenever p-value was less than 0.05 (Greenwood and Nikulin, 1996).

RESULTS

Out of 135 vegetable samples, only 21 (15.5%) were contaminated with parasites. There was statistically significant association between the sort of vegetable examined and the presence of parasitological contamination (p<0.05). Radish had the highest contamination rate of 6 (40%), lettuce 3 (20%), Parsley 1 (6.6%), Leek 2 (13.3%), Spearmint 1(6.6%), Basil1 (6.6%), Green onion 2 (13.3%), Spinach 2 (13.3%) and Water Cress 3 (20.0%) (Table 1).

Table 2 shows that only three parasitic species; Giardia lamblia, Entamoeba histolytica/dispar and Entamoeba coli were recovered from contaminated vegetables. In contrast, no helminthic parasite species was detected in the present study. Albeit trophozoit of free living protozoa, Larva of free living nematoda and look alike hookworm eggs were also detected in this study. G. lamblia was recovered from 13.3% of the total examined vegetables; followed by E. coli and E. histolytica/dispar with 6.6 and 2.9%, respectively. There was no statistically significant association between the markets surveyed and the presence of contamination (p>0.05).

DISCUSSION

Vegetables, for usually raw consumption and then for their possible contamination with parasites, studies involving the recovery of parasites from this material are being increased worldwide. Several investigations in the world indicated that the vegetables can be agents for transmission of protozoan and helminthic parasites (Al-Shawa and Mwafy, 2007; Vuong et al., 2007).

This study found, vegetables collected from markets within Ahvaz were contaminated with one or more intestinal parasites, with 15.5% overall prevalence, in accordance with other study (Al-Megrin, 2010).

Table 1: Distribution of intestinal parasites in freshly eaten vegetables according to their types in Ahvaz city
Image for - Prevalence of Intestinal Parasites in Vegetables Consumed in Ahvaz, South West of Iran

Results of the latter study have shown that 76 out of 470 samples (16%) contained parasite stages. Depending on the type of leafy plant examined, the highest prevalence rate of parasitic infection was found 27.8% (17/61) in lettuce. In contrast to the highest prevalence rate of parasitic infection was in radish (40%), in the present study. In agreement, Hassan et al. (2012) reported, with the root vegetables, 50% of radish had been contaminated with parasites in a study of parasitological contamination of freshly eaten vegetables collected from local markets in Alexandria, Egypt. The latter study also reported the high contamination of 40% for carrot which was not screened in the present study. Contamination was also revealed in other examined vegetables including parsley (20%) and lettuce (0%) compared to 6.6 and 20.0%, respectively, in the present study. In contrast, Shahnazi and Jafari-Sabet (2010) reported that only 20% of radish had been contaminated with parasites in an evaluation study of the edible vegetables in Qazvin, Iran.

In Riyadh, Saudi Arabia, parasitological contamination was reported to be 27.8% (17/61) in lettuce, 22.8% (13/57) in watercress, 20.6% (7/34) in leek, 19.1% (9/47) in green onion, 17.4% (15/87) in parsley, 15.4% (4/26) in spinach, 13.6% (3/22) in basil, 11.5% (3/26) in coriander, 9.4% (3/32) in radish, 5.3% (1/19) in dill and 4.7% (2/42) in mint (Al-Megrin, 2010). Several investigations into the recovery of parasites from leafy vegetables have been done in different points of the world and the prevalence was high in all examined vegetables and the reported parasites were such as G. lamblia, E. coli, A. lumbricoides eggs and Taenia spp. Eggs (Akhlaghi and Oormazdi, 2000; Robertson and Gjerde, 2001; Monge and Arias, 1996; Davami et al., 2000; Sahebani et al., 1999; Sarkari, 1996; Vuong et al., 2007).

In this study, the contamination rate for Giardia in overall samples of vegetable was 13.3%.

In a very recent study carried out by Rahdar et al. (2012) in Ahavz Iran has demonstrated nematode eggs 60%, larva of nematodes in the third stage 40% together with intestinal protozoan 10% are the most common parasites stages found in the 40 leafy vegetable plants investigated. Compare to the current study, the latter study has shown relatively much higher contamination rates of helminthes and protozoan parasites. This could be attributed to the fact that contamination in vegetable from farms is highly contaminated with parasitic stages.

Table 2: Prevalence of intestinal parasites in freshly eaten vegetables according to their types in Ahvaz city
Image for - Prevalence of Intestinal Parasites in Vegetables Consumed in Ahvaz, South West of Iran

This finding is supported by Daryani et al. (2008) who were reported fifty percent (48/96) of markets vegetables and 71% (32/45) of gardens vegetables were contaminated with different parasites. Washing of the vegetable before selling, may plays an important role in reduction of transmission of parasitic infection to human through consuming such vegetables as it has been demonstrated in the present study. The presence of parasitic contamination in vegetable can affect by the parasitic fauna carried by the community. The highest amount of parasites detected in this study was related to Giardia (13.3%). A previous study carried by Saki et al. (2012) also demonstrated highest rate of contamination, 4.52% for Giardia parasitic infection in the area. Other investigations in the world reported different results for Giardia contaminations in consumed vegetables: Robertson and Gjerde (2000) from Norway with 2%, Monge and Arias (1996) in Costa Rica with 5%, Nazemi et al. (2012) in Shahroud, Iran with 34.78% and Zohour and Molazadeh (2001) in Jiruft, Iran with 14%.

CONCLUSION

Freshly eaten vegetables should be considered a potential risk for contracting parasites, particularly protozoa, in Ahvaz, Iran. Therefore, inhabitants of the region should be informed to disinfect the material completely before raw consumption.

ACKNOWLEDGMENT

This study was financially supported by Students Research Committe of Ahvaz Jundishpur University of Medical Sciences, Iran, Grant No. 92S10. We would like to thank Medical Parasitology Department for the kindly contributions.

REFERENCES

  1. Abougrain, A.K., M.H. Nahaisi, N.S. Madi, M.M. Saied and K.S. Ghenghesh, 2010. Parasitological contamination in salad vegetables in Tripoli-Libya. Food Control, 21: 760-762.
    CrossRef  |  


  2. Akhlaghi, L. and H. Oormazdi, 2000. Survey of parasitic infections of consumed vegetables in Ahwaz city. Proceeding of the 3rd National Iranian Congress of Parasitology, March 2000, Sari, Iran, pp: 84-


  3. Al-Binali, A.M., C.S. Bello, K. El-Shewy and S.E. Abdulla, 2006. The prevalence of parasites in commonly used leafy vegetables in South Western, Saudi Arabia. Saudi Med. J., 27: 613-616.
    PubMed  |  


  4. Al-Megrin, W.A.I., 2010. Prevalence intestinal parasites in leafy vegetables in Riyadh, Saudi Arabia. Int. J. Trop. Med., 5: 20-23.
    CrossRef  |  Direct Link  |  


  5. Al-Shawa, R.M. and S.N. Mwafy, 2007. The enteroparasitic contamination of commercial vegetables in Gaza Governorates. J. Infect. Dev. Ctries., 1: 62-66.
    Direct Link  |  


  6. Hassan, A., H. Farouk and R. Abdul-Ghani, 2012. Parasitological contamination of freshly eaten vegetables collected from local markets in Alexandria, Egypt: A preliminary study. Food Control, 26: 500-503.
    CrossRef  |  Direct Link  |  


  7. Brown, H.W. and F.A. Neva, 1987. Basic Clinical Parasitology. 5th Edn., Appleton Century Croft, New York


  8. Daryani, A., G.H. Ettehad, M. Sharif, L. Ghorbani and H. Ziaei, 2008. Prevalence of intestinal parasites in vegetables consumed in Ardabil, Iran. Food Control, 19: 790-794.
    CrossRef  |  


  9. Davami, M., M. Mosayyebi and A. Mahdavipour, 2000. Prevalence of parasitic infections in consumed vegetables in Ardabil city. J. Rah. Avarde. Danesh., 3: 18-22.


  10. Erdogrul, O. and H. Sener, 2005. The contamination of various fruit and vegetable with Enterobius vermicularis, Ascaris eggs, Entamoeba histolytica cysts and Giardia lamblia cysts. J. Food Control., 16: 557-560.
    CrossRef  |  Direct Link  |  


  11. Greenwood, P.E. and M.S. Nikulin, 1996. A Guide to Chi- Squared Testing. John Wiley and Sons Inc., New York, ISBN: 047155779X, Pages: 280


  12. Kang, G., M.S. Mathew, D.P. Rajan, J.D. Daniel, M.M. Mathan, V.I. Mathan and J.P. Muliyil, 1998. Prevalence of intestinal parasites in rural Southern Indians. Trop. Med. Int. Health, 3: 70-75.
    PubMed  |  Direct Link  |  


  13. Monge, R. and M.L. Arias, 1996. Presence of various pathogenic microorganisms in fresh vegetables in Costa Rica. Arch. Latinoam. Nutr., 46: 292-294.
    Direct Link  |  


  14. Nazemi, S., M. Raei, M. Amiri and R. Chaman, 2012. Parasitic contamination of raw vegetables in Shahroud, Semnan. Zahedan. J. Res. Med. Sci., 14: 84-86.
    Direct Link  |  


  15. Ogbolu, D.O., O.A. Alli, V.F. Ogunleye, F.F. Olusoga-Ogbolu and I. Olaosun, 2009. The presence of intestinal parasites in selected vegetables from open markets in south western Nigeria. Afr. J. Med. Med. Sci., 38: 319-324.
    PubMed  |  Direct Link  |  


  16. Okorokwo, M.O., 1998. Intestinal Parasites associated with human and animal waste stabilization in Jos and Barkin Ladi areas of Plateau State, Nigeria. Ph.D. Thesis, University of Jos, Jos.


  17. Pozio, E., 2008. Epidemiology and control prospects of foodborne parasitic zoonoses in the European Union. Parsitologia, 50: 17-24.
    Direct Link  |  


  18. Rahdar, M., B. Vazirianzadeh, M. Gholami and S. Garshasb, 2012. Detection of intestinal parasite agents on raw consumed vegetables in Ahvaz. Jundishapur Sci. Med. J., 10: 657-664.
    Direct Link  |  


  19. Robertson, L.J. and B. Gjerde, 2000. Isolation and enumeration of Giardia cysts, Cryptosporidium oocysts and Ascaris eggs from fruits and vegetables. J. Food Prot., 63: 775-778.
    PubMed  |  


  20. Robertson, L.J. and B. Gjerde, 2001. Occurrence of parasites on fruits and vegetables in Norway. J. Food Prot., 64: 1793-1798.
    Direct Link  |  


  21. Sahebani, N., M. Fouladvand and A. Dalimi, 1999. Parasitic infections of consumed vegetables in Boushehr city. Tebbe Jonoub, 2: 59-63.


  22. Saki, J., S. Khademvatan, K. Masoumi and M. Chafghani, 2012. Prevalence of intestinal parasitic infections among food handlers in Khuzestan, Southwest of Iran: A 10-year retrospective study. Afr. J. Microbiol. Res., 6: 2475-2480.
    Direct Link  |  


  23. Sarkari, B., 1996. Survey of parasitic infections in consumed vegetables in Yasouj city. J. Yasouj Uni. Med. Uni., 1: 31-36.


  24. Shahnazi, M. and M. Jafari-Sabet, 2010. Prevalence of parasitic contamination of raw vegetables in villages of Qazvin province, Iran. Foodborne Pathogens Dis., 7: 1025-1030.
    PubMed  |  


  25. Anh, V.T., N.T. Tram, L.T. Klank, P.D. Cam and A. Dalsgaard, 2007. Faecal and protozoan parasite contamination of water spinach (Ipomoea aquatica) cultivated in urban wastewater in Phnom Penh, Cambodia. Trop. Med. Int. Health, 12: 73-81.
    CrossRef  |  


  26. Zohour, A. and P. Molazadeh, 2001. Prevalence of pathogenic parasites in consumed vegetables in Jiruft. J. Birjand Uni. Med. Sci., 8: 10-13.


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