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REVIEW

Foodborne Pathogens and Antimicrobial Resistance in Ethiopia: An Urgent Call for Action on “One Health”

Tsegahun Asfaw1 Department of Medical Laboratory Science, Debre Berhan University, Debre Berhan, EthiopiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-7410-5484View further author information
ORCID Icon,
Deribew Genetu1 Department of Medical Laboratory Science, Debre Berhan University, Debre Berhan, EthiopiaView further author information
,
Demissew Shenkute1 Department of Medical Laboratory Science, Debre Berhan University, Debre Berhan, EthiopiaView further author information
,
Tassew Tefera Shenkutie1 Department of Medical Laboratory Science, Debre Berhan University, Debre Berhan, EthiopiaView further author information
,
Yosef Eshetie Amare2 Departments of Biomedical Science, Debre Berhan University, Debre Berhan, EthiopiaORCID Iconhttps://orcid.org/0000-0003-0030-9529View further author information
ORCID Icon &
Berhanu Yitayew1 Department of Medical Laboratory Science, Debre Berhan University, Debre Berhan, EthiopiaORCID Iconhttps://orcid.org/0000-0002-4929-1764View further author information
ORCID Icon
Pages 5265-5274 | Published online: 06 Sep 2022

References

  • Guteta D. Sanitary Survey of Food and Drinking Establishments in Ambo Town West Showa Zone Oromia Region [Doctoral dissertation]; Addis Ababa University; 2007.
  • World Health Organization. Foodborne disease outbreaks: guidelines for investigation and control. World Health Organization; 2008.
  • Stewart GF, Amerine MA. Introduction to Food Science and Technology. Elsevier; 2012.
  • Amore G, Beloeil PA, Bocca V, et al; European Food Safety Authority (EFSA). Zoonoses, antimicrobial resistance and food‐borne outbreaks guidance for reporting 2020 data; 2021.
  • Heredia N, García S. Animals as sources of food-borne pathogens: a review. Anim Nutr. 2018;4(3):250–255. doi:10.1016/j.aninu.2018.04.006
  • Foundation AN, Safety F; American Medical Association, Centers for Disease Control and Prevention. Diagnosis and management of foodborne illnesses: a primer for physicians and other health care professionals. MMWR. Recommendations and reports: morbidity and mortality weekly report. Recomm Rep. 2004;53(RR–4):1–33.
  • Rane S. Street vended food in developing world: hazard analyses. Indian J Microbiol. 2011;51(1):100–106. doi:10.1007/s12088-011-0154-x
  • Paudyal N, Anihouvi V, Hounhouigan J, et al. Prevalence of foodborne pathogens in food from selected African countries–A meta-analysis. Int J Food Microbiol. 2017;249:35–43. doi:10.1016/j.ijfoodmicro.2017.03.002
  • Girma G. Prevalence, Antibiogram and growth potential of Salmonella and Shigella in Ethiopia: implications for public health. A Review. Prevalence. 2015;33:45.
  • Keba A, Rolon ML, Tamene A, et al. Review of the prevalence of foodborne pathogens in milk and dairy products in Ethiopia. Int Dairy j. 2020;109:104762.
  • Chen L, Alali W. recent discoveries in human serious foodborne pathogenic Bacteria: resurgence, pathogenesis, and control strategies. Front Microbiol. 2018;9:2412. doi:10.3389/fmicb.2018.02412
  • Linscott AJ. Food-borne illnesses. Clin Microbiol Newsletter. 2011;33(6):41–45.
  • Shrivastava SR, Shrivastava PS, Ramasamy J. World health organization releases global priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibiotics. J Med Soc. 2018;32(1):76. doi:10.4103/jms.jms_25_17
  • Liu X, Wu M, Liu Y, Li J, Yang D, Jiang L. Foodborne parasites dominate current parasitic infections in Hunan Province, China. Front Cell Infect Microbiol. 2021;4:974.
  • Nyarango RM, Aloo PA, Kabiru EW, Nyanchongi BO. The risk of pathogenic intestinal parasite infections in Kisii Municipality, Kenya. BMC Public Health. 2008;8(1):1–6. doi:10.1186/1471-2458-8-237
  • Evans AC, Stephenson LS. Not by drugs alone: the fight against parasitic helminths. World Health Forum. 1995;16(3):258–261.
  • World Health Organization. Deworming for health and development: report of the Third Global Meeting of the Partners for Parasite Control. World Health Organization; 2005.
  • World Health Organization. WHO estimates of the global burden of foodborne diseases: foodborne disease burden epidemiology reference group 2007–2015. World Health Organization; 2015.
  • Adenusi AA, Abimbola WA, Adewoga TO. Human intestinal helminth contamination in pre-washed, fresh vegetables for sale in major markets in Ogun State, southwest Nigeria. Food Control. 2015;50:843–849. doi:10.1016/j.foodcont.2014.10.033
  • Idahosa OT. Parasitic contamination of fresh vegetables sold in Jos markets. Global J Med Res. 2011;11(1):21–25.
  • Alhabbal AT. The prevalence of parasitic contamination on common cold vegetables in Alqalamoun Region. Int J Pharm Sci Rev Res. 2015;30(1):94–97.
  • Amoah P, Drechsel P, Abaidoo RC, Klutse A. Effectiveness of common and improved sanitary washing methods in selected cities of West Africa for the reduction of coliform bacteria and helminth eggs on vegetables. Trop med int health. 2007;12:40–50. doi:10.1111/j.1365-3156.2007.01940.x
  • Bekele F, Tefera T, Biresaw G, Yohannes T. Parasitic contamination of raw vegetables and fruits collected from selected local markets in Arba Minch town, Southern Ethiopia. Infect Dis Poverty. 2017;6(1):1–7. doi:10.1186/s40249-016-0226-6
  • Tefera T, Biruksew A, Mekonnen Z, Eshetu T. Parasitic contamination of fruits and vegetables collected from selected local markets of Jimma Town, Southwest Ethiopia. Int Scholar Res Notices. 2014;2014:1–7. doi:10.1155/2014/382715
  • Endale A, Tafa B, Bekele D, Tesfaye F. Detection of medically important parasites in fruits and vegetables collected from local markets in Dire Dawa, Eastern Ethiopia. Glob J Med Res. 2018;18:29–36.
  • Alemu G, Mama M, Misker D, Haftu D. Parasitic contamination of vegetables marketed in Arba Minch town, southern Ethiopia. BMC Infect Dis. 2019;19(1):1–7. doi:10.1186/s12879-019-4020-5
  • Kiros Gebremariam G, Girmay TG. Parasitic contamination of fresh vegetables in open air markets of Aksum, Ethiopia; 2020.
  • Delesa DA. Intestinal parasitic and bacteriological contamination of raw vegetables from selected farms and markets in Nekemte, Ethiopia. IJARBS. 2017;4(12):191–200. doi:10.22192/ijarbs.2017.04.12.019
  • Kifleyohannes T, Debenham JJ, Robertson LJ. Is fresh produce in Tigray, Ethiopia a potential transmission vehicle for Cryptosporidium and Giardia? Foods. 2021;10(9):1979. doi:10.3390/foods10091979
  • Alemu G, Mama M, Siraj M. Bacterial contamination of vegetables sold in Arba Minch town, Southern Ethiopia. BMC Res Notes. 2018;11(1):1–5.
  • Bekele F, Shumbej T, Dendir A, et al. Contamination rate of commonly consumed fresh vegetables and fruits with parasites of medically importance in Wolkite and Butajira Towns of Gurage Zone, Southern Ethiopia. Int J Public Health. 2020;9(3):211–215.
  • Getahun D, Van Henten S, Abera A, et al. Cysts and parasites in an abattoir in Northwest Ethiopia; an urgent call for action on “one health”. j Infect Develop Countries. 2020;14(06.1):53S–57S. doi:10.3855/jidc.11713
  • Muhammed S, Birhanu T. Major bovine parasitic zoonosis at selected municipal abattoirs, North Shewa Zone, Oromia, Central Ethiopia. Int j Veter Sci Res. 2020;6(2):148–153.
  • Molla D, Nazir S, Mohammed A, Tintagu T. Parasitic infections as major cause of abattoir condemnations in cattle slaughtered at an Ethiopian abattoir: 10-year retrospective study. J Helminthol. 2020;94. doi:10.1017/S0022149X1900004X
  • Regassa B. Review on hydatidosis in small ruminant and its economic and public health significance. J Dairy Vet Sci. 2019;11(2):1–8.
  • Mitiku M. Epidemiology of cystic Bovine hydatidosis: emphasis on abattoir findings in Ethiopia. J Veter Med Res. 2017;4:56.
  • Jaykus LA. Epidemiology and detection as options for control of viral and parasitic foodborne disease. Emerg Infect Dis. 1997;3(4):529. doi:10.3201/eid0304.970418
  • Wirtanen G, Salo S. Microbial contaminants & contamination routes in food industry. In: Microbial Contaminants & Contamination Routes in Food Industry: 1st SAFOODNET Open Seminar 2007. VTT Technical Research Centre of Finland; 2022.
  • Burnett SL, Beuchat LR. Human pathogens associated with raw produce and unpasteurized juices, and difficulties in decontamination. J Ind Microbiol Biotechnol. 2000;25(6):281–287. doi:10.1038/sj.jim.7000106
  • Taban BM, Halkman AK. Do leafy green vegetables and their ready-to-eat [RTE] salads carry a risk of foodborne pathogens? Anaerobe. 2011;17(6):286–287. doi:10.1016/j.anaerobe.2011.04.004
  • Adjrah Y, Soncy K, Anani K, et al. Socio-economic profile of street food vendors and microbiological quality of ready-to-eat salads in Lomé. Int Food Res J. 2013;20(1):e43.
  • Alegbeleye OO, Singleton I, Sant’Ana AS. Sources and contamination routes of microbial pathogens to fresh produce during field cultivation: a review. Food Microbiol. 2018;73:177–208. doi:10.1016/j.fm.2018.01.003
  • Brackett R. Incidence, contributing factors, and control of bacterial pathogens in produce. Postharvest Biol Technol. 1999;15(3):305–311. doi:10.1016/S0925-5214(98)00096-9
  • Mritunjay SK, Kumar V. Potential hazards of microbial contamination associated with raw eaten salad vegetables and fresh produces. Middle East J Sci Res. 2015;23(4):741–749.
  • Oranusi S, Olorunfemi OJ. Microbiological safety evaluation of street vended ready-to-eat fruits sold in Ota, Ogun state, Nigeria. Int J Res Biol Sci. 2011;1(3):27–32.
  • Mensah P, Yeboah-Manu D, Owusu-Darko K, Ablordey A. Street foods in Accra, Ghana: how safe are they? Bull World Health Organ. 2002;80(7):546–554.
  • World Health Organization. Microbiological hazards in fresh leafy vegetables and herbs: meeting report. World Health Organization; 2008.
  • Heaton JC, Jones K. Microbial contamination of fruit and vegetables and the behaviour of enteropathogens in the phyllosphere: a review. J Appl Microbiol. 2008;104(3):613–626. doi:10.1111/j.1365-2672.2007.03587.x
  • Buck JW, Walcott RR, Beuchat LR. Recent trends in microbiological safety of fruits and vegetables. Plant Health Progress. 2003;4(1):25. doi:10.1094/PHP-2003-0121-01-RV
  • Mengistu DA, Mulugeta Y, Mekbib D, Baraki N, Gobena T. Bacteriological quality of locally prepared fresh fruit juice sold in juice houses of Eastern Ethiopia. Environ Health Insights. 2022;16:11786302211072949. doi:10.1177/11786302211072949
  • Berhanu M, Adal M, Sahile S. Microbial quality spectrum of packed and fresh fruit juices in Gondar town supermarkets and Cafes, Northwestern Ethiopia. J Microbiol Res. 2020;10:45–54.
  • Derra FA, Bedada T, Edichio R, et al. Evaluation of the consumption and contamination level of Vegetables and Fruits in Ethiopia; 2020.
  • Dobo B. Fungal and bacterial contamination of fresh fruits and vegetables sold in Hawassa town of southern Ethiopia. Global Sci J. 2019;7(3):1038–1049.
  • Shiferaw M, Kibret M. Microbial quality of avocado and guava fruits used for preparation of freshly squeezed juices from juice houses of Bahir Dar town, northwest Ethiopia. Int J Sci Res Publ. 2018;8:100–113.
  • Weldezgina D, Muleta D. Bacteriological contaminants of some fresh vegetables irrigated with Awetu River in Jimma Town, Southwestern Ethiopia. Adv Biol. 2016;2016:1–11. doi:10.1155/2016/1526764
  • Leul A, Kibret M. Bacteriological safety of freshly squeezed Mango and pineapple juices served in juice houses of Bahir Dar town, northwest Ethiopia. Int J Sci Basic Appl Res. 2012;6:24–35.
  • Ayele W. A preliminary survey of the microbiological and parasitological quality of some locally produced and marketed vegetables in Arba Minch, Ethiopia. Arba Minch Town ROSA project booklet; 2009: 43–44.
  • Solomon EB, Potenski CJ, Matthews KR. Effect of irrigation method on transmission to and persistence of Escherichia coli O157: H7 on lettuce. J Food Prot. 2002;65(4):673–676. doi:10.4315/0362-028X-65.4.673
  • Edget A, Dagmar N, Biruhtesfa A. Review on common foodborne pathogens in Ethiopia. Afr J Microbiol Res. 2014;8(53):4027–4040.
  • Geresu MA, Desta WZ. Carriage, risk factors, and antimicrobial resistance patterns of Salmonella isolates from raw beef in Jimma, Southwestern Ethiopia. Infect Drug Resist. 2021;14:2349. doi:10.2147/IDR.S313485
  • Ejo M, Garedew L, Alebachew Z, Worku W. Prevalence and antimicrobial resistance of salmonella isolated from animal-origin food items in Gondar, Ethiopia. Biomed Res Int. 2016;2016:1–8. doi:10.1155/2016/4290506
  • Wabeto W, Abraham Y, Anjulo AA. Detection and identification of antimicrobial-resistant Salmonella in raw beef at Wolaita Sodo municipal abattoir, Southern Ethiopia. J Health Popul Nutr. 2017;36(1):1–7. doi:10.1186/s41043-017-0131-z
  • Sebsibe MA, Asfaw ET. Occurrence of multi-drug resistant Escherichia coli and Escherichia coli O157: H7 in meat and swab samples of various contact surfaces at abattoir and butcher shops in Jimma town, Southwest district of Ethiopia. Infect Drug Resist. 2020;13:3853. doi:10.2147/IDR.S277890
  • Adugna F, Pal M, Girmay G. Prevalence and Antibiogram Assessment of Staphylococcus aureus in Beef at Municipal Abattoir and Butcher Shops in Addis Ababa, Ethiopia. Biomed Res Int. 2018;2018:1–7. doi:10.1155/2018/5017685
  • Zerabruk K, Retta N, Muleta D, Tefera AT. Assessment of microbiological safety and quality of minced meat and meat contact surfaces in selected butcher shops of Addis Ababa, Ethiopia. J Food Qual. 2019;2019:1–9. doi:10.1155/2019/3902690
  • Bedada TL, Feto TK, Awoke KS, et al. Microbiological and public health status of cooked meat and fish in Ethiopia. Open Microbiol J. 2020;14(1):123–129. doi:10.2174/1874285802014010123
  • Zahara L, Zinewi H. The Microbial properties of dairy products in Ethiopia: a Review. Int J Dairy Sci Technol. 2015;2(1):088–094.
  • Adugna C, Eshetu M. Hygienic practice, microbial quality and physico-chemical properties of milk collected from farmers and market chains in Eastern Wollega zone of Sibu Sire districts, Ethiopia. Int J Agricult Sci Food Technol. 2021;7(1):125–132.
  • Amenu K, Spengler M, Markemann A, Zárate AV. Microbial quality of water in rural households of Ethiopia: implications for milk safety and public health. J Health Popul Nutr. 2014;32(2):190.
  • Abebe E, Gugsa G, Ahmed M. Review on major food-borne zoonotic bacterial pathogens. J Trop Med. 2020;2020:1–19. doi:10.1155/2020/4674235
  • Pieracci EG, Hall AJ, Gharpure R, et al. Prioritizing zoonotic diseases in Ethiopia using a one health approach. One Health. 2016;2:131–135. doi:10.1016/j.onehlt.2016.09.001
  • Asante J, Noreddin A, El Zowalaty ME. Systematic review of important bacterial zoonoses in Africa in the last decade in light of the “One Health”concept. Pathogens. 2019;8(2):50. doi:10.3390/pathogens8020050
  • Cavalerie L, Wardeh M, Lebrasseur O, et al. One hundred years of zoonoses research in the Horn of Africa: a scoping review. PLoS neglected tropical diseases. PLoS Neglected Trop Dis. 2021;15(7):e0009607. doi:10.1371/journal.pntd.0009607
  • Mekonnen SA, Gezehagn A, Berju A, et al. Health and economic burden of foodborne zoonotic diseases in Amhara region, Ethiopia. PLoS One. 2021;16(12):e0262032. doi:10.1371/journal.pone.0262032
  • World Bank. Pulling Together to Beat Superbugs: Knowledge and Implementation Gaps in Addressing Antimicrobial Resistance. Washington, DC; 2019.
  • World Health Organization. WHO report on surveillance of antibiotic consumption: 2016–2018 early implementations; 2019.
  • Holmes AH, Moore LS, Sundsfjord A, et al. Understanding the mechanisms and drivers of antimicrobial resistance. Lancet. 2016;387(10014):176–187. doi:10.1016/S0140-6736(15)00473-0
  • O’Neill J. Review on antimicrobial resistance: tackling drug-resistant infections globally: final report and recommendations; 2016.
  • Abbassi MS, Badi S, Lengliz S, Mansouri R, Salah H, Hynds P. Hiding in plain sight-wildlife as a neglected reservoir and pathway for the spread of antimicrobial resistance: a narrative review. FEMS Microbiol Ecol. 2022;98(6):fiac045. doi:10.1093/femsec/fiac045
  • Woolhouse M, Ward M, Van Bunnik B, Farrar J. Antimicrobial resistance in humans, livestock and the wider environment. Philos Trans R Soc B Biol Sci. 2015;370(1670):20140083. doi:10.1098/rstb.2014.0083
  • Van Boeckel TP, Glennon EE, Chen D, et al. Reducing antimicrobial use in food animals. Science. 2017;357(6358):1350–1352. doi:10.1126/science.aao1495
  • Van Boeckel TP, Pires J, Silvester R, et al. Global trends in antimicrobial resistance in animals in low-and middle-income countries. Science. 2019;365(6459):eaaw1944. doi:10.1126/science.aaw1944
  • Laxminarayan R, Matsoso P, Pant S, et al. Access to effective antimicrobials: a worldwide challenge. Lancet. 2016;387(10014):168–175. doi:10.1016/S0140-6736(15)00474-2
  • World Health Organization. The evolving threat of antimicrobial resistance: options for action. World Health Organization; 2012.
  • Gemeda BA, Assefa A, Jaleta MB, Amenu K, Wieland B. Antimicrobial resistance in Ethiopia: a systematic review and meta-analysis of prevalence in foods, food handlers, animals, and the environment. One Health. 2021;13:100286. doi:10.1016/j.onehlt.2021.100286
  • Belina D, Hailu Y, Gobena T, Hald T, Njage PM. Prevalence and epidemiological distribution of selected foodborne pathogens in human and different environmental samples in Ethiopia: a systematic review and meta-analysis. One Health Outlook. 2021;3(1):1–30. doi:10.1186/s42522-021-00048-5
  • Erkyihun GA, Gari FR, Edao BM, Kassa GM. A review on one health approach in Ethiopia. One Health Outlook. 2022;4(1):1–3. doi:10.1186/s42522-022-00064-z
  • Altan E, Aiemjoy K, Phan TG, et al. Enteric virome of Ethiopian children participating in a clean water intervention trial. PLoS One. 2018;13(8):e0202054. doi:10.1371/journal.pone.0202054

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