Zoonotic Risks from Domestic Animals in Ghana
International Journal of Pathogen Research,
Zoonoses are diseases or infections which are naturally transmitted from vertebrate animals to humans and vice versa. These infections account for more than half of human infections worldwide, with most cases reported in developing countries like Ghana. The Government of Ghana recently launched the “Rearing for Food and Jobs Campaign”, an initiative to bridge the glaring deficit in protein supply. This has resulted in increased livestock production nationwide in response to the increasing demand for animal protein. Increase in both human and livestock population in the country have implications for transmission of zoonotic diseases, as it allows for more frequent interactions between the two within a limited space. Multiple animals are kept in various homes at varying levels of confinement. Security concerns, particularly in urban areas, have resulted in an increased reliance on dogs, while financial considerations have mainly driven a rapid increase in livestock production both at commercial and smallholder levels. Taking into account that the pandemics in the past few decades have animal origins, this growing human-animal interconnection is of concern. Albeit an increased household-human-animal ratio, there is a paucity of epidemiological data on domestic animals in Ghana. Several zoonotic diseases have been reported in Ghana, including rabies, toxocariasis, toxoplasmosis, Q-fever, hepatitis E and brucellosis. Risk factors such as close contact with animals, poor hand hygiene, poor sanitation, and unvaccinated, free-ranging animals have been linked with zoonotic transmissions. Zoonoses have been recorded in homes, slaughterhouses, and on farms in farm workers, butchers, and vulnerable groups, including children, pregnant women, and HIV patients. A ‘One-Health’ approach, which comprises well-coordinated activities of both health and veterinary services, will facilitate timely diagnosis and effective control of zoonoses in Ghana.
- Zoonotic risks
- domestic animals
- livestock population.
How to Cite
Punguyire DT, Osei-Tutu A, Aleser EV, Letsa T. Level and pattern of human rabies and dog bites in Techiman Municipality in the Middle Belt of Ghana: a six year retrospective records review. Pan African Medical Journal. 2017;28(1).
Klous G, Huss A, Heederik DJ, Coutinho RA. Human–livestock contacts and their relationship to transmission of zoonotic pathogens, a systematic review of literature. One Health. 2016;2:65-76.
Majekodunmi AO, Addo HO, Bagulo H, Bimi L. Integrated value-chain and risk assessment of Pig-Related Zoonoses in Ghana. PloS one. 2019;14(11).
Conrad CC, Stanford K, Narvaez-Bravo C, Callaway T, McAllister T. Farm fairs and petting zoos: A review of animal contact as a source of zoonotic enteric disease. Foodborne pathogens and disease. 2017;14(2):59-73.
Taylor LH, Latham SM, Woolhouse ME. Risk factors for human disease emergence. Philosophical Transactions of the Royal Society of London Series B: Biological Sciences. 2001;356(1411):983-9.
Gebreyes WA, Dupouy-Camet J, Newport MJ, Oliveira CJ, Schlesinger LS, Saif YM, et al. The global one health paradigm: challenges and opportunities for tackling infectious diseases at the human, animal, and environment interface in low-resource settings. PLoS neglected tropical diseases. 2014;8(11).
Ahmad T, Khan M, Haroon THM, Nasir S, Hui J, Bonilla-Aldana DK, et al. COVID-19: Zoonotic aspects. Travel Medicine and Infectious Disease; 2020.
Tasiame W, Johnson S, Burimuah V, Akyereko E, Amemor E. Dog population structure in Kumasi, Ghana: a missing link towards rabies control. The Pan African Medical Journal. 2019;33.
Squire SA, Yang R, Robertson I, Ayi I, Squire DS, Ryan U. Gastrointestinal helminths in farmers and their ruminant livestock from the Coastal Savannah zone of Ghana. Parasitology Research. 2018; 117(10):3183-94.
Adu AK. Cattle as Potential Reservoir for Parasitic Zoonotic Diseases in the Lower Manya Krobo District in the Eastern Region of Ghana: University Of Ghana; 2017.
CDC. One Health; 2018.
Johnson SA, Gakuya DW, Mbuthia PG, Mande JD, Afakye K, Maingi N. Myiasis in dogs in the Greater Accra Region of Ghana. Vector-Borne and Zoonotic Diseases. 2016;16(1):54-7.
Symons L. Agricultural geography: Routledge; 2019.
Dodua ASN, Richard O-A, Dennis AO, Kwadjo AB, Matthew SB, Anne SC. Production practices of local pig farmers in Ghana; 2019.
Voss K. Public Health Risk in Animal Shelters. 2019.
Johnson SAM, Gakuya DW, Mbuthia PG, Mande JD, Maingi N. Prevalence of gastrointestinal helminths and manage-ment practices for dogs in the Greater Accra region of Ghana. Heliyon. 2015; 1(1):e00023.
Fuseini A, Sulemana I. An Exploratory Study of the Influence of Attitudes toward Animal Welfare on Meat Consumption in Ghana. Food Ethics. 2018;2(1):57-75.
Adomako B-Y, Baiden F, Sackey S, Ameme DK, Wurapa F, Nyarko KM, et al. Dog Bites and Rabies in the Eastern Region of Ghana in 2013–2015: A Call for a One-Health Approach. Journal of tropical medicine;2018.
Laryea D, Kyem G, Awittor F, Amoako YA, Owusu R, editors. Scarcity of the rabies vaccine and immunoglobulin: A potential for rabies outbreak in Ghana. APHA 2016 Annual Meeting & Expo. American Public Health Association; 2016.
Awuni B, Tarkang E, Manu E, Amu H, Ayanore MA, Aku FY, et al. Dog Owners’ Knowledge about Rabies and Other Factors That Influence Canine Anti-Rabies Vaccination in the Upper East Region of Ghana. Tropical medicine and Infectious Disease. 2019;4(3):115.
Laryea DO, Ofori RO, Arthur J, Agyemang EO, Spangenberg K. Human Rabies in Kumasi: A Growing Public Health Concern. African Journal of Current Medical Research. 2017;1(1).
WHO. Spread of canine rabies sparks broad community response in Ghanaian townSpread of canine rabies sparks broad community response in Ghanaian Town; 2019.
WHO. Global elimination of dog-mediated human rabies: report of the rabies global conference, 10-11 December 2015, Geneva, Switzerland. World Health Organization; 2016.
Taira K, Saeed I, Permin A, Kapel C. Zoonotic risk of Toxocara canis infection through consumption of pig or poultry viscera. Veterinary Parasitology. 2004; 121(1-2):115-24.
Kyei G, Ayi I, Boampong J, Turkson P. Sero-epidemiology of Toxocara canis infection in children attending four selected health facilities in the central region of Ghana. Ghana medical journal. 2015; 49(2):77-83.
Nunes CM, Tundisi RN, Heinemann MB, Ogassawara S, Richtzenhain LJ. Toxocariasis: serological diagnosis by indirect antibody competition ELISA. Revista do Instituto de Medicina Tropical de São Paulo. 1999;41(2):95-100.
Amissah-Reynolds PK, Yar DD, Gyamerah I, Apenteng OY, Sakyi S. Fresh Vegetables and Ready-to-eat Salads: Sources of Parasitic Zoonoses in Mampong-Ashanti, Ghana. European Journal of Nutrition & Food Safety. 2020; 47-55.
Semih Ö, Hatice Ö, Gönenç B, Özbakiş G, Yildiz C. Presence of Toxocara eggs on the hair of dogs and cats. Ankara Üniversitesi Veteriner Fakültesi Dergisi. 2013;60(3):171-6.
Wael F, Holt HR, Tayel AA. Risk of Toxocara canis eggs in stray and domestic dog hair in Egypt. Veterinary parasitology. 2011;178(3-4):319-23.
Asare KK, Opoku YK, Anning AS, Afrifa J, Gyamerah EO. Case Report: A case of dipylidiasis in a first-trimester pregnant woman attending a routine antenatal clinic at Elmina health centre, Ghana. F1000 Research. 2019;8(857):857.
Owusu I. Detection of Zoonotic Babesia Species in Greater Accra, Ghana: University of Ghana; 2015.
Shalaby H, Abdel-Shafy S, Derbala A. The role of dogs in transmission of Ascaris lumbricoides for humans. Parasitology research. 2010;106(5):1021-6.
Duku S, van der Zijpp AJ, Udo M. Household vulnerability and small ruminant benefits in the transitional zone of Ghana. Journal of Agricultural Extension and Rural Development. 2010;4(5):98-106.
Adzitey F. Animal and meat production in Ghana-An overview. The Journal of World’s Poultry Research. 2013;3(1):1-4.
Baah J, Tuah A, Addah W, Tait R. Small ruminant production characteristics in urban households in Ghana. Age (years). 2012;29(15):30-9.
Ayim‐Akonor M, Krumkamp R, May J, Mertens E. Understanding attitude, practices and knowledge of zoonotic infectious disease risks among poultry farmers in Ghana. Veterinary Medicine and Science; 2020.
Amissah-Reynolds PK, Bonsu FRK, Yar DD, Osei CP, Nuamah F, Ndego EA. Trichostrongylus infections in slaughtered Ruminants: The case of selected slaughterhouses in Kumasi, Ghana. Ghana Science Association, 31st Biennial Conference book of Abstracts; 2019.
Boukary AR, Saegerman C, Abatih E, Fretin D, Bada RA, De Deken R, et al. Seroprevalence and potential risk factors for Brucella spp. infection in traditional cattle, sheep and goats reared in urban, periurban and rural areas of Niger. PloS one. 2013;8(12).
Folitse RD, Opoku-Agyemang T, Amemor E, Opoku ED, Bentum KE, Emikpe BO. Serological evidence of Coxiella burnetii infection in slaughtered sheep and goats at Kumasi Abattoir, Ghana. Journal of Immunoassay and Immunochemistry. 2020;41(2):152-7.
Turkson P, Boadu D. Epidemiology of bovine brucellosis in the Coastal Savanna zone of Ghana. Acta tropica. 1992; 52(1):39-43.
Jarikre T, Emikpe B, Folitse R, Odoom T, Fuseini A, Shaibu E. Prevalence of brucellosis in small ruminants in three regions of Ghana. Bulgarian J Vet Med. 2015;18:49-55.
Folitse R, Boi-Kikimoto B, Emikpe B, Atawalna J. The prevalence of Bovine tuberculosis and brucellosis in cattle from selected herds in Dormaa and Kintampo Districts, Brong Ahafo region, Ghana. Archives of Clinical Microbiology. 2014; 5(2).
Amemor EA, Sackey SO, Yebuah N, Folitse RD, Emikpe BO, Afari E, et al. The prevalence of tuberculosis in cattle and their handlers in north Tongu, Volta region, Ghana. African Journal of Infectious Diseases. 2017;11(1):12-7.
Otchere E, Okantah S. Smallholder dairy production and marketing in Ghana. Smallholder dairy production and marketing—Opportunities and constraints. 2017;215.
Kubuafor D, Awumbila B, Akanmori B. Seroprevalence of brucellosis in cattle and humans in the Akwapim-South district of Ghana: public health implications. Acta Tropica. 2000;76(1):45-8.
Mwinyelle GB, Alhassan A. Overview of bovine tuberculosis in Ghana. Zoonotic Tuberculosis: Mycobacterium bovis and Other Pathogenic Mycobacteria. 2014;175-80.
Edward F, Osei-Tutu A, Gbeddy K, Tsitsiwu J, Quist C. Anthrax outbreak at disease investigation farm, Techiman, Ghana, 2013. International Journal of Infectious Diseases. 2014;21:145.
Johnson SA, Kaneene JB, Asare‐Dompreh K, Tasiame W, Mensah IG, Afakye K, et al. Seroprevalence of Q fever in cattle, sheep and goats in the Volta region of Ghana. Veterinary Medicine and Science. 2019; 5(3):402-11.
Costa SCL, de Magalhães VCS, de Oliveira UV, Carvalho FS, de Almeida CP, Machado RZ, et al. Transplacental transmission of bovine tick-borne pathogens: frequency, co-infections and fatal neonatal anaplasmosis in a region of enzootic stability in the northeast of Brazil. Ticks and tick-borne diseases. 2016; 7(2):270-5.
Plummer PJ, McClure JT, Menzies P, Morley PS, Van den Brom R, Van Metre DC. Management of C oxiella burnetii infection in livestock populations and the associated zoonotic risk: A consensus statement. Journal of veterinary internal medicine. 2018;32(5):1481-94.
Kobbe R, Kramme S, Kreuels B, Adjei S, Kreuzberg C, Panning M, et al. Q fever in young children, Ghana. Emerging infectious diseases. 2008;14(2):344.
Squire SA, Ryan U. Cryptosporidium and Giardia in Africa: current and future challenges. Parasites & vectors. 2017; 10(1):195.
Bouzid M, Hunter PR, Chalmers RM, Tyler KM. Cryptosporidium pathogenicity and virulence. Clinical microbiology reviews. 2013;26(1):115-34.
Bouzid M, Kintz E, Hunter PR. Risk factors for Cryptosporidium infection in low and middle income countries: A systematic review and meta-analysis. PLoS neglected tropical diseases. 2018;12(6):e0006553.
Squire SA, Beyuo J, Amafu-Dey H. Prevalence of Cryptosporidium oocysts in cattle from Southern Ghana. Veterinarski arhiv. 2013;83(5):497-507.
Ayi I, Edu S, Apea-Kubi K, Boamah D, Bosompem K, Edoh D. Sero-epidemiology of toxoplasmosis amongst pregnant women in the greater Accra region of Ghana. Ghana medical journal. 2009; 43(3).
Kwofie KD, Ghansah A, Osei JHN, Frempong KK, Obed S, Frimpong EH, et al. Indication of risk of mother-to-child Toxoplasma gondii transmission in the Greater Accra Region of Ghana. Maternal and Child Health Journal. 2016;20(12): 2581-8.
Bentum KE, Folitse RD, Amemor E, Burimuah V, Opoku-Agyemang T, Emikpe BO. Seroprevalence of Toxoplasma Gondii antibodies in sheep and goats slaughtered at the Kumasi Abattoir, Ghana. Journal of Immunoassay and Immunochemistry. 2019;40(5):495-501.
Antwi P, Emikpe B, Essel K, Folitse R, Jarikre T. Detection of Toxoplasma gondii in goats at the Kumasi abattoir, Ghana. International Journal of Infectious Diseases. 2018;73:305.
Arko-Mensah J, Bosompem K, Canacoo E, Wastling J, Akanmori B. The seroprevalence of toxoplasmosis in pigs in Ghana. Acta Tropica. 2000;76(1):27-31.
Halliday JE, Allan KJ, Ekwem D, Cleaveland S, Kazwala RR, Crump JA. One health: Endemic zoonoses in the tropics: A public health problem hiding in plain sight. The Veterinary Record. 2015; 176(9):220.
Pisseri F, De Benedictis C, Roberti di Sarsina P, Azzarello B. Sustainable animal production, systemic prevention strategies in parasitic diseases of ruminants. Alternative & Integrative Medicine; 2013.
Thornton PK. Livestock production: recent trends, future prospects. Philosophical Transactions of the Royal Society B: Biological Sciences. 2010;365(1554):2853-67.
Ritchie H, Roser M. Meat and dairy production. Our World in Data; 2017.
Rein DB, Stevens GA, Theaker J, Wittenborn JS, Wiersma ST. The global burden of hepatitis E virus genotypes 1 and 2 in 2005. Hepatology. 2012;55(4): 988-97.
Valceschini E, editor Poultry meat trends and consumer attitudes. Proceedings of the XII European Poultry Conference; 2006.
Asante IA, Bertram S, Awuni J, Commey ANO, Aniwa B, Ampofo WK, et al. Highly pathogenic avian influenza A (H5N1) virus among poultry, Ghana, 2015. Emerging Infectious Diseases. 2016;22(12):2209.
Andoh LA, Ahmed S, Olsen JE, Obiri-Danso K, Newman MJ, Opintan JA, et al. Prevalence and characterization of Salmonella among humans in Ghana. Tropical medicine and health. 2017; 45(1):3.
Boakye O, Emikpe B, Folitse R, Bonnah S, Adusei K, Owusu M, et al. Serological detection of Newcastle disease virus antibodies in local chickens and guinea fowls in the area of Kumasi, Ghana. Brazilian Journal of Poultry Science. 2016; 18(1):87-92.
Fornace KM, Clark EL, Macdonald SE, Namangala B, Karimuribo E, Awuni JA, et al. Occurrence of Eimeria species parasites on small-scale commercial chicken farms in Africa and indication of economic profitability. PLoS One. 2013; 8(12).
Kankam T, Adu EK, Awumbila B. Gastrointestinal parasites of the grasscutter (Thryonomys swinderianus, Temminck 1827) on the Accra Plains of Ghana. African journal of ecology. 2009; 47(3):416-21.
Futagbi G, Agyei D, Aboagye I, Yirenya-Tawiah D, Edoh D. Intestinal parasites of the grasscutter (Thryonomys swinderianus Temminck 1827) from the Kwaebibirem District of the Eastern Region of Ghana. West African Journal of Applied Ecology. 2010;17(1).
Otupiri E, Adam M, Laing E, Akanmori B. Detection and management of zoonotic diseases at the Kumasi slaughterhouse in Ghana. Acta tropica. 2000;76(1):15-9.
Amegashie EA, Owusu-Dabo E, Salifu SP, Afum-Adjei Awuah A, Baffour-Awuah S, Addofoh N, et al. Sero-prevalence and occupational risk factors for Brucella infection among slaughterhouse workers and butchers in Kumasi, Ghana; 2017.
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