References
- WHO . The control of neglected zoonotic diseases: a route to poverty alleviation, Report of a Joint WHO/DFID-AHP Meeting with the participation of FAO and OIE. Geneva. 2006. Google Scholar
- WHO. Zoonoses: Managing public health risks at the human-Animal-environment interface. Accessed June 09 2017.
- Grace D, Jones B, McKeever D, Pfeiffer D, Mutua F et al. Zoonoses: Wildlife/livestock interactions Zoonoses Project 1; report to the UK Department for International Development and ILRI, Nairobi, Kenya: ILRI, and London, UK: Royal Veterinary College. 2011. Google Scholar
- Grace D, Mutua F, Ochungo P, Kruska R, Jones K, Brierley L, Lapar L, Said M, Herrero M, Phuc PM, Thao NB, Akuku I and Ogutu F. Mapping of poverty and likely zoonoses hotspots. Zoonoses Project 4, Report to the UK Department for International Development, Nairobi, Kenya: ILRI. 2012.
- Rist CL, Arriola CS, Rubin C. Prioritizing zoonoses: a proposed One Health tool for collaborative decision-making. PLoS One. 2014; 9(10): e109986. PubMed | Google Scholar
- Jones BA, Grace D, Kock R et al. Zoonosis emergence linked to agricultural intensification and environmental change. Proceedings of the National Academy of Sciences of the United States of America. 2013; 110(21): 8399-8404. PubMed | Google Scholar
- WHO. 10 facts about zoonotic neglected tropical diseases 2017b. Accessed May 01 2017.
- Mableson HE, Okello A, Picozzi K, Welburn SC. Neglected zoonotic diseases-the long and winding road to advocacy. PLoS Negl Trop Dis. 2014; 8(6): e2800. PubMed | Google Scholar
- Institute of Medicine (US) Forum on Microbial Threat. The causes and impacts of neglected tropical and zoonotic diseases: opportunities for integrated intervention strategies. Washington (DC): National Academies Press (US). 2011; A13. PubMed | Google Scholar
- Maudlin I, Eisler MC, Welburn SC. Neglected and endemic zoonoses. Philos Trans R Soc Lon B Biol Sci. 2009; 364(1530): 2777-2787. PubMed | Google Scholar
- Welburn SC, Beange I, Ducrotoy MJ, Okello AL. The neglected zoonoses-the case for integrated control and advocacy. Clin Microbiol Infect. 2015; 21(5): 433-443. PubMed | Google Scholar
- FAO. Anthrax outbreaks: a warning for improved prevention, control and heightened awareness. Empress Watch 2016; 37: 1-8. Rome. Accessed August 29 2017.
- Jernigan TA, Stephens DS, Ashford DA, Omenaca C, Topiel, MS, Galbraith M, Tapper M, Fisk TL, Zaki S, Popovic T, Meyer RF, Quinn CE, Harper SA, Fridkin SK, Sejvar J, Shepard CW, McConnell M, Guarner l, Shieh WJ, Malacki JM, Gerberding JL, Hughes JM, Perkins BA. Bioterrorism-related inhalational anthrax: the first 10 cases reported in the United States. Emerg Infect Dis. 2001; 7(6): 933-944. PubMed | Google Scholar
- Okolo MI. Studies on anthrax in food animals and persons occupationally exposed to the zoonoses in Eastern Nigeria. Int J Zoonoses. 1985; 12(4): 276-282. PubMed | Google Scholar
- Mawak JD, Fayam AS, Lar PM, Zakari H, Ngbede J. Seroprevalence of Bacillus anthracis in Jos and environs. Afr J Clin Exp Microbiol. 2006; 7(3): 190-193. Google Scholar
- Martin GJ, Friedlander AM. Bacillus anthracis (anthrax): in GL Mandell, Bennett JE, Dolin R eds Mandell, Douglas and Bennett's principles and practice of infectious diseases. Philadelphia, Churchill Livingstone. 2010; 7: 2715-25.
- FOS. Annual Abstracts of Statistics: Federal Office of Statistics. Nigeria. 1993-1997.
- Coker AO, Isokpehi RD, Thomas BN, Fagbenro-Beyioku AF, Omilabu SA. Zoonotic infections in Nigeria: overview from a medical perspective. Acta trop. 2000; 76(1): 59-63. PubMed | Google Scholar
- Jamie WE. Anthrax: diagnosis, treatment, prevention. Primary Care Update for Ob/Gyns. 2002; 9(4): 117-121. Google Scholar
- Baillie L. The development of new vaccines against Bacillus anthracis. J Appl Microbiol. 2001; 91(4): 609-613. PubMed | Google Scholar
- Pesciaroli M, Alvarez J, Boniotti MB, Cagiola M, Di Marco V, Marianelli C, Pacciarini M, Pasquali P. Tuberculosis in domestic animal species. Res Vet Sci. 2014; 97(Supplement): S78-S85. PubMed | Google Scholar
- Ameni G, Aseffa A, Sirak A, Engers H, Young DB et al. Effect of skin testing and segregation on the prevalence of bovine tuberculosis and molecular typing of Mycobacterium bovis in Ethiopia. Vet Rec. 2007; 161(23): 782-786. PubMed | Google Scholar
- Ameen SA, Adedeji OS, Raheem AK, Rafiu TA, Ige AO. Current status of bovine tuberculosis in Ogbomoso area of Oyo state. Middle-East J Sci Res. 2008; 3(4): 207-210. Google Scholar
- Abubakar UB, Ameh JI, Abdulkadir IA, Salisu I et al. Bovine tuberculosis in Nigeria: a review. Vet Res J. 2011; 4(1): 24-27.
- Cadmus SIB, Olugasa BO and Ogundipe GAT. The prevalence and zoonotic importance of tuberculosis in Ibadan. Proc 36th Annual Conference NVMA; Nigeria. 1999; 25-31.
- Raufu IA, Ameh JA. Prevalence of bovine tuberculosis in Maidguri Nigeria-an abbattoire study. Bull Anim Health Prod Afr. 2010; 58(2): 119-123. Google Scholar
- WHO. Roadmap for zoonotic tuberculosis 2017c. Accessed March 20 2018.
- Collins CH, Grange JM. The bovine tubercle bacillus. J Appl Microbiol. 1983; 55(1): 13-29. PubMed | Google Scholar
- Ayele WY, Neill SD, Zinsstag J, Pavlik I. Bovine tuberculosis an old disease but a new threat to Africa. Int J Tuberc Lung Dis. 2004; 8(8): 924-937. PubMed | Google Scholar
- Kazwala RR, Kambarage DM, Daborn CJ, Nyange J, Jiwa SFH, Sharp JM. Risk factors associated with the occurrence of bovine tuberculosis in cattle in southern highlands of Tanzania. Vet Res Commun. 2001; 25(8): 609-614. PubMed | Google Scholar
- Cadmus S, Palmer S, Okker M, Dale J, Gover K, Smith W, Jahan K, Hewison RG and Gordon SV. Molecular analysis of human and bovine tubercle bacilli from Local setting in Nigeria. J Clin Microbiol. 2006 Jan; 44(1): 29-34. PubMed | Google Scholar
- Krauss H, Weber A, Appel M, Enders B, Isenberg DH, Schiefer GH, Slenczka W, von Graevenitz A, Zahner H. Zoonoses: infectious diseases transmissible from animals to humans. 2003; 3: 213.
- Garnier T, Eiglmeier K, Camus JC, Medina N, Mansoor H, Pryor M, Duthoy S, Grondin S, Lacroix C, Monsempe C, Simon S, Harris B, Atkin R, Doggett J, Mayes R, Keating L, Wheeler PR, Parkhill J, Barrell BG, Cole ST, Gordon SV, Hewinson RG. The complete genome sequence of Mycobacterium bovis. Proc Natl Acad Sci. 2003; 100(13): 7877-7882. PubMed | Google Scholar
- Ariza J, Bosilkovski M, Cascio A, Colmenero J, Corbel M. Prospectives for the Treatment of Brucellosis in the 21st Century: the Ioannina Recommendations. PLoS Med. 2007; 4(12): e317. PubMed | Google Scholar
- Karimuribo ED, Ngowi HA, Swai ES, Kambarage DM. Prevalence of brucellosis in crossbred and indigenous cattle in Tanzania. Livestock Res Rural Dev. 2007; 19(10): 148-152. Google Scholar
- Seleem MN, Boyle SM, Sriranganathan N. Brucellosis: a re-emerging zoonosis. Vet Microbiol. 2010; 140 (3-4): 392-398. PubMed | Google Scholar
- Corbel MJ. Brucellosis in humans and animals. World Health Organization; 2006. 89. Accessed 31 March 2018.
- McDermott JJ, Arimi SM. Brucellosis in sub-Saharan Africa: epidemiology, control and impact. Vet Microbiol. 2002 Dec 20; 90(1-4): 111-34. PubMed | Google Scholar
- Franco M, Mulder M, Gilman R, Smits H. Human brucellosis. Lancet Infect Dis. 2007; 7(12): 775-786. PubMed | Google Scholar
- Adamu M, Mshelia GD, Elelu N, Ouda L, Egwu GO. Studies on farmer awareness on caprine abortion and the presence of Brucella abortus and Brucella melitensis in selected flocks in an arid zone of Nigeria. J Vet Med Anim Health. 2012; 4(2): 17-21. Google Scholar
- Junaidu AU, Oboegbulem SI, Salihu MD. Serological survey of Brucella antibodies in breeding herds. J Microbiol Biotechnol Res. 2011; 1(1): 60-65. Google Scholar
- Mai HM, Irons PC, Kabir J, Thompson PN. A large seroprevalence survey of brucellosis in cattle herds under diverse production systems in northern Nigeria. BMC Vet Res. 2012 Aug 25; 8: 144. PubMed | Google Scholar
- Bonfoh B, Kasymbekov J, Dürr S, Toktobaev N, Doherr M. Representative Seroprevalences of Brucellosis in Humans and Livestock in Kyrgyzstan. Ecohealth. 2011; 9(2): 132-138. PubMed | Google Scholar
- Garin-Bastuji B, Verger, JM. Brucella abortus and Brucella melitensis: the significance of pathogenic microorganism in fresh milk. Int Dairy J. 1994; 9405.
- Young EJ. An overview of human brucellosis. Clin Infect Dis. 1995; 21(2): 283-290. PubMed | Google Scholar
- Baba MM, Sarkinared SE, Brisbe F. Serological evidence of brucellosis among predisposed patients with pyrexia of unknown origin in North-Eastern Nigeria. Cent Eur J Public Health. 2001; 9(3): 158-161. PubMed | Google Scholar
- Olabode HOK, Adah BMJ, Nafarnda WD, Aworh MFK, Bello RH. Sero-prevalence of Brucella abortus antibodies in slaughtered cattle and meat by-products handlers in Ilorin abattoir Kwara State, Nigeria. Prime J Microbiol Res. 2012; 2(3): 109-113. Google Scholar
- Aworh MK, Okolocha E, Kwaga J, Fasina F, Lazarus D, Suleman I, Poggensee G, Nguku P, Nsubuga P. Human brucellosis: seroprevalence and associated exposure factors among abattoir workers in Abuja, Nigeria. The Pan African Med J. 2013; 16: 103. PubMed | Google Scholar
- Carugati M, Biggs HM, Maze MJ, Stoddard RA, Cash-Goldwasser S, Hertz JT, Halliday JEB, Saganda W, Lwezaula BF, Kazwala RR et al. Incidence of human brucellosis in the Kilimanjaro Region of Tanzania in the periods 2007-2008 and 2012-2014. Trans R Soc Trop Med Hyg. 2018; 112(3): 136-143. PubMed | Google Scholar
- Schelling E, Diguimbaye C, Daoud S, Nicolet J, Boerlin P, Tanner M, Zinsstag J. Brucellosis and Q-fever seroprevalences of nomadic pastoralists and their livestock in Chad. Prev Vet Med. 2003; 61(4): 279-93. PubMed | Google Scholar
- Garcia HH, Gonzalez AE, Tsang VCW, Gilman RH. Neurocysticercosis: some of the essentials. Pract Neurol. 2006; 6(5): 288-297. Google Scholar
- Biu AA, Ijudai J. Prevalence and morphometric studies on porcine cysticercosis in Adamawa State, Nigeria. Sokoto J Vet Sci. 2012; 10(1): 28-31. Google Scholar
- Onah DN, Chiejina SN. Taenia solium cysticercosis and human taeniasis in the Nsukka area of Enugu State, Nigeria. Ann Trop Med Parasitol. 1995; 89(4): 399-407. PubMed | Google Scholar
- Pawlowski Z, Allan J, Sarti E. Control of Taenia solium taeniasis/cysticercosis: from research towards implementation. Int J Parasitol. 2005; 35(11-12): 1221?1232. PubMed | Google Scholar
- Quet F, Guerchet M, Pion SD, Ngoungou EB, Nicoletti A et al. Meta-analysis of the association between cysticercosis and epilepsy in Africa. Epilepsia. 2010; 51(5): 830-837. PubMed | Google Scholar
- Zoli A, Shey-Njila O, Assana E, Nguekam Dorny P, Brandt J, Geerts S. Regional status, epidemiology and impact of Taenia solium cysticercosis in Western and Central Africa. Acta Trop. 2003; 87(1): 35-42. PubMed | Google Scholar
- Trevisan C, Devleesschauwer B, Schmidt V, Winkler AS, Harrison W and Johansen MV. The societal cost of Taenia solium cysticercosis in Tanzania. Acta Trop. 2017; 165: 141-154. PubMed | Google Scholar
- Weka RP, Ikeh E, Kamani J. Sero-prevalence of antibodies (IgG) to Taenia solium among pig rearers and associated risk factors in Jos Metropolis, Nigeria. J Infect Dev Ctries. 2013; 7(2): 67-72. PubMed | Google Scholar
- Magaji HO, Adeniran AA, Fagbenro MT, Olabinke DB, Abe EM, Ekpo UF. Prevalence of human taeniasis in Odeda Area of Ogun State, Nigeria. Int J Trop Dis Health. 2016; 17(4): 1-8.
- Adediran OA, Kolapo TU, Uwalaka EC. Echinococcus granulosus prevalence in dogs in Southwest Nigeria. J Parasitol Res. 2014; 2014: 124358. PubMed | Google Scholar
- Budke CM, Deplazes P, Torgerson PR. Global Socioeconomic impact of cystic echinococcosis. Emerg Infect Dis. 2006; 12(2): 296-303. PubMed | Google Scholar
- Torgerson PR, Budke CM. Echinococcosis-an international public health challenge. Res Vet Sci. 2003; 74(3): 191-202. PubMed | Google Scholar
- Otero-Abad B, Torgerson PR. A systematic review of the epidemiology of echinococcosis in domestic and wild animals. PLoS Neg Trop Dis. 2013; 7(6): e2249. PubMed | Google Scholar
- Adene FO. Prevalence of hydatid cysts in domestic livestock in the Niger Delta. Trop Anim Health Prod. 1985; 17(1): 3-5. PubMed | Google Scholar
- Craig P, Mastin A, van Kesteren F, Boufana B. Echinococcus granulosus: epidemiology and state-of-the-art of diagnostics in animals. Vet Parasitol. 2015; 213(3-4): 132-148. PubMed | Google Scholar
- Brunetti E, Junghanss T. Update on cystic hydatid disease. Curr Opin Infect Dis. 2009; 22(5): 497-502. PubMed | Google Scholar
- Eckert J, Gemmell MA, Meslin FX, Pawlowski ZS, Eds. WHO/OIE Manual on Echinococcus in humans and animals: a public health problem of global concern. World Health Organisation, Paris, France; World Organisation for Animal Health, Geneva, Switzerland. 2001. Google Scholar
- Hotez PJ, Kamath A. Neglected tropical diseases in sub-Saharan Africa: review of their prevalence, distribution, and disease burden. PLoS Negl Trop Dis. 2009; 3(8): e412. PubMed | Google Scholar
- WHO. Trypanosomiasis, human African (sleeping sickness) 2017d. Accessed March 26 2018.
- Anere JI, Fajinmi AO, and Lawani F. An analysis of human African trypanosomiasis (HAT) in Nigeria. Sci World J. 2006; 1(1): 11-13. Google Scholar
- Brun R, Blum J, Chappuis F, Burri C. Human African trypanosomiasis. Lancet. 2010; 375(9709): 148-159. PubMed | Google Scholar
- Nmorsi OPG, Isaac C, Igbinosa IB, Umukoro DO, Aitaikuru, DP. Human African trypanosomiasis in endemic focus of Abraka, Nigeria. Asian Pac J Trop Med. 2010; 3(6): 448-450. Google Scholar
- Luintel A, Lowe P, Cooper A, MacLeod A, Büscher P, Brooks T et al. Case of Nigeria-acquired human African trypanosomiasis in United Kingdom. Emerg Infect Dis. 2017; 23(7): 1225-1227. PubMed | Google Scholar
- WHO. The World Health Report 2004: changing history. Geneva. 2004. Google Scholar
- Cavaliero T, Arnold P, Mathis A, Glaus T, Hofmann-Lehmann R, Deplazes P. Clinical, serologic and parasitologic follow-up after long-term allopurinol therapy of dogs naturally infected with Leishmania infantum. J Vet Intern Med. 1999; 13(4): 330-334. PubMed | Google Scholar
- Kimutai A, Ngure PK, Tonui WK, Gicheru MM, Nyamwamu LB. Leishmaniasis in Northern and Western Africa: a review. Afr J Infect Dis. 2009; 3(1): 14-25. Google Scholar
- Travi BL, Cordeiro-da-Silva A, Dantas-Torres F, Miró G. Canine visceral leishmaniasis: diagnosis and management of the reservoir living among us. PLoS Neg Trop Dis. 2018; 12(1): e0006082. PubMed | Google Scholar
- Ferrer L, Rabanal R, Fondevila D, RamosJ A, Domingo M. Skin lesions in canine leishmaniasis. Journal of Small Animal Practice. 1988; 29: 381-388. Google Scholar
- Adediran OA, Kolapo TU, Uwalaka EC. Seroprevalence of canine leishmaniasis in Kwara, Oyo and Ogun states of Nigeria. J Parasit Dis. 2016; 40(2): 510-514. PubMed | Google Scholar
- Dyce S. Oriental sore in Nigeria. Trans Royal Soc Trop Med Hyg. 1924 18: 336. Google Scholar
- Igbe M, Duhlinska D, Agwale S. Epidemiological survey of cutaneous leishmaniasis in Jos East LGA of Plateau State Nigeria. The Internet Parasit Dis. 2008; 4(1): 1-3. Google Scholar
- Bukar A, Ballah AD, Galadima BG, Haruna AN. Cutaneous leishmaniasis: Literature review and report of two cases from communities devastated by insurgency in North-East Nigeria. Global J Med Public Health. 2015; 4(2): 1-8. Google Scholar
- Bryceson ADM. Leishmaniasis, In: Manson Cook GC, editor, Tropical Diseases. 20th ed London: WB. Saunders. 1996. 1213-1245.
- Alvar J, Vélez ID, Bern C, Herrero M, Desjeux P, Cano J et al. Leishmaniasis worldwide and global estimates of its incidence. PLoS One. 2012; 7(5): e35671. PubMed | Google Scholar
- Knobel DL, Cleaveland S, Coleman PG, Fèvre EM, Meltzer MI, Miranda ME, Shaw A, Zinsstag J, Meslin FX. Re-evaluating the burden of rabies in Africa and Asia. Bull. World Health Organ. 2005; 83(5): 360-368. PubMed | Google Scholar
- Ratzan RM. Rabies in Israel 2006: an update and review. Israel J Emerg Med. 2006; 6(3): 16-26. Google Scholar
- Coleman PG, Dye C. Immunization coverage required to prevent outbreaks of dog rabies. Vaccine. 1996; 14(3): 185-186. PubMed | Google Scholar
- Kaare M, Lembo T, Hampson K, Ernest E, Estes A, Mentzel C, Cleaveland S. Rabies control in rural Africa: Evaluating strategies for effective domestic dog vaccination. Vaccine. 2009; 27(1): 152-160. PubMed | Google Scholar
- WHO. Rabies 2017e. Accessed 26 March 2018.
- Oduye OO, Aghomo HO. Epidemiology of Rabies in Nigeria, in: Kuwert E, Mérieux C, Koprowski H, Bögel K (Eds) Rabies in the Tropics. Springer, Berlin, Heidelberg. 1985.
- Boulger LR, Hardy JS. Rabies in Nigeria. West African Med J. 1960; 9(6): 223-234. Google Scholar
- Aiyedun JO. Community-based Investigation of Rabies Antibody Profile of Dogs and Control in Ilorin, Kwara State, Nigeria. J Environmental Issues Agric Dev Ctries. 2013; 5(2): 51-55. Google Scholar
- Eke CB, Omotowo IB, Ukoha OM, Ibe BC. Human rabies: Still a neglected preventable disease in Nigeria. Nig J Clin Pract. 2015; 18(2): 268-72. PubMed | Google Scholar
- World Health Organization Study Group. Future trends in veterinary public health; World Health Organization Technical Report Series. 2002; 907: 1-85. Accessed September 23 2018.
- Stöhr K, Meslin FX. The role of veterinary public health in the prevention of zoonoses, in: viral zoonoses and food of animal Oorigin. Springer, Vienna. 1997: 207-218. Google Scholar
- Zinsstag J, Schelling E, Roth F, Bonfoh B, de Savigny D, Tanner M. Human benefits of animal interventions for zoonosis control. Emerg Infect Dis. 2007; 13(4): 527-531. PubMed | Google Scholar
- OIE. The role of the veterinary services in food safety: OIE Workshop for OIE National Focal Points for Animal Production Food Safety. Tokyo. 31 October-2 November 2012. Accessed September 23 2018.
- Ceballos NA, Karunaratna D, Setién AA. Control of canine rabies in developing countries: key features and animal welfare implications. Rev Sci Tech OIE. 2014; 33(1): 311-21. PubMed | Google Scholar
- Roth JA. Veterinary vaccines and their importance to animal health and public health. Procedia in Vaccinology. 2011; 5: 127-136. Google Scholar
- Ehizibolo DO, Ehizibolo PO, Ehizibolo EE, Sugun MV, Idachaba SE. The control of neglected zoonotic diseases in Nigeria through animal intervention. Afr J Biomed Res. 2011; 14(2): 81-8. Google Scholar