Various insecticides including industrially compounded orthodox and mixed-up or single concentrate unorthodox (Otapiapia) formulations are used for controlling household insects in Lagos. Empirical information on the use of these formulations by Lagos residents and their efficacy is scanty. This study was consequently conducted to determine the use of unorthodox (Otapiapia) and orthodox formulations in Alimosho Local Government Area (LGA), Lagos and evaluate their efficacy against Anopheles gambiae, Musca domestica and Periplaneta americana using standard laboratory bioassays. For Otapiapia use, 150 structured questionnaires were administered to Alimosho LGA residents and the Otapiapia available in markets within the LGA were purchased to identify those used as insecticides. Unsexed Anopheles gambiae (0 – 2 d), M. domestica (0 – 3 d) and P. americana (adult) were exposed to various concentrations of selected Otapiapia (GO-90) or each of 13 orthodox formulations in standard air-tight glass cages. The LC₅₀ values of each test formulation were computed. The results show that 72 % of respondents use Otapiapia instead of orthodox formulations because it is cheaper and effective, and most respondents use Sniper (35.30 %) and GO-90 (15.30 %). Based on computed 15 min-LC₅₀ values, GO-90 was the most effective of all test formulations against An. gambiae (10.72 µlL^-1) and M. domestica (15.51 µlL^-1) while Baygon demonstrated higher efficacy against P. americana (13.42 µlL^-1) relative to other formulations.  The GC-MS analyses show that the major constituents in GO-90 by volume are Naphthalene (19.03 %), Cyclododecane (11.48 %) and Tetradecane (10.34 %). Test unorthodox formulations showed comparable efficacy relative to orthodox insecticides.

Household insects; unorthodox preparations; orthodox insecticides; bioassay

Alavanja, M.C., J.A. Hoppin and F. Kamel. 2004. Health effects of chronic pesticide exposure: cancer and neurotoxicity. Annual Review of Public Health, 25: 155-197.

ATSDR (Agency for Toxic Substances and Disease Registry). 1997. Toxicological Profile for Dichlorvos. U.S. Department of Health and Human Services Public. Health Service 1600 Clifton Road NE, E-29 Atlanta, Georgia 30333, 119pp.

Chalanavar, R.K., V.K. Narayanswamy, H. Baijinath and B. Odhav. 2012. Chemical composition of essential oil of Psidium cattleianum var. lucidum (Myrtaceae). African Journal of Biotechnology, 11 (33): 8341 – 8347.

Chilcott, R.P. 2006. Compendium of Chemical Hazards: Kerosene (Fuel Oil). Health Protection Agency, UK. 31pp.

Denloye, A. A. B., K.O. Teslim, O. Ogundele, Y.A. Abe and W. A. Makanjuola. 2004. Comparative insecticidal effects of Raid and Mortein formulations on mosquitoes (Anopheles gambiae) and cockroaches (Periplaneta americana). Journal of Research and Review in Science 3: 82 – 89.

Denloye, A.A., K.A. Oluwakemi, Rasak, A. Olowu, Eshilokun, Adeolu and W.A. Makanjuola. 2009. Insecticidal activity of petroleum ether extract and essential oil of Chenopodium ambrosioides L. (Chenopodiaceae) against Anopheles gambiae (Diptera; Culicidae). Acta Entomologica Sinica 52 (8): 923 – 928.

Foll, C.V. and C.P. Pant. 1966. The conditions of malaria transmission in Katsina Province, Northern Nigeria, and a discussion of the effects of dichlorvos application. Bull World Health Organ. 34(3): 395-404.

Foll, C.V., C.P. Pant and P.E. Lietaert. 1965. A large-scale field trial with dichlorvos as a residual fumigant insecticide in Northern Nigeria. Bulletin of World Health Organization 32(4): 531-550.

Jamal, G.A., S. Hansen and P.O. Julu. 2002. Low level exposures to organophosphorous esters may cause neurotoxicity. Toxicology, 181-182: 23-33.

Japhet, O.O., M.C. Josphat and V.M. John. 2014. Chemical composition and larvicidal activity of Zanthoxylum gilletii essential oil against Anopheles gambiae. African Journal of Biotechnology, 3 (2): 2175 – 2180.

Kathryn, M., Atherton, M.W. Faith, J. Samantha and M. Elaine. 2006. DNA damage by dichlorvos and repair profiles in human lymphocytes in vitro. Toxicology, 226 (1): 53.

National Agency for Food and Drugs Administration and Control (NAFDAC). 2005. Drugs and related products (Registration etc) Act 1996. Pesticide Reigstration Regulations 2005. NAFDAC, 15pp.

Noutcha, M.A.E. and C.I. Anumudu. 2011. Anopheles gambiae Complex: Molecular forms and occurrence of the KDR Gene in rural southwestern Nigeria. Nigerian Journal of Entomology, 28: 7–16.

Nwude, E.C. 2013. The Politics of Minimum Wage in Nigeria: The Unresolved Issues. Asian Journal of Empirical Research, 3(4): 477–492.

Okeniyi, J.A. and O.A. Lawal. 2007. Accidental Poisoning with Otapiapia: a Local Organophasphate-Containing Rodenticide: A Case Report. The Nigerian Medical Practitioner 52(4): 100-101.

Omudu, E.A. and E.T. Aluor. 2011. Cockroach (Dictyoptera; Blattidae) infestation and their perceived importance in some hospitals and restaurants in Makurdi, Nigeria. Nigerian Journal of Entomology 28: 17 – 25.

Oyewole, O.I, D.O. Moronkola, I.O. Ogunwande, H. Okoh, C.A. Ibidapo, A.A.B. Debloye, A.A. Ogunnowo and M. Adedayo. 2010. Larvicidal activity of the essential oil from Phillantus amarus Sch. et Thonn (Euphorbiacea) against three species of mosquitoes. Der Pharmacia Lettre, 2 (6): 136 – 141.

Parthakorm, T., T. Arpornsuwan, N. Wetprasit, A. Promoboon and S. Ratanapo. 2010. Antibacteria activity and cytotoxicity of the leaf essential oil of Morus rotunbiloba Koidz. Journal of Medicinal Plant Research, 4 (9): 837–843.

Remington, S.E, P.A. Jowsey, F.M. Williams and P.G. Blain. 2008. Investigations into the genotoxic potential of dichlorvos. Toxicology. 253 (1-3): 13-14.