Evaluation of the Current Status of Malaria Prevalence in the Three Senatorial Zones of Rivers State, Nigeria

Authors

  • Gboeloh, LeBari Gboeloh Ignatius Ajuru University of Education
  • Elele, Kingsley
  • Wokoma, Okorinama
  • Gura, Barisere

DOI:

https://doi.org/10.47941/ijhs.1003

Keywords:

Malaria, Prevalence, Senatorial districts, Rivers State

Abstract

Purpose: The current status of malaria prevalence in three senatorial zones of rivers state was evaluated. There have been several intervention measures aimed at reducing the health menace of malaria in Rivers State by Government, international agencies and other stakeholders.  This study was undertaken to assess the current status of malaria in the three senatorial zones of Rivers State with the view to maintaining the current intervention measures or otherwise.

Methodology: A randomized block experimental design was used for this study. The research was divided into two (2) parts. The first part involved the production and distribution of self-structured questionnaire to the respondents to collect demographic information. The second part was laboratory examination which involved the screening of thick and thin blood films from participants to find the presence of the malaria parasite and calculate the prevalence. A total of 352 participants (110, 120 and 122 from Rivers West, Rivers Southeast and Rivers East senatorial districts respectively) seeking treatment at the zonal hospitals were recruited for the study. Venous blood samples were collected from the 352 participants and screened for the presence of malaria parasite using standard procedure while 352 copies of self-structured questionnaire were distributed to participants to collect data on some demographic characteristics.

Findings: Out of the 352 participants examined, 275(78.1%) were positive for the presence of malaria parasites. Of the 275 infected persons, 94.6%, 77.5% and 63.7% were from Rivers West, Rivers East and Rivers Southeast senatorial district respectively. There was no significance difference (P<0.05) in the prevalence between males (78.4%) and females (77.9%). Participants within the age range of 21-30years and 31-40years had the highest and least prevalence of 84.5% and 65.9% respectively. There was no significance difference (P<0.05) in prevalence between singles (76.6%) and married (79.2%) participants.  Level of education had no significance (P<0.05) impact on the prevalence of malaria among the participants. The prevalence of malaria in participants with no formal, primary, secondary and tertiary education was 74.1%, 82.4%, 74.1% and 82.7% respectively.

Unique Contribution to Theory, Policy and Practices: The study revealed that malaria is still endemic in the three senatorial districts and remains a public health concern. Deliberate efforts form government and other stakeholders is needed to improve on the present preventive measures put in place especially in the area of sanitation and health orientation.

Downloads

Download data is not yet available.

References

WHO (2000). Severe falciparum malaria. Transaction of the Royal Society of Tropical Medicine &. Hygiene .94: 1 90.

Mawson, A.R. (2013). The pathogenesis of malaria: a new perspective. Pathogen Global Health, 107(3), 122-9. doi: 10.1179/2047773213Y.0000000084.

O'woma, O.O. Chigozirim, U.P., & Nwaogwugwu, U. G. (2015). Prevalence of Malaria and Typhoid Fever Co-Infection: Knowledge, Attitude and Management Practices among Residents of Obuda-Aba, Abia State, Nigeria. American Journal of Public Health Research, 3(4), 162-166.

De Silva, P.M., & Marshall, J.M. (2012). Factors contributing to urban malaria transmission in sub-saharan Africa: a systematic review. J Trop Med. 2012:819563. doi: 10.1155/2012/819563.

WHO (2021). World Malaria Report 2021. https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2021

Figtree, M., Lee, R., Bain, L., Kennedy, T., Mackertich, S., Urban, M., Cheng, Q., & Hudson, B.J. (2010). Plasmodium knowlesi in human, Indonesian Borneo. Emerg Infect Dis. 16(4), 672-4. doi: 10.3201/eid1604.091624.

Jongwutiwes, S., Buppan, P., Kosuvin, R., Seethamchai, S., Pattanawong, U., Sirichaisinthop, J., & Putaporntip, C. (2011). Plasmodium knowlesi Malaria in humans and macaques, Thailand. Emerg Infect Dis. 17(10),1799-806. doi: 10.3201/eid1710.110349.

Li, M.I., Mailepessov, D., Vythilingam, I., Lee, V., Lam, P., Ng, L.C., & Tan, C.H. (2021) Prevalence of simian malaria parasites in macaques of Singapore. PLoS Negl Trop Dis., 15(1): e0009110. https://doi.org/10.1371/journal.pntd.0009110.

Luchavez, J., Espino, F., Curameng, P., Espina, R., Bell, D., Chiodini, P., Nolder, D., Sutherland, C., Lee, K.S., & Singh, B. (2008). Human Infections with Plasmodium knowlesi, the Philippines. Emerg Infect Dis., 14(5), 811-3. doi: 10.3201/eid1405.071407.

WHO (2019). World Malaria Report 2019. https://www.who.int/publications/i/item/97892415721.

USAID (2015). Presidents Malaria Initiative (2015-2020). Nigeria operational plan. https://www.severemalaria.org/countries/nigeria.

National Population Commission (2016). National Malaria Indicator Survey, 2015.ICF international.

Oluyole, K.A., Ogunlade, M.O., & Agbeniyi, S. O. (2011). Socio-economic burden of malaria disease on farm income among cocoa farming households in Nigeria. American-Eurasian Journal Agriculture and Environmental Science, 10, 696-701.

Onwujekwe, O., Uguru, N., Etiaba, E., Chikezie, I., Uzochukwu, B., Adjagba, A. (2013). The economic burden of malaria on households and the health system in Enugu State southeast Nigeria. PLoS One, 8(11), e78362. doi: 10.1371/journal.pone.0078362.

Federal Ministry of Health of Nigeria (2000). Malaria Situation Analysis. Federal Ministry of Health. Publication of the FMH, Nigeria, Abuja, Nigeria.

Jimoh, A., Sofola, O., Petu, A., & Okorosobo, T. (2007) Quantifying the economic burden of malaria in Nigeria using the willingness to pay approach. Cost Effective Resource Allocation, 5,6. doi: 10.1186/1478-7547-5-6.

Takem, E.N., & D'Alessandro, U. (2013). Malaria in pregnancy. Mediterr J Hematol Infect Dis. 5(1), e2013010. doi: 10.4084/MJHID.2013.010.

Kovacs, S.D., Rijken, M.J., & Stergachis, A.(2015). Treating severe malaria in pregnancy: a review of the evidence. Drug Saf. 38(2), 165-81. doi: 10.1007/s40264-014-0261-9.

Federal Ministry of Health of Nigeria (2005). Epidemiology and control profile of malaria in Nigeria. Publication of the FMH, Nigeria, Abuja, Nigeria.

Roll Back Malaria (2005). Facts about Malaria in Nigeria. Publication of the Roll Back Malaria, 1-2.

Centers for disease control & Prevention (2012). Human factors and Malaria. https://www.cdc.gov/malaria/about/biology/human_factors.html.

National Population Commission (2006). Nigeria Demographic and Health Survey 2018. Abuja, Nigeria.

Yamane, T. (1967). Statistics: An Introductory Analysis. (2nd ed.). Harper and Row.

Epidi, T. T., Nwani, C. D., & Ugorji, N. P. (2008). Prevalence of malaria in blood donors in Abakaliki metropolis, Nigeria. Scientific research and Essay, 3(4), 162-164.

WHO (2019). Malaria factsheet. http://www.who. Int/news-room/fact-sheets/malaria.

Ukibe, S. N., Ukibe, N. R., Mbanugo, J. I., & Ikeakor, I. C. (2016). Prevalence of malaria among pregnant women attending antennal clinics in hospitals in Anambra State, Southeast, Nigeria. Nigeria Journal of Parasitology, 37 (2), 240 - 244.

Sam-Wobo. S. O., Adekunle, N. O., Adekele, M. A., Dedeke, G. A., Oke, O. A., Abimbola, W. A. & Surakat, O. A. (2014). Epidemiological factors in prevalence of malaria parasites in primary Health Facilities Attendencees, Ogun state, Nigeria. Malaria chemotherapy control & Elimination 3:1-7.

Monjol, B. E., & Useh, M. F. (2017). Detection of plasmodium falciparum chloroquine resistance transporter (pfCRT) mutant gene amongst malaria-infected pregnant women in Calabar, Nigeria. Annual of parasitology, 63 (4), 323-330.

Wokem, G. N., Erasmus, M. A., & Wokem, V. C. (2020). Malaria status in Relation to risk factors among attendees of two health facilities in Port Harcourt, Rivers State, Nigeria. Journal of Advance in Medicine and Medical Research, 32 (23), 222 -230.

Kalu, K.M., Obasi, N.S., Nduka, F.O., Otuchristian, G. (2012). A comparative study of the prevalence of malaria in Aba and Umuahia urban areas in Abia State, Nigeria. Research Journal of Parasitology, 7, 17-24.

Dawaki, S., Al-Mekhlafi, H.M., Ithoi, I., Ibrahim, J., Atroosh, W.M., Abdulsalam, A.M., Sady, H., Elyana, F.N., Adamu, A.U., Yewa, S.L., Ahmed, A., Al-areeqi, M.A., Subramanian, L.S., Nasr, N.S., & Lau, Y. (2016). Is Nigeria winning the battle against malaria? Prevalence, risk factors and KAP assessment among Hausa communities in Kano State, Malaria Journal, 15, 351.

Wogu, M. N., Nduka, F. O., & Wogu, M. D. (2013). Prevalence of malaria parasite infection among pregnant women attending antenatal clinics in Port Harcourt, Rivers State, Nigeria. International Journal of Tropical Diseases and Health, 3 (2), 126 -132.

Onyido A.E, Ifeadi C.P, Umeanaeto P.U., Irikannu K.C, Aribodor D.N, Ezeanya L.C, Ugha C.N, Obiechina, I.O (2014). Co-Infection Of Malaria And Typhoid Fever In Ekwulumili Community Anambra State, Southeastern Nigeria. New York Science Journal, 7(7), 18-27.

Mendel, B.K., & White, M.R.J. (1994). Lecture notes on the infectious diseases. 4th Ed. Black Scientific Publication, 172-93.

Awosolu, O.B., Yahaya, Z.S., Haziqah,M.T.F., Simon-Oke, I.A., Fakunle, C (2021). A cross-sectional study of the prevalence, density, and risk factors associated with malaria transmission in urban communities of Ibadan, Southwestern Nigeria. Heliyon, 7(1), e05975.

Malcom, M (2001) Malaria in non-endemic areas. America Journal of

Medical and Tropical Infections, 25, 28-29.

Ukpai, O. M., & Ajoku, E. J. (2001). The prevalence of malaria in Okigwe and Owerri areas of Imo State, Nigeria. Journal of Parasitology, 22, 83-84.

Tareen, A.M., Rafique, M., Wadood, A., Qasim, M., Rahman, H., & Pirkani, G.S. (2012). Malaria burden in human population of Quetta, Pakistan. European Journal of Microbiology and Immunology, 2(3), 201-4.

Purtilo, D.T., Sullivan, J.L. (1979). Immunological bases for superior survival of females. Am J Dis Child. 133(12),1251-3. doi: 10.1001/archpedi.1979.02130120043008.

Natama, H.M., Rovira-Vallbona, E., Krit, M. et al. Genetic variation in the immune system and malaria susceptibility in infants: a nested case-control study in Nanoro, Burkina Faso. Malar J 20, 94 (2021). https://doi.org/10.1186/s12936-021-03628-y.

Syafruddin, D., Krisin, A. P., Sekartuti, D.R.M., Coutrier, F., Rozy, I.E., Susanti, A.I., Elyazar, I.R., Sutamihardja, A., Rahmat, A., Kinzer, M., Rogers, W.O. (2009). Seasonal prevalence of malaria in West Sumba district, Indonesia. Malaria Journal, 8:8. doi: 10.1186/1475-2875-8-8.

Uneke, C. J., Ogbu, O., Inyama, P. U., & Anyanwu, G. I. (20050. Malaria infection in HIV- seropositive and HIV- seronegative individuals in Jos, Nigeria. Journal of Vector Borne Diseases, 42, 151-154.

Atif, S. H, Farzana, M., Naila, S., & Abdul, F. D. (2009). Incidence and pattern of malarial infection at a tertiary care hospital of Hyderabad. World Journal of Medical Sciences, 4, 9-12.

Downloads

Published

2022-08-29

How to Cite

Gboeloh, L. G., Elele, E. K., Wokoma , W. O. ., & Gura, G. B. (2022). Evaluation of the Current Status of Malaria Prevalence in the Three Senatorial Zones of Rivers State, Nigeria. International Journal of Health Sciences, 5(2), 67–86. https://doi.org/10.47941/ijhs.1003

Issue

Vol. 5 No. 2 (2022)

Section

Articles

License

Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution (CC-BY) 4.0 License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this journal.