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American Journal of Public Health Research. 2018, 6(4), 195-202
DOI: 10.12691/AJPHR-6-4-4
Original Research

Predicting Measles Occurrence Using Some Weather Variables in Kano, North western Nigeria

A. Akinbobola1, and A. S. Hamisu2

1Department of Meteorology and Climate Science Federal University of Technology, Akure

2Nigerian Meteorological Agency, Abuja, Nigeria

Pub. Date: August 03, 2018
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Cite this paper

A. Akinbobola and A. S. Hamisu. Predicting Measles Occurrence Using Some Weather Variables in Kano, North western Nigeria. American Journal of Public Health Research. 2018; 6(4):195-202. doi: 10.12691/AJPHR-6-4-4

Abstract

The impact of weather variables on some human diseases are now of major concern worldwide. Nigeria cannot be left out because is also home to many infectious diseases. Measles is a highly contagious disease caused by measles virus characterized by fever, fatigue and cough before the onset of rash. This study seeks to clarify the mechanism linking weather and measles occurrence and examine the possibility of predicting the number of expected cases of the disease using some weather variables and the reported cases from standard government hospitals within the study area. Monthly (1997-2012) measles cases in Kano were retrieved from Muhammad Abdullahi Wase Specialist hospital, Kano, a standard government hospital situated at the Centre of Kano city. The weather data during (1997-2012) monthly rainfall, relative humidity, minimum and maximum temperature and wind speed were obtained from Nigerian Meteorological agency. We performed the Spearman rank correlation tests to examine the relationship between monthly incidence and the weather variables, and used the statistically significant variables to develop models. The monthly (1997–2012) measles incidence was modeled using a Poisson regression model combined with Autoregressive moving average model (ARIMA). The results showed a linear effects of maximum and minimum temperature and relative humidity on measles incidence. The relative risk for the measles incidence associated with the 75th percentile of maximum temperature has a temperature window of approximately 38 to 40°C and relative humidity ranging from 19-30% within which the highest risk of measles prevalence is observed in Kano. Low relative humidity is a risk factor of measles morbidity. The months of April and May are month with highest occurrence of measles cases. Of all the models tested, the poison model combinations of all the weather variables used fits the measles incidence data best according to normalized Akaike information criterion (AIC) and goodness-of-fit criteria. Also, ARIMA (0, 0, 1) is observed to be the best fits for measles incidence data according to normalized Bayesian information criterion (BIC) and goodness-of-fit criteria. In all, we found that wind speed is not a limiting factor for measles transmission in Kano. Our findings highlight the need to pay more attention to the weather/climate variations and increase the immunity of susceptible population for possible measles reduction.

Keywords

weather variables, poison model, ARIMA, measles occurrence, predict

Copyright

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References

[1]  Voracek M, Tran US, Sonneck G (2007). Facts and myths about seasonal variation in suicide. Psychol Rep 100:810-814.
 
[2]  K. M. Kamruzzaman, Md. Sarwar Jahan, Md. Redwanur Rahman, Most. Manzuara Khatun American Journal of Health Research 2015; 3(1): 1-7.
 
[3]  Nganga and Ngugi (1986). Influence of weather on measles and pneumonia in Nairobi, climate and human health WCAP No.1.38.
 
[4]  Persinger, M.A, (1980). The weather matrix and human behavior, New York praeger, 327pp.
 
[5]  Tromp S.W. (1966). Monograph series No 6, Biometeorological research centre, Leiden, the Virusforsch 1965; 16:97-102; PMID: 14322937.
 
[6]  Sharaf-Eldein H.I. (1992). A study into the occurrence of some common diseases in relationship with some atmospheric variables in Khartoum: A unpublished project at University of Khartoum, Sudan
 
[7]  Hamilton R.A and Arch-bold J.W 1945, Meteorology of Nigeria and adjacent territory. Quart. J. Roy. Meteorol. Sc. 71. 231-264.
 
[8]  Aina, J.C., (1972). A contribution to the forecasting of Saharan dust at solar wavelengths, Journal of Geophysical Research 82 (11) (1977).
 
[9]  Grais RF, Dubray C, Gersti S, Guthmann JP, Djibo A, Nargaye KD, Coker J, Alberti KP, Cochet A, Ihekweazu C, Nathan N, Payne L, Porten K (2007). Unacceptably high mortality related to measles epidemics in Niger, Nigeria, and Chad. Plos Med 4(1): 1-8.
 
[10]  World health report. 2007. The world health report 2007 - A safer future: global public health security in the 21st century.
 
[11]  Omonijo AG (2007) Weather variables and the occurrence of specific diseases of West African Dwarf (WAD) goats in Ondo State, Nigeria. Proceedings of the International Conference on the Impacts of Extreme Weather and Climate on Socio-Economic Development in Africa, Nigerian Meteorological Society, Akure, 1–15 November, pp 34-38.
 
[12]  Adetunji OO, Olusola EP, Ferdinad FF, Olorunyomi OS, Idowu JV , Ademola OG (2007) Measles among hospitalized Nigerian children. Internet J Pediatr and Neonatol 7(1):1-11.
 
[13]  Egunjobi L (1993) Spatial distribution of mortality from leading notifiable diseases in Nigeria. Soc Sci Med 36(10): 1267-1272.
 
[14]  Qiongying Yang, Chuanxi Fu, Naizhen Wang, Zhiqiang Dong, Wensui Hu & Ming Wang (2014) The effects of weather conditions on measles incidence in Guangzhou, Southern China, Human Vaccines & Immunotherapeutics, 10:4, 1104-1110.
 
[15]  Adefolalu, D.O, (1984). On Bioclimatological aspects of harmattan Dust Haze in Nigeria. Arch. Met. Geophy. Biocli. Sc. B33.
 
[16]  Quayle, R. and F. Doehring, 1981: Heat stress: A comparison of indices. Weatherwise 34, 120-124.
 
[17]  Kalkstein. L. S., 1982: The weather stress index. NOAA Technical Procedures Bulletin, 324, 1-16.
 
[18]  Steadman, R. G., 1984: A universal scale of apparent temperature. J. Climate Appl. Meteor., 23, 1674-1687.
 
[19]  De Jong JG, Winkler KC. Survival of measles virus in air. Nature 1964; 201:1054-5; PMID: 14191599.
 
[20]  Box GEP, Jenkins GM, Reinsel GC (1976) Time series analysis: forecasting and control. Holden-Day, San Francisco.
 
[21]  De Jong JG. The survival of measles virus in air, in relation to the epidemiology of measles. Arch Gesamte.
 
[22]  Li M, Wang Y. Practice of infectious diseases.3rd ed. People’s medical publishing house. 2005. Netherlands.