As a part of an effort to roll back malaria in Nigeria, exploring the use of geographically related tools triggered the use of modern approaches of knowing the spatial distribution of target populations to attain significant malaria elimination intervention. GIS tool was used for geographical reconnaissance (GR), providing demographic data on respondents’ household and spatial information on the distribution of households in the selected location. A cross-sectional study design was used to collect spatial data in the two locations, while a quantitative questionnaire was used to collect the household data. The analysis of field data indicated that 49,500 unique households were enumerated and thus included in the Indoor Residual Spraying to prevent malaria infection, covering 424 towns in the two Local Government Areas (LGAs). 383,301 persons were recorded during the GR exercise in Doma and Nassarawa Eggon LGAs out of which 79,339 were children of agesless than five years, with 13,526 pregnant women. Further data analysis revealed that the average number of persons per household in both LGAs was approximately eight. The spatial information from the GR provides a foundation for an updateable database for any future survey for developmental activities in Nigeria. The use of modern GR approach has proved to be accurate, reliable and more cost effective and less cumbersome than the traditional approach in the collection and geo-positioning of household data. Use of Garmin e-Trex GPS handheld instruments to collect household data in the designated areas removed the constraints of expensive Personal Digital Assistants and reduced errors of wrong location coordinates. Several African countries which did not use GR or applied the use of Geospatial tool appropriately had setbacks. The previous study in other countries showed limitations which was characterized by substantial inherent logistical and technical challenges culminating in missed targets. This setback was addressed in our study.
Over 40 percent of the world’s population lives where there is a risk of malaria. The disease causes widespread premature death and suffering, imposing financial hardship on poor households, and holds back economic growth and improvements in living standards [
As a part of this increased focus, current strategies for the reduction of the global burden of malaria and the eventual elimination of the disease have been outlined in the Roll Back Malaria (RBM) Global Malaria Action Plan (GMAP). With recent global attention, most member states under the United Nations umbrella have made a commi- tment to roll back malaria towards achieving Sustainable Development Goal (SDG) 2030, so there is a refocus of intensive malaria control on the world agenda [
In Nigeria, Malaria is still one of the major causes of overall mortality in Nigeria. The ministry of health data continues to report that half of all hospital patients’ cases of treatment are malaria infections. The disease is responsible for 25 percent of the nation’s infant mortality, 30 percent of childhood mortality and 11 percent of maternal deaths. Nigeria contributes to 23 percent of the world’s malaria cases, and 97 percent of the population is at risk.
For many years, the country had focused on treatment approach, until recently, more strategy is now on prevention methods, of which indoor residual spraying (IRS) is one. The public body responsible is the National Malaria Elimination Program of Nigeria, which was tested in Northern Nigeria in 2012 [
Measuring geo-locations and route planning for a precise target of the population affected, Geographical Reconnaissance (GR) is an imperative tool for use.
GR is a planning tool that combines household census and spatial mapping to determine the density, population size, location and accessibility of settlements within target areas.
Geographical reconnaissance (GR) as a planning tool involves a household census and mapping to determine the number, location, and accessibility of settlements within target areas. This facilitates research objectives as it is generally being used to collect geographic information system (GIS) and population data useful for strategic local level planning.
Our study used new technology to realize the GR processes, an approach that is better than the most commonly used traditional GR operations.
This study used modern GR approach, using Global Positioning Systems (GPS) [
Below is a detailed explanatory diagram showing logical steps designed and followed through to complete all the research processes undertaken in this study, from problem identification to results and conclusion (
Under the United States President’s Malaria Initiative (PMI) the Africa Indoor Residual Spray (AIRS) project managed by Abt Associates was tasked to establish an Indoor Residual Spray (IRS) operation in Doma and Nassarawa Eggon local government areas (LGAs) of Nassarawa State, Nigeria. The State is situated in the North Central geo-po- litical zone of Nigeria and was established on October 1, 1996 from Plateau State [
Nasarawa State was estimated to have a population of about 1.86 million people with about 30 different ethnic groups of distinct cultural heritage, in the 2006 population census [
Despite the use GR and other control tools to eliminate malaria, the study still showed that Malaria control action plans are dying out due to improper implementation, inade- quate surveillance and lack of geo-referenced information to pinpoint the trouble spots for timely preventive actions [
A previous research study in the work of Kelly (2010), demonstrated the use Geographical Reconnaissance in the elimination provinces of Temotu, Solomon Islands, and that eventually provided as trategy for spatial distribution of target populations to support contemporary malaria elimination interventions. He used modern techniques to ensure effective and efficient operational tool via geospatial analysis, now guiding them in scaling-up of priority interventions [
Gerald also demonstrated in his thesis work, how the GR mapping and data collection; frontline vector control and malaria prevention intervention management using high resolution geospatial surveillance―can rapidly aid rapid reporting and mapping of confirmed cases by household in 2013 [
Since Zambia re-introduced the IRS program to control malaria in 2002, the country has developed standard guidelines, which has helped one of the main interventions executed in partnership with private sector. The guidelines, however, contributed to the development of a user standard operation procedures used which was used in the Nigerian study [
The household was used as the primary sampling unit for the GR operation [
Followed by data collection tools that captured GPS coordinates, household identi- fication (IRS card number), village/town name/ward, name of head of household, num- ber of individuals residing in each household, number of children less than five years of age in the household, number of pregnant women in the household, the geographical coordinates of the households/infrastructures. Administrative boundary point and polygons geographical shapefiles were provided by IITA [
To ensure that data from each household was adequately documented and tracked, each household was assigned a unique identification number pre-printed on each IRS card. Data collected on field and IRS card numbers were recorded on the questionnaires for each household by data collectors. The IRS card was given to a representative of the household as evidence of enumeration. The entries were checked and validated by field supervisors when the questionnaires were submitted.
Followed by data collection tools that captured GPS coordinates, household identifi- cation (IRS card number), village/town name/ward, name of head of household, num- ber of individuals residing in each household, number of children less than five years of age in the household, number of pregnant women in the household, the geographical coordinates of the households/infrastructures and dataset overlaid with administrative boundary map layers.
The variables used during this study, can be described as follows:
Wards: a division below state or region of a town, used for administrative purposes.
LGA: a lower area below the state or region, administered by a Local Government Council, which consists of many wards and towns.
Household: Is a group of family or individual living under the same roof and eating from the pot of meal.
Compounds: it is a big residential area, consisting of several households living together cooking from several meal pots but has common storage play ground and kitchen.
Household identification (IRS card number): A unique ID written on buidling and also on the IRS card for follow up identification of household members.
Village/town: A village is a place of closed human settlement with a population ranging from a few hundred to a few thousand.
Head of household: Is the person within the household who is responsible for feeding all memberd of the household and takes the highest decision.
Children less than five years of age: Any child in the house, whose age is between 0 and 59 months.
Pregnant women: Any woman in the household with a confirmed ANC attendance that she is an expecting mother or at the later stage of her trimester and can been seen with eyes that she is physically pregenant.
Data analysis
Field data were validated, and quality checks were done to ensure that all data included in the spatial and demographic analysis represent unique household in Doma and Nassarawa Eggon LGAs true representation of the LGAs.
Tables of summary statistics of demographic indices captured in the GR were then obtained from initial data analysis performed using Microsoft Excel office package, and further confirmatory analysis was performed using Statistical Packages for Social Sci- ence-(SPSS) 17 version.
The additional Spatial analysis was done after checking to ensure that the accuracy of dimensions set up in the configured GPS units was adhered to. ArcMap 10 version [
Key findings from the GR were synthesized and reported as follows;
Results reveal that there were 79,339 children who were less than five years of age in the two LGAs. This makes about 21% of total population of the areas covered by the GR. A total of 13,526 pregnant women were enumerated.
Indicator | Doma | Nassarawa Eggon |
---|---|---|
Number of Wards | 10 | 14 |
Number of towns/villages | 115 | 309 |
Number of households | 19,928 | 29,572 |
Overall households | 169,794 | 213,507 |
Children <5 years of age | 36,363 | 42,976 |
Number pregnant women | 5578 | 7948 |
The population of people recorded in the LGA was 169,794 and their distribution per ward is presented in
Indicator | Doma | Nassarawa Eggon |
---|---|---|
Average number of HH size | 8.52 | 7.22 |
Average number of children <5 yrs/per 100 HH | 183 | 118 |
Average number of pregnant women/per 100 HH | 28 | 22 |
The pattern of test statistic generated by comparing for level of household concen- tration that has more pregnant women and children, who seems to be more vulnerable to malaria infections. The accessibility score index indicated highly statistically signifi- cant p-level at (p < 0.05) and positive z-value as shown in
The use of modern GR approach has proven to be accurate, efficient, cost effective and less cumbersome than the traditional approach in the collection and geo-positioning of household data [
presented was helpful for planning the IRS campaign in the 2 LGAs. Such planning helped in the prudent use, management and deployment of human and material resources for the spray operation. However, due to the large number of households earmarked for enumeration in this GR exercise, standardized tools were used along with Garmin e-trex GPS handheld instruments to collect household data in the designated areas. This approach removed the constraint of deploring expensive and not readily available PDAs on field. With the recent development of modern technology, real time data collection with mobile devices with apps could prove even more effective in implementing a GR of this scale. Several African countries which did not use GR or applied the use of Geospatial tool appropriately had set back. Like in the case of Malawi, the IRS activities was characterized by substantial inherent logistical and technical challenges culminating into missed targets [
The strength of the evidence presented in this paper is based on the rigorous strategies employed to improve quality of data obtained from the GR exercise however, this could be achieved with the collection of GIS coordinates and HH information with the use of electronic data collection methods.
This exercise is a positive step in providing specific information to help with the implementation of IRS program and strategic surveillance monitoring of the selected areas. The data gathered during the GR provided the foundation for an updateable database for any future survey on IRS spray activities in Doma and Nassarawa Eggon LGAs.
The GR study gave a clear and precise standard approach of spatially defining and enumerating selected communities using a geo-spatial survey technology. The exercise and data collected were then used by the State NMCP and AIRS Project for vector control in these communities, better informed insecticides spray strategic plan, location of storage facilities and where more mosquito nets should be distributed.
The estimation of the distances between various locations was also helpful for effective local planning and logistics. The maps which were produced served the purpose, of providing spatial views of the household locations geographically in relation to other ecological factors and infrastructures in the LGAs.
The recommendation is that the Nigerian government and Development Partners should build on the strategy already put in place by the President’s Malaria Initiative’s Africa Indoor Residual Spraying Project (AIRS) through the National and State Malaria Control Program offices to use the outcome of this study to guide the reduction in malaria infection cases reported in every community. While other area of the country should see this as best practice and take a que from it [
We acknowledge the support and encouragement of the Africa Indoors Residual Spray (AIRS) Project team in Nassarawa State, Nigeria and United States Agency for International Development (USADI) AFRICA IRS (AIRS) which was funded by the US Agen- cy for International Development (USAID) under contract No. GHNI00090001300. We also acknowledge the interest and participation of the National and State Malaria Program (NMCP) in Nigeria. http://www.africairs.net/where-we-work/nigeria.
Ojo, W., Onazi, M. and Olaniyi, O. (2016) Geographical Reconnaissance of Household in Northern Nigeria towards Optimizing Indoor Residual Spraying Method for Malaria Elimination. Journal of Geographic Information System, 8, 737-748. http://dx.doi.org/10.4236/jgis.2016.86057