Feasibility of Satellite Image-based Sampling for a Health Survey Among Urban Townships of Lusaka, Zambia

Overview

Journal Trop Med Int Health

Specialties Public Health
Tropical Medicine

Date 2009 Jan 6

PMID 19121149

Citations 23

Authors

Sara A Lowther

Frank C Curriero

Timothy Shields

Saifuddin Ahmed

Mwaka Monze

William J Moss

Affiliations

Soon will be listed here.

Abstract

Objectives: To describe our experience using satellite image-based sampling to conduct a health survey of children in an urban area of Lusaka, Zambia, as an approach to sampling when the population is poorly characterized by existing census data or maps.

Methods: Using a publicly available Quickbird image of several townships, we created digital records of structures within the residential urban study area using ArcGIS 9.2. Boundaries were drawn to create geographic subdivisions based on natural and man-made barriers (e.g. roads). Survey teams of biomedical research students and local community health workers followed a standard protocol to enroll children within the selected structure, or to move to the neighbouring structure if the selected structure was ineligible or refused enrollment. Spatial clustering was assessed using the K-difference function.

Results: Digital records of 16 105 structures within the study area were created. Of the 750 randomly selected structures, six (1%) were not found by the survey teams. A total of 1247 structures were assessed for eligibility, of which 691 eligible households were enrolled. The majority of enrolled households were the initially selected structures (51%) or the first selected neighbour (42%). Households that refused enrollment tended to cluster more than those which enrolled.

Conclusions: Sampling from a satellite image was feasible in this urban African setting. Satellite images may be useful for public health surveillance in populations with inaccurate census data or maps and allow for spatial analyses such as identification of clustering among refusing households.

Citing Articles

A Practical Guide to Pilot Testing Community-Based Vaccination Coverage Surveys.

Rhoda D, Cutts F, Agocs M, Brustrom J, Trimner M, Clary C Vaccines (Basel). 2023; 11(12).

PMID: 38140178 PMC: 10748182. DOI: 10.3390/vaccines11121773.

Novel transdisciplinary methodology for cross-sectional analysis of snakebite epidemiology at national scale.

Alcoba G, Ochoa C, Babo Martins S, Ruiz de Castaneda R, Bolon I, Wanda F PLoS Negl Trop Dis. 2021; 15(2):e0009023.

PMID: 33577579 PMC: 7906452. DOI: 10.1371/journal.pntd.0009023.

Feasibility of satellite image and GIS sampling for population representative surveys: a case study from rural Guatemala.

Miller A, Rohloff P, Blake A, Dhaenens E, Shaw L, Tuiz E Int J Health Geogr. 2020; 19(1):56.

PMID: 33278901 PMC: 7718677. DOI: 10.1186/s12942-020-00250-0.

Treatment Coverage Estimation for Mass Drug Administration for Malaria with Dihydroartemisinin-Piperaquine in Southern Province, Zambia.

Finn T, Yukich J, Bennett A, Porter T, Lungu C, Hamainza B Am J Trop Med Hyg. 2020; 103(2_Suppl):19-27.

PMID: 32618251 PMC: 7416979. DOI: 10.4269/ajtmh.19-0665.

The Typhoid Fever Surveillance in Africa Program: Geospatial Sampling Frames for Household-based Studies: Lessons Learned From a Multicountry Surveillance Network in Senegal, South Africa, and Sudan.

Baker S, Ali M, Deerin J, Eltayeb M, Cruz Espinoza L, Gasmelseed N Clin Infect Dis. 2019; 69(Suppl 6):S474-S482.

PMID: 31665783 PMC: 6821174. DOI: 10.1093/cid/ciz755.