Towards malaria risk prediction in Afghanistan using remote sensing

Adimi, Farida; Soebiyanto, Radina P.; Safi, Najibullah; Kiang, Richard K.

doi:10.1186/1475-2875-9-125

Cited by 58 publications

(64 citation statements)

References 10 publications

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“…Thus, vegetation seems to be a better predictor of malaria at the country level, because greenness is not only an indicator for bountifulness of environments for growth of mosquitos, but also moisture and appropriate temperature, both of which are relevant to malaria. A study of malaria patterns in different Afghan provinces, using local scale data from 2004 to 2007, also pointed to vegetation as the strongest predictor of malaria [50], as well as another geospatial study of vivax malaria, the dominant type in the country in 2005 [9]. …”

Section: Discussionmentioning

confidence: 99%

Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence

Anwar

Lewnard

Parikh

et al. 2016

Malar J

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BackgroundMalaria remains endemic in Afghanistan. National control and prevention strategies would be greatly enhanced through a better ability to forecast future trends in disease incidence. It is, therefore, of interest to develop a predictive tool for malaria patterns based on the current passive and affordable surveillance system in this resource-limited region.MethodsThis study employs data from Ministry of Public Health monthly reports from January 2005 to September 2015. Malaria incidence in Afghanistan was forecasted using autoregressive integrated moving average (ARIMA) models in order to build a predictive tool for malaria surveillance. Environmental and climate data were incorporated to assess whether they improve predictive power of models.ResultsTwo models were identified, each appropriate for different time horizons. For near-term forecasts, malaria incidence can be predicted based on the number of cases in the four previous months and 12 months prior (Model 1); for longer-term prediction, malaria incidence can be predicted using the rates 1 and 12 months prior (Model 2). Next, climate and environmental variables were incorporated to assess whether the predictive power of proposed models could be improved. Enhanced vegetation index was found to have increased the predictive accuracy of longer-term forecasts.ConclusionResults indicate ARIMA models can be applied to forecast malaria patterns in Afghanistan, complementing current surveillance systems. The models provide a means to better understand malaria dynamics in a resource-limited context with minimal data input, yielding forecasts that can be used for public health planning at the national level.Electronic supplementary materialThe online version of this article (doi:10.1186/s12936-016-1602-1) contains supplementary material, which is available to authorized users.

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Section: Discussionmentioning

confidence: 99%

Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence

Anwar

Lewnard

Parikh

et al. 2016

Malar J

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“…In addition to surveillance data, analysis of some meteorological and environmental factors directly affecting malaria transmission, which can remotely be sensed by satellites, can be useful to identify these areas. 40,41 The same considerations could be done for terminal prophylaxis; the use of primaquine should be implemented only after an adequate assessment with regard to costs and benefits of this regimen.…”

Section: Discussionmentioning

confidence: 99%

Risk Assessment and Prevention of Malaria Among Italian Troops in Afghanistan, 2002 to 2011

Peragallo¹,

Sarnicola²,

Boccolini

et al. 2014

J Travel Med

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“…infection during 1 month depending on the infections during the previous month), showed that NDVI and LST are capable of predicting the average total number of cases for the following 6 months. As it turned out, the prediction exceeded the actual numbers by only 8.9% (Adimi et al, 2010). In Kenya, a NDVI higher than 0.35-0.40 in a given month resulted in hospital admissions due to severe malaria in the following month that surpassed 5% of the total annual number of admissions .…”

Section: Morbidity and Mortalitymentioning

confidence: 88%

The use of remotely sensed environmental data in the study of malaria

et al. 2011

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Abstract. Mapping and anticipating risk is a major issue in the fight against malaria, a disease causing an estimated one million deaths each year. Approximately half the world's population is at risk and it is of prime importance to evaluate the burden of malaria at the spatial as well as the temporal level. The role of the environment with regard to the determinants of transmission and burden of the disease are described followed by a discussion of special issues such as urban malaria, human population mapping and the detection of changes at the temporal scale. Risk maps at appropriate scales can provide valuable information for targeted control and the present review discusses the essentials of principles, methods, advantages and limitations of remote sensing along with a presentation of ecological, meteorological and climatologic data which rule the distribution of malaria. The panel of commonly used analytic methods is examined and the methodological limitations are highlighted. A review of the literature details the increasing interest in the use of remotely sensed data in the study of malaria, by mapping or modeling several malariometric indices such as prevalence, morbidity and mortality, which are discussed with reference to vector breeding, vector density and entomological inoculation rate, estimates of which constitute the foundation for understanding endemicity and epidemics.

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Towards malaria risk prediction in Afghanistan using remote sensing

Cited by 58 publications

References 10 publications

Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence

Time series analysis of malaria in Afghanistan: using ARIMA models to predict future trends in incidence

Risk Assessment and Prevention of Malaria Among Italian Troops in Afghanistan, 2002 to 2011

The use of remotely sensed environmental data in the study of malaria

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