Your search keyword '"Snow, A. W."' showing total 108 results

1. A systematic review of changing malaria disease burden in sub-Saharan Africa since 2000: comparing model predictions and empirical observations

Author

Kamau, Alice, Mogeni, Polycarp, Okiro, Emelda A., Snow, Robert W., and Bejon, Philip

Published

2020

2. Severe outcomes of malaria in children under time-varying exposure.

Author

De Salazar, Pablo M., Kamau, Alice, Cavelan, Aurelien, Akech, Samuel, Mpimbaza, Arthur, Snow, Robert W., and Penny, Melissa A.

Subjects

MALARIA, CHILD welfare, PLASMODIUM falciparum

Abstract

In malaria epidemiology, interpolation frameworks based on available observations are critical for policy decisions and interpreting disease burden. Updating our understanding of the empirical evidence across different populations, settings, and timeframes is crucial to improving inference for supporting public health. Here, via individual-based modeling, we evaluate a large, multicountry, contemporary Plasmodium falciparum severe malaria dataset to better understand the relationship between prevalence and incidence of malaria pediatric hospitalizations - a proxy of malaria severe outcomes- in East-Africa. We find that life-long exposure dynamics, and subsequent protection patterns in children, substantially determine the likelihood of malaria hospitalizations relative to ongoing prevalence at the population level. Unsteady transmission patterns over a lifetime in children -increasing or decreasing- lead to an exponential relationship of hospitalization rates versus prevalence rather than the asymptotic pattern observed under steady transmission. Addressing this increase in the complexity of malaria epidemiology is crucial to update burden assessments via inference models that guide current and future policy decisions. Severe pediatric malaria remains a concern in many countries. Here, the authors use an individual-based modeling approach to evaluate the relationship between malaria prevalence and incidence of malaria pediatric hospitalizations, and show how unsteady transmission patterns affect hospitalization rates. [ABSTRACT FROM AUTHOR]

Published

2024

3. Acquired Immunity and Postnatal Clinical Protection in Childhood Cerebral Malaria

Author

Gupta, Sunetra, Snow, Robert W., Donnelly, Christl, and Newbold, Chris

Published

1999

4. Spatio-temporal analysis of Plasmodium falciparum prevalence to understand the past and chart the future of malaria control in Kenya

Author

Macharia, Peter M., Giorgi, Emanuele, Noor, Abdisalan M., Waqo, Ejersa, Kiptui, Rebecca, Okiro, Emelda A., and Snow, Robert W.

Published

2018

5. Detection of low frequency artemisinin resistance mutations, C469Y, P553L and A675V, and fixed antifolate resistance mutations in asymptomatic primary school children in Kenya

Author

Osoti, Victor, Wamae, Kevin, Ndwiga, Leonard, Gichuki, Paul M., Okoyo, Collins, Kepha, Stella, Keitany, Kibor, Kandie, Regina, Aricha, Stephen, Kiplagat, Rosebella, Mwandawiro, Charles, Bejon, Philip, Snow, Robert W., and Ochola-Oyier, Lynette Isabella

Published

2025

6. The global distribution and population at risk of malaria: past, present, and future

Author

Hay, Simon I., Guerra, Carlos A., Tatem, Andrew J., Noor, Abdisalan M., and Snow, Robert W.

Subjects

Plasmodium falciparum, Malaria

Published

2004

7. How useful are malaria risk maps at the country level? Perceptions of decision-makers in Kenya, Malawi and the Democratic Republic of Congo.

Author

Ghilardi, Ludovica, Okello, George, Nyondo-Mipando, Linda, Chirambo, Chawanangwa Mahebere, Malongo, Fathy, Hoyt, Jenna, Lee, Jieun, Sedekia, Yovitha, Parkhurst, Justin, Lines, Jo, Snow, Robert W., Lynch, Caroline A., and Webster, Jayne

Subjects

MALARIA, DEMOGRAPHIC surveys, PLASMODIUM falciparum, SENSORY perception

Abstract

Background: Declining malaria prevalence and pressure on external funding have increased the need for efficiency in malaria control in sub-Saharan Africa (SSA). Modelled Plasmodium falciparum parasite rate (PfPR) maps are increasingly becoming available and provide information on the epidemiological situation of countries. However, how these maps are understood or used for national malaria planning is rarely explored. In this study, the practices and perceptions of national decision-makers on the utility of malaria risk maps, showing prevalence of parasitaemia or incidence of illness, was investigated. Methods: A document review of recent National Malaria Strategic Plans was combined with 64 in-depth interviews with stakeholders in Kenya, Malawi and the Democratic Republic of Congo (DRC). The document review focused on the type of epidemiological maps included and their use in prioritising and targeting interventions. Interviews (14 Kenya, 17 Malawi, 27 DRC, 6 global level) explored drivers of stakeholder perceptions of the utility, value and limitations of malaria risk maps. Results: Three different types of maps were used to show malaria epidemiological strata: malaria prevalence using a PfPR modelled map (Kenya); malaria incidence using routine health system data (Malawi); and malaria prevalence using data from the most recent Demographic and Health Survey (DRC). In Kenya the map was used to target preventative interventions, including long-lasting insecticide-treated nets (LLINs) and intermittent preventive treatment in pregnancy (IPTp), whilst in Malawi and DRC the maps were used to target in-door residual spraying (IRS) and LLINs distributions in schools. Maps were also used for operational planning, supply quantification, financial justification and advocacy. Findings from the interviews suggested that decision-makers lacked trust in the modelled PfPR maps when based on only a few empirical data points (Malawi and DRC). Conclusions: Maps were generally used to identify areas with high prevalence in order to implement specific interventions. Despite the availability of national level modelled PfPR maps in all three countries, they were only used in one country. Perceived utility of malaria risk maps was associated with the epidemiological structure of the country and use was driven by perceived need, understanding (quality and relevance), ownership and trust in the data used to develop the maps. [ABSTRACT FROM AUTHOR]

Published

2020

8. The impact of urbanization and population density on childhood Plasmodium falciparum parasite prevalence rates in Africa.

Author

Kabaria, Caroline W., Gilbert, Marius, Noor, Abdisalan M., Snow, Robert W., and Linard, Catherine

Subjects

URBANIZATION, REGRESSION trees, POPULATION density, REGRESSION analysis, DISEASE prevalence, PLASMODIUM falciparum

Abstract

Background: Although malaria has been traditionally regarded as less of a problem in urban areas compared to neighbouring rural areas, the risk of malaria infection continues to exist in densely populated, urban areas of Africa. Despite the recognition that urbanization influences the epidemiology of malaria, there is little consensus on urbanization relevant for malaria parasite mapping. Previous studies examining the relationship between urbanization and malaria transmission have used products defining urbanization at global/continental scales developed in the early 2000s, that overestimate actual urban extents while the population estimates are over 15 years old and estimated at administrative unit level. Methods and results: This study sought to discriminate an urbanization definition that is most relevant for malaria parasite mapping using individual level malaria infection data obtained from nationally representative householdbased surveys. Boosted regression tree (BRT) modelling was used to determine the effect of urbanization on malaria transmission and if this effect varied with urbanization definition. In addition, the most recent high resolution population distribution data was used to determine whether population density had significant effect on malaria parasite prevalence and if so, could population density replace urban classifications in modelling malaria transmission patterns. The risk of malaria infection was shown to decline from rural areas through peri-urban settlements to urban central areas. Population density was found to be an important predictor of malaria risk. The final boosted regression trees (BRT) model with urbanization and population density gave the best model fit (Tukey test p value <0.05) compared to the models with urbanization only. Conclusion: Given the challenges in uniformly classifying urban areas across different countries, population density provides a reliable metric to adjust for the patterns of malaria risk in densely populated urban areas. Future malaria risk models can, therefore, be improved by including both population density and urbanization which have both been shown to have significant impact on malaria risk in this study. [ABSTRACT FROM AUTHOR]

Published

2017

9. The changing malaria landscape in Aseer region, Kingdom of Saudi Arabia: 2000-2015.

Author

Alshahrani, Ali Mohamed, Abdelgader, Tarig M., Saeed, Ibrahim, Al-Akhshami, Abdul Rhman, Al-Ghamdi, Mohamed, Al-Zahrani, Mohammed H., El Hassan, Ibrahim, Kyalo, David, and Snow, Robert W.

Subjects

MALARIA prevention, PUBLIC health surveillance, PLASMODIUM falciparum, ANOPHELES arabiensis, PUBLIC health

Abstract

Background: In 2004, a revised action plan was developed, supported by the World Health Organization, to eliminate malaria from Saudi Arabia by preventing re-introduction of malaria into regions since declared malaria free, eliminating foci of transmission in the Mecca and Medina areas and a concerted effort of foci surveillance and control, to eliminate malaria from the regions of Jazan and Aseer. This paper provides the context, activities, progress, and possible contributions toward malaria elimination in the Aseer region since 2000, with a more detailed analysis of the spatial location of locally acquired case incidence since 2012. Methods: This is a descriptive study of all available Ministry of Health surveillance data and process reports since 2000, with higher spatial resolution analysis of data between 2012 and 2015. Results: In 2000, there were 511 cases of Plasmodium falciparum locally acquired infection. The following 4 years witnessed a dramatic decline in cases to only 18 locally acquired infections reported in 2005. A resurgence in local infections was reported in 2006 (93) and 2007 (165), thereafter (2008-2014) local cases continued to decline to fewer than 40 per year across the region. However, in 2015, a small rise was noted (51). All locally acquired infections were P. falciparum. There has been a constant flow of imported infections into Aseer since 2000, mostly among immigrant labour from Pakistan, India, Sudan, and Yemen. Imported infections have included both Plasmodium vivax and P. falciparum. The spatial extent of malaria appears to be changing, but there remain two intractable areas Sarat Abeda and Dhran Aljanub, where risks per reporting centre have changed little since 2001, remaining above 0.5 per 10,000 population. Only seven villages contributed 55% of all locally acquired infection since 2012. Discussion: Aseer has reached a state of very low incidence of locally acquired infections, despite a constant source of imported infections from outside the country. How many of the local infections are F2 generations from imported infections or how many are a result of residual active transmission between asymptomatic carriers of infections transmitted by pockets of existing Anopheles arabiensis populations remains unknown. A more detailed investigation of the spatial and temporal patterns of infected hosts, parasites and vectors would help define whether this region has managed to effectively prevent local transmission of new infections. [ABSTRACT FROM AUTHOR]

Published

2016

10. Age, Spatial, and Temporal Variations in Hospital Admissions with Malaria in Kilifi County, Kenya: A 25-Year Longitudinal Observational Study.

Author

Mogeni, Polycarp, Williams, Thomas N., Fegan, Gregory, Nyundo, Christopher, Bauni, Evasius, Mwai, Kennedy, Omedo, Irene, Njuguna, Patricia, Newton, Charles R., Osier, Faith, Berkley, James A., Hammitt, Laura L., Lowe, Brett, Mwambingu, Gabriel, Awuondo, Ken, Mturi, Neema, Peshu, Norbert, Snow, Robert W., Noor, Abdisalan, and Marsh, Kevin

Subjects

MALARIA transmission, PLASMODIUM falciparum, HOSPITAL admitting clerks, INSECTICIDE-treated mosquito nets, HOSPITAL care, LONGITUDINAL method, MALARIA, PROTECTIVE clothing, PEST control, RESEARCH funding, RELATIVE medical risk, DISEASE prevalence

Abstract

Background: Encouraging progress has been seen with reductions in Plasmodium falciparum malaria transmission in some parts of Africa. Reduced transmission might lead to increasing susceptibility to malaria among older children due to lower acquired immunity, and this has implications for ongoing control strategies.Methods and Findings: We conducted a longitudinal observational study of children admitted to Kilifi County Hospital in Kenya and linked it to data on residence and insecticide-treated net (ITN) use. This included data from 69,104 children aged from 3 mo to 13 y admitted to Kilifi County Hospital between 1 January 1990 and 31 December 2014. The variation in malaria slide positivity among admissions was examined in logistic regression models using the following predictors: location of the residence, calendar time, the child's age, ITN use, and the enhanced vegetation index (a proxy for soil moisture). The proportion of malaria slide-positive admissions declined from 0.56 (95% confidence interval [CI] 0.54-0.58) in 1998 to 0.07 (95% CI 0.06-0.08) in 2009 but then increased again through to 0.24 (95% CI 0.22-0.25) in 2014. Older children accounted for most of the increase after 2009 (0.035 [95% CI 0.030-0.040] among young children compared to 0.22 [95% CI 0.21-0.23] in older children). There was a nonlinear relationship between malaria risk and prevalence of ITN use within a 2 km radius of an admitted child's residence such that the predicted malaria positive fraction varied from ~0.4 to <0.1 as the prevalence of ITN use varied from 20% to 80%. In this observational analysis, we were unable to determine the cause of the decline in malaria between 1998 and 2009, which pre-dated the dramatic scale-up in ITN distribution and use.Conclusion: Following a period of reduced transmission, a cohort of older children emerged who have increased susceptibility to malaria. Further reductions in malaria transmission are needed to mitigate the increasing burden among older children, and universal ITN coverage is a promising strategy to achieve this goal. [ABSTRACT FROM AUTHOR]

Published

2016

11. Comparing insecticide-treated bed net use to Plasmodium falciparum infection among schoolchildren living near Lake Victoria, Kenya.

Author

Okoyo, Collins, Mwandawiro, Charles, Kihara, Jimmy, Simiyu, Elses, Gitonga, Caroline W., Noor, Abdisalan M., Njenga, Sammy M., and Snow, Robert W.

Subjects

PLASMODIUM falciparum, MALARIA transmission, CONFIDENCE intervals, PARASITIC diseases, PREVENTION, THERAPEUTICS, ECOLOGY

Abstract

Background: Under trial conditions insecticide-treated nets have been shown to provide significant clinical and mortality protection under a range of malaria transmission intensity conditions. There are, however, few operational impact data, notably in very intense transmission conditions. This study, reports on malaria infection among Kenyan schoolchildren living in areas of intense malaria transmission and their reported use of insecticide-treated bed nets. Methods: 5188 children in 54 schools were randomly sampled from seven counties surrounding Lake Victoria between May and June 2014. A questionnaire was administered to schoolchildren in classes 2-6 on the use of a long-lasting, insecticide-treated net (LLIN) the night before the survey and provided a single blood sample for a rapid diagnostic test for malaria infection. Analysis of the impact of insecticide-treated net use on malaria prevalence was undertaken using a multivariable, mixed effects, logistic regression at 95 % confidence interval (CI), taking into account hierarchical nature of the data and results adjusted for school clusters. Results: The overall prevalence of malaria infection was 48.7 %, two-thirds (67.9 %) of the children reported using LLIN, 91.3 % of the children reported that their households own at least one LLIN and the household LLIN coverage was 2.5 persons per one LLIN. The prevalence of infection showed variation across the counties, with prevalence being highest in Busia (66.9 %) and Homabay (51.8 %) counties, and lowest in Migori County (29.6 %). Generally, malaria parasite prevalence differed between age groups and gender with the highest prevalence occurring in children below 7 years (50.6 %) and males (52.2 %). Adjusting for county and school, there was a significant reduction in odds of malaria infection among the schoolchildren who reported LLIN use the previous night by 14 % (aOR 0.86, 95 % CI 0.74-0.98, P < 0.027). Conclusion: Malaria transmission continues to be high around Lake Victoria. Despite evidence of increasing pyrethroid resistance and the likely overall efficacy of LLIN distributed several years prior to the survey, LLIN continue to provide protection against infection among school-aged children. [ABSTRACT FROM AUTHOR]

Published

2015

12. Changing Malaria Prevalence on the Kenyan Coast since 1974: Climate, Drugs and Vector Control.

Author

Snow, Robert W., Kibuchi, Eliud, Karuri, Stella W., Sang, Gilbert, Gitonga, Caroline W., Mwandawiro, Charles, Bejon, Philip, and Noor, Abdisalan M.

Subjects

*MALARIA prevention, *VECTOR control, *MEDICAL climatology, *DRUG resistance, *DISEASE prevalence, *PLASMODIUM falciparum, *COASTS, *PROTOZOA

Abstract

Background: Progress toward reducing the malaria burden in Africa has been measured, or modeled, using datasets with relatively short time-windows. These restricted temporal analyses may miss the wider context of longer-term cycles of malaria risk and hence may lead to incorrect inferences regarding the impact of intervention. Methods: 1147 age-corrected Plasmodium falciparum parasite prevalence (PfPR2-10) surveys among rural communities along the Kenyan coast were assembled from 1974 to 2014. A Bayesian conditional autoregressive generalized linear mixed model was used to interpolate to 279 small areas for each of the 41 years since 1974. Best-fit polynomial splined curves of changing PfPR2-10 were compared to a sequence of plausible explanatory variables related to rainfall, drug resistance and insecticide-treated bed net (ITN) use. Results: P. falciparum parasite prevalence initially rose from 1974 to 1987, dipped in 1991–92 but remained high until 1998. From 1998 onwards prevalence began to decline until 2011, then began to rise through to 2014. This major decline occurred before ITNs were widely distributed and variation in rainfall coincided with some, but not all, short-term transmission cycles. Emerging resistance to chloroquine and introduction of sulfadoxine/pyrimethamine provided plausible explanations for the rise and fall of malaria transmission along the Kenyan coast. Conclusions: Progress towards elimination might not be as predictable as we would like, where natural and extrinsic cycles of transmission confound evaluations of the effect of interventions. Deciding where a country lies on an elimination pathway requires careful empiric observation of the long-term epidemiology of malaria transmission. [ABSTRACT FROM AUTHOR]

Published

2015

13. Modelling the Incidence of Plasmodium vivax and Plasmodium falciparum Malaria in Afghanistan 2006–2009.

Author

Alegana, Victor A., Wright, Jim A., Nahzat, Sami M., Butt, Waqar, Sediqi, Amad W., Habib, Naeem, Snow, Robert W., Atkinson, Peter M., and Noor, Abdisalan M.

Subjects

PLASMODIUM vivax, PLASMODIUM falciparum, RISK of malaria, PUBLIC health, MALARIA treatment

Abstract

Background: Identifying areas that support high malaria risks and where populations lack access to health care is central to reducing the burden in Afghanistan. This study investigated the incidence of Plasmodium vivax and Plasmodium falciparum using routine data to help focus malaria interventions. Methods: To estimate incidence, the study modelled utilisation of the public health sector using fever treatment data from the 2012 national Malaria Indicator Survey. A probabilistic measure of attendance was applied to population density metrics to define the proportion of the population within catchment of a public health facility. Malaria data were used in a Bayesian spatio-temporal conditional-autoregressive model with ecological or environmental covariates, to examine the spatial and temporal variation of incidence. Findings: From the analysis of healthcare utilisation, over 80% of the population was within 2 hours’ travel of the nearest public health facility, while 64.4% were within 30 minutes’ travel. The mean incidence of P. vivax in 2009 was 5.4 (95% Crl 3.2–9.2) cases per 1000 population compared to 1.2 (95% Crl 0.4–2.9) cases per 1000 population for P. falciparum. P. vivax peaked in August while P. falciparum peaked in November. 32% of the estimated 30.5 million people lived in regions where annual incidence was at least 1 case per 1,000 population of P. vivax; 23.7% of the population lived in areas where annual P. falciparum case incidence was at least 1 per 1000. Conclusion: This study showed how routine data can be combined with household survey data to model malaria incidence. The incidence of both P. vivax and P. falciparum in Afghanistan remain low but the co-distribution of both parasites and the lag in their peak season provides challenges to malaria control in Afghanistan. Future improved case definition to determine levels of imported risks may be useful for the elimination ambitions in Afghanistan. [ABSTRACT FROM AUTHOR]

Published

2014

14. The demographics of human and malaria movement and migration patterns in East Africa.

Author

Pindolia, Deepa K., Garcia, Andres J., Zhuojie Huang, Alegana, Victor A., Noor, Abdisalan M., Snow, Robert W., Tatem, Andrew J., and Smith, David L.

Subjects

PLASMODIUM falciparum, MALARIA treatment, INFECTIOUS disease transmission, DRUG resistance

Abstract

Introduction The quantification of parasite movements can provide valuable information for control strategy planning across all transmission intensities. Mobile parasite carrying individuals can instigate transmission in receptive areas, spread drug resistant strains and reduce the effectiveness of control strategies. The identification of mobile demographic groups, their routes of travel and how these movements connect differing transmission zones, potentially enables limited resources for interventions to be efficiently targeted over space, time and populations. Methods National population censuses and household surveys provide individual-level migration, travel, and other data relevant for understanding malaria movement patterns. Together with existing spatially referenced malaria data and mathematical models, network analysis techniques were used to quantify the demographics of human and malaria movement patterns in Kenya, Uganda and Tanzania. Movement networks were developed based on connectivity and magnitudes of flow within each country and compared to assess relative differences between regions and demographic groups. Additional malaria-relevant characteristics, such as short-term travel and bed net use, were also examined. Results Patterns of human and malaria movements varied between demographic groups, within country regions and between countries. Migration rates were highest in 20-30 year olds in all three countries, but when accounting for malaria prevalence, movements in the 10-20 year age group became more important. Different age and sex groups also exhibited substantial variations in terms of the most likely sources, sinks and routes of migration and malaria movement, as well as risk factors for infection, such as short-term travel and bed net use. Conclusion Census and survey data, together with spatially referenced malaria data, GIS and network analysis tools, can be valuable for identifying, mapping and quantifying regional connectivities and the mobility of different demographic groups. Demographically-stratified HPM and malaria movement estimates can provide quantitative evidence to inform the design of more efficient intervention and surveillance strategies that are targeted to specific regions and population groups. [ABSTRACT FROM AUTHOR]

Published

2013

15. The receptive versus current risks of Plasmodium falciparum transmission in Northern Namibia:implications for elimination.

Author

Noor, Abdisalan M., Uusiku, Petrina, Kamwi, Richard N., Katokele, Stark, Ntomwa, Benson, Alegana, Victor A., and Snow, Robert W.

Subjects

MALARIA, PLASMODIUM falciparum, PLASMODIUM, PROTOZOAN diseases, AVIAN malaria

Abstract

Background: Countries aiming for malaria elimination need to define their malariogenic potential, of which measures of both receptive and current transmission are major components. As Namibia pursues malaria elimination, the importation risks due to cross-border human population movements with higher risk neighboring countries has been identified as a major challenge. Here we used historical and contemporary Plasmodium falciparum prevalence data for Namibia to estimate receptive and current levels of malaria risk in nine northern regions. We explore the potential of these risk maps to support decision-making for malaria elimination in Namibia. Methods: Age-corrected geocoded community P. falciparum rate PfPR2-10 data from the period 1967-1992 (n = 3,260) and 2009 (n = 120) were modeled separately within a Bayesian model-based geostatistical (MBG) framework. A full Bayesian space-time MBG model was implemented using the 1967-1992 data to make predictions for every five years from 1969 to 1989. These maps were used to compute the maximum mean PfPR2-10 at 5 × 5 km locations in the northern regions of Namibia to estimate receptivity. A separate spatial Bayesian MBG was fitted to the 2009 data to predict current risk of malaria at similar spatial resolution. Using a high-resolution population map for Namibia, population at risk by receptive and current endemicity by region and population adjusted PfPR2-10 by health district were computed. Validations of predictions were undertaken separately for the historical and current risk models. Results: Highest receptive risks were observed in the northern regions of Caprivi, Kavango and Ohangwena along the border with Angola and Zambia. Relative to the receptive risks, over 90% of the 1.4 million people across the nine regions of northern Namibia appear to have transitioned to a lower endemic class by 2009. The biggest transition appeared to have occurred in areas of highest receptive risks. Of the 23 health districts, 12 had receptive PAPfPR2-10 risks of 5% to 18% and accounted for 57% of the population in the north. Current PAPfPR2-10 risks was largely <5% across the study area. Conclusions: The comparison of receptive and current malaria risks in the northern regions of Namibia show health districts that are most at risk of importation due to their proximity to the relatively higher transmission northern neighbouring countries, higher population and modeled receptivity. These health districts should be prioritized as the cross-border control initiatives are rolled out. [ABSTRACT FROM AUTHOR]

Published

2013

16. Malaria Control and the Intensity of Plasmodium falciparum Transmission in Namibia 1969–1992

Author

Noor, Abdisalan M., Alegana, Victor A., Kamwi, Richard N., Hansford, Clifford F., Ntomwa, Benson, Katokele, Stark, and Snow, Robert W.

Subjects

PLASMODIUM falciparum, MALARIA prevention, MALARIA transmission, HUMAN geography, EPIDEMIOLOGICAL research, CARTOGRAPHY

Abstract

Background: Historical evidence of the levels of intervention scale up and its relationships to changing malaria risks provides important contextual information for current ambitions to eliminate malaria in various regions of Africa today. Methods: Community-based Plasmodium falciparum prevalence data from 3,260 geo-coded time-space locations between 1969 and 1992 were assembled from archives covering an examination of 230,174 individuals located in northern Namibia. These data were standardized the age-range 2 to less than 10 years and used within a Bayesian model-based geo-statistical framework to examine the changes of malaria risk in the years 1969, 1974, 1979, 1984 and 1989 at 5×5 km spatial resolution. This changing risk was described against rainfall seasons and the wide-scale use of indoor-residual house-spraying and mass drug administration. Results: Most areas of Northern Namibia experienced low intensity transmission during a ten-year period of wide-scale control activities between 1969 and 1979. As control efforts waned, flooding occurred, drug resistance emerged and the war for independence intensified the spatial extent of moderate-to-high malaria transmission expanded reaching a peak in the late 1980s. Conclusions: Targeting vectors and parasite in northern Namibia was likely to have successfully sustained a situation of low intensity transmission, but unraveled quickly to a peak of transmission intensity following a sequence of events by the early 1990s. [ABSTRACT FROM AUTHOR]

Published

2013

17. Plasmodium-Helminth Coinfection and Its Sources of Heterogeneity Across East Africa.

Author

Brooker, Simon J., Pullan, Rachel L., Gitonga, Caroline W., Ashton, Ruth A., Kolaczinski, Jan H., Kabatereine, Narcis B., and Snow, Robert W.

Subjects

PARASITIC diseases, PLASMODIUM, PLASMODIUM falciparum, HOOKWORMS, SCHISTOSOMA mansoni, ASCARIS lumbricoides, EPIDEMIOLOGY

Abstract

Background. Plasmodium-helminth coinfection can have a number of consequences for infected hosts, yet our knowledge of the epidemiology of coinfection across multiple settings is limited. This study investigates the distribution and heterogeneity of coinfection with Plasmodium falciparum and 3 major helminth species across East Africa. Methods. Cross-sectional parasite surveys were conducted among 28 050 children in 299 schools across a range of environmental settings in Kenya, Uganda, and Ethiopia. Data on individual, household, and environmental risk factors were collected and a spatially explicit Bayesian modeling framework was used to investigate heterogeneities of species infection and coinfection and their risk factors as well as school- and individual-level associations between species. Results. Broad-scale geographical patterns of Plasmodium-helminth coinfection are strongly influenced by the least common infection and by species-specific environmental factors. At the individual level, there is an enduring positive association between P. falciparum and hookworm but no association between P. falciparum and Schistosoma species. However, the relative importance of such within-individual associations is less than the role of spatial factors in influencing coinfection risks. Conclusions. Patterns of coinfection seem to be influenced more by the distribution of the least common species and its environmental risk factors, rather than any enduring within-individual associations. [ABSTRACT FROM AUTHOR]

Published

2012

18. Modelling the global constraints of temperature on transmission of Plasmodium falciparum and P. vivax.

Author

Gething, Peter W., Van Boeckel, Thomas P., Smith, David L., Guerra, Carlos A., Patil, Anand P., Snow, Robert W., and Hay, Simon I.

Subjects

PLASMODIUM falciparum, MALARIA, PREVENTIVE medicine, CARTOGRAPHY, PUBLIC health, INFECTIOUS disease transmission

Abstract

Background: Temperature is a key determinant of environmental suitability for transmission of human malaria, modulating endemicity in some regions and preventing transmission in others. The spatial modelling of malaria endemicity has become increasingly sophisticated and is now central to the global scale planning, implementation, and monitoring of disease control and regional efforts towards elimination, but existing efforts to model the constraints of temperature on the malaria landscape at these scales have been simplistic. Here, we define an analytical framework to model these constraints appropriately at fine spatial and temporal resolutions, providing a detailed dynamic description that can enhance large scale malaria cartography as a decision-support tool in public health. Results: We defined a dynamic biological model that incorporated the principal mechanisms of temperature dependency in the malaria transmission cycle and used it with fine spatial and temporal resolution temperature data to evaluate time-series of temperature suitability for transmission of Plasmodium falciparum and P. vivax throughout an average year, quantified using an index proportional to the basic reproductive number. Time-series were calculated for all 1 km resolution land pixels globally and were summarised to create high-resolution maps for each species delineating those regions where temperature precludes transmission throughout the year. Within suitable zones we mapped for each pixel the number of days in which transmission is possible and an integrated measure of the intensity of suitability across the year. The detailed evaluation of temporal suitability dynamics provided by the model is visualised in a series of accompanying animations. Conclusions: These modelled products, made available freely in the public domain, can support the refined delineation of populations at risk; enhance endemicity mapping by offering a detailed, dynamic, and biologically driven alternative to the ubiquitous empirical incorporation of raw temperature data in geospatial models; and provide a rich spatial and temporal platform for future biological modelling studies. [ABSTRACT FROM AUTHOR]

Published

2011

19. Estimating the Number of Paediatric Fevers Associated with Malaria Infection Presenting to Africa's Public Health Sector in 2007.

Author

Gething, Peter W., Kirui, Viola C., Alegana, Victor A., Okiro, Emelda A., Noor, Abdisalan M., and Snow, Robert W.

Subjects

MALARIA, FEVER in children, PLASMODIUM falciparum, DISEASE prevalence, GEOGRAPHIC information systems

Abstract

Background: As international efforts to increase the coverage of artemisinin-based combination therapy in public health sectors gather pace, concerns have been raised regarding their continued indiscriminate presumptive use for treating all childhood fevers. The availability of rapid-diagnostic tests to support practical and reliable parasitological diagnosis provides an opportunity to improve the rational treatment of febrile children across Africa. However, the cost effectiveness of diagnosis-based treatment polices will depend on the presumed numbers of fevers harbouring infection. Here we compute the number of fevers likely to present to public health facilities in Africa and the estimated number of these fevers likely to be infected with Plasmodium falciparum malaria parasites. Methods and Findings: We assembled first administrative-unit level data on paediatric fever prevalence, treatment-seeking rates, and child populations. These data were combined in a geographical information system model that also incorporated an adjustment procedure for urban versus rural areas to produce spatially distributed estimates of fever burden amongst African children and the subset likely to present to public sector clinics. A second data assembly was used to estimate plausible ranges for the proportion of paediatric fevers seen at clinics positive for P. falciparum in different endemicity settings. We estimated that, of the 656 million fevers in African 0-4 y olds in 2007, 182 million (28%) were likely to have sought treatment in a public sector clinic of which 78 million (43%) were likely to have been infected with P. falciparum (range 60-103 million). Conclusions: Spatial estimates of childhood fevers and care-seeking rates can be combined with a relational risk model of infection prevalence in the community to estimate the degree of parasitemia in those fevers reaching public health facilities. This quantification provides an important baseline comparison of malarial and nonmalarial fevers in different endemicity settings that can contribute to ongoing scientific and policy debates about optimum clinical and financial strategies for the introduction of new diagnostics. These models are made publicly available with the publication of this paper. [ABSTRACT FROM AUTHOR]

Published

2010

20. Estimating the Global Clinical Burden of Plasmodium falciparum Malaria in 2007.

Author

Hay, Simon I., Okiro, Emelda A., Gething, Peter W., Patil, Anand P., Tatem, Andrew J., Guerra, Carlos A., and Snow, Robert W.

Subjects

EPIDEMIOLOGY, MALARIA, PLASMODIUM falciparum, INFECTIOUS disease transmission

Abstract

Background: The epidemiology of malaria makes surveillance-based methods of estimating its disease burden problematic. Cartographic approaches have provided alternative malaria burden estimates, but there remains widespread misunderstanding about their derivation and fidelity. The aims of this study are to present a new cartographic technique and its application for deriving global clinical burden estimates of Plasmodium falciparum malaria for 2007, and to compare these estimates and their likely precision with those derived under existing surveillance-based approaches. Methods and Findings: In seven of the 87 countries endemic for P. falciparum malaria, the health reporting infrastructure was deemed sufficiently rigorous for case reports to be used verbatim. In the remaining countries, the mapped extent of unstable and stable P. falciparum malaria transmission was first determined. Estimates of the plausible incidence range of clinical cases were then calculated within the spatial limits of unstable transmission. A modelled relationship between clinical incidence and prevalence was used, together with new maps of P. falciparum malaria endemicity, to estimate incidence in areas of stable transmission, and geostatistical joint simulation was used to quantify uncertainty in these estimates at national, regional, and global scales. Combining these estimates for all areas of transmission risk resulted in 451 million (95% credible interval 349-552 million) clinical cases of P. falciparum malaria in 2007. Almost all of this burden of morbidity occurred in areas of stable transmission. More than half of all estimated P. falciparum clinical cases and associated uncertainty occurred in India, Nigeria, the Democratic Republic of the Congo (DRC), and Myanmar (Burma), where 1.405 billion people are at risk. Recent surveillance-based methods of burden estimation were then reviewed and discrepancies in national estimates explored. When these cartographically derived national estimates were ranked according to their relative uncertainty and replaced by surveillance-based estimates in the least certain half, 98% of the global clinical burden continued to be estimated by cartographic techniques. Conclusions and Significance: Cartographic approaches to burden estimation provide a globally consistent measure of malaria morbidity of known fidelity, and they represent the only plausible method in those malaria-endemic countries with nonfunctional national surveillance. Unacceptable uncertainty in the clinical burden of malaria in only four countries confounds our ability to evaluate needs and monitor progress toward international targets for malaria control at the global scale. National prevalence surveys in each nation would reduce this uncertainty profoundly. Opportunities for further reducing uncertainty in clinical burden estimates by hybridizing alternative burden estimation procedures are also evaluated. [ABSTRACT FROM AUTHOR]

Published

2010

21. Climate change and the global malaria recession.

Author

Gething, Peter W., Smith, David L., Patil, Anand P., Tatem, Andrew J., Snow, Robert W., and Hay, Simon I.

Subjects

CLIMATE change, MALARIA, ENVIRONMENTALLY induced diseases, PHYSIOLOGICAL effects of atmospheric temperature, EPIDEMIOLOGICAL research, DISEASE exacerbation, RISK factors of epidemics, PLASMODIUM falciparum, MORTALITY, PROGNOSIS

Abstract

The current and potential future impact of climate change on malaria is of major public health interest. The proposed effects of rising global temperatures on the future spread and intensification of the disease, and on existing malaria morbidity and mortality rates, substantively influence global health policy. The contemporary spatial limits of Plasmodium falciparum malaria and its endemicity within this range, when compared with comparable historical maps, offer unique insights into the changing global epidemiology of malaria over the last century. It has long been known that the range of malaria has contracted through a century of economic development and disease control. Here, for the first time, we quantify this contraction and the global decreases in malaria endemicity since approximately 1900. We compare the magnitude of these changes to the size of effects on malaria endemicity proposed under future climate scenarios and associated with widely used public health interventions. Our findings have two key and often ignored implications with respect to climate change and malaria. First, widespread claims that rising mean temperatures have already led to increases in worldwide malaria morbidity and mortality are largely at odds with observed decreasing global trends in both its endemicity and geographic extent. Second, the proposed future effects of rising temperatures on endemicity are at least one order of magnitude smaller than changes observed since about 1900 and up to two orders of magnitude smaller than those that can be achieved by the effective scale-up of key control measures. Predictions of an intensification of malaria in a warmer world, based on extrapolated empirical relationships or biological mechanisms, must be set against a context of a century of warming that has seen marked global declines in the disease and a substantial weakening of the global correlation between malaria endemicity and climate. [ABSTRACT FROM AUTHOR]

Published

2010

22. The relationship between reported fever and Plasmodium falciparum infection in African children.

Author

Okiro, Emelda A. and Snow, Robert W.

Subjects

*MALARIA, *PUBLIC health, *PLASMODIUM falciparum, *BIOMARKERS

Abstract

Background: Fever has traditionally served as the entry point for presumptive treatment of malaria in African children. However, recent changes in the epidemiology of malaria across many places in Africa would suggest that the predictive accuracy of a fever history as a marker of disease has changed prompting calls for the change to diagnosisbased treatment strategies. Methods: Using data from six national malaria indicator surveys undertaken between 2007 and 2009, the relationship between childhood (6-59 months) reported fever on the day of survey and the likelihood of coincidental Plasmodium falciparum infection recorded using a rapid diagnostic test was evaluated across a range of endemicities characteristic of Africa today. Results: Of 16,903 children surveyed, 3% were febrile and infected, 9% were febrile without infection, 12% were infected but were not febrile and 76% were uninfected and not febrile. Children with fever on the day of the survey had a 1.98 times greater chance of being infected with P. falciparum compared to children without a history of fever on the day of the survey after adjusting for age and location (OR 1.98; 95% CI 1.74-2.34). There was a strong linear relationship between the percentage of febrile children with infection and infection prevalence (R² = 0.9147). The prevalence of infection in reported fevers was consistently greater than would be expected solely by chance and this increased with increasing transmission intensity. The data suggest that in areas where community-based infection prevalence in childhood is above 34-37%, 50% or more of fevers are likely to be associated with infection. Conclusion: The potential benefits of diagnosis will depend on the prevalence of infection among children who report fever. The study has demonstrated a predictable relationship between parasite prevalence in the community and risks of infection among febrile children suggesting that current maps of parasite prevalence could be used to guide diagnostic strategies in Africa. [ABSTRACT FROM AUTHOR]

Published

2010

23. Quantifying the Number of Pregnancies at Risk of Malaria in 2007: A Demographic Study.

Author

Dellicour, Stephanie, Tatem, Andrew J., Guerra, Carlos A., Snow, Robert W., and ter Kuile, Feiko O.

Subjects

PREGNANCY, MALARIA transmission, ENDEMIC flea-borne typhus, PLASMODIUM falciparum, ABORTION, MISCARRIAGE, CHILDBIRTH

Abstract

Background: Comprehensive and contemporary estimates of the number of pregnancies at risk of malaria are not currently available, particularly for endemic areas outside of Africa. We derived global estimates of the number of women who became pregnant in 2007 in areas with Plasmodium falciparum and P. vivax transmission. Methods and Findings: A recently published map of the global limits of P. falciparum transmission and an updated map of the limits of P. vivax transmission were combined with gridded population data and growth rates to estimate total populations at risk of malaria in 2007. Country-specific demographic data from the United Nations on age, sex, and total fertility rates were used to estimate the number of women of child-bearing age and the annual rate of live births. Subregional estimates of the number of induced abortions and country-specific stillbirths rates were obtained from recently published reviews. The number of miscarriages was estimated from the number of live births and corrected for induced abortion rates. The number of clinically recognised pregnancies at risk was then calculated as the sum of the number of live births, induced abortions, spontaneous miscarriages, and stillbirths among the population at risk in 2007. In 2007, 125.2 million pregnancies occurred in areas with P. falciparum and/or P. vivax transmission resulting in 82.6 million live births. This included 77.4, 30.3, 13.1, and 4.3 million pregnancies in the countries falling under the World Health Organization (WHO) regional offices for South-East-Asia (SEARO) and the Western-Pacific (WPRO) combined, Africa (AFRO), Europe and the Eastern Mediterranean (EURO/EMRO), and the Americas (AMRO), respectively. Of 85.3 million pregnancies in areas with P. falciparum transmission, 54.7 million occurred in areas with stable transmission and 30.6 million in areas with unstable transmission (clinical incidence <1 per 10,000 population/year); 92.9 million occurred in areas with P. vivax transmission, 53.0 million of which occurred in areas in which P. falciparum and P. vivax co-exist and 39.9 million in temperate regions with P. vivax transmission only. Conclusions: In 2007, 54.7 million pregnancies occurred in areas with stable P. falciparum malaria and a further 70.5 million in areas with exceptionally low malaria transmission or with P. vivax only. These represent the first contemporary estimates of the global distribution of the number of pregnancies at risk of P. falciparum and P. vivax malaria and provide a first step towards a more informed estimate of the geographical distribution of infection rates and the corresponding disease burden of malaria in pregnancy. [ABSTRACT FROM AUTHOR]

Published

2010

24. The spatial-temporal clustering of Plasmodium falciparum infection over eleven years in Gezira State, The Sudan.

Author

Mirghani, Samia E., Nour, Bakri Y. M., Bushra, Sayed M., Elhassan, Ibrahim M., Snow, Robert W., and Noor, Abdisalan M.

Subjects

PLASMODIUM falciparum, MALARIA, SURVEYS, CLUSTER analysis (Statistics)

Abstract

Background: Malaria infection and disease exhibit microgeographic heterogeneity which if predictable could have implications for designing small-area intervention. Here, the space-time clustering of Plasmodium falciparum infections using data from repeat cross-sectional surveys in Gezira State, a low transmission area in northern Sudan, is investigated. Methods: Data from cross-sectional surveys undertaken in January each year from 1999-2009 in 88 villages in the Gezira state were assembled. During each survey, about a 100 children between the ages two to ten years were sampled to examine the presence of P. falciparum parasites. In 2009, all the villages were mapped using global positioning systems. Cluster level data were analysed for spatial-only and space-time clustering using the Bernoulli model and the significance of clusters were tested using the Kulldorff scan statistic. Results: Over the study period, 96,022 malaria slide examinations were undertaken and the P. falciparum prevalence was 8.6% in 1999 and by 2009 this had reduced to 1.6%. The cluster analysis showed the presence of one significant spatial-only cluster in each survey year and one significant space-time cluster over the whole study period. The primary spatial-only clusters in 10/11 years were either contained within or overlapped with the primary space-time cluster. Conclusion: The results of the study confirm the generally low malaria transmission in the state of Gezira and the presence of spatial and space-time clusters concentrated around a specific area in the south of the state. Improved surveillance data that allows for the analysis of seasonality, age and other risk factors need to be collected to design effective small area interventions as Gezira state targets malaria elimination. [ABSTRACT FROM AUTHOR]

Published

2010

25. Plasmodium infection and its risk factors in eastern Uganda.

Author

Pullan, Rachel L., Bukirwa, Hasifa, Staedke, Sarah G., Snow, Robert W., and Brooker, Simon

Subjects

MALARIA transmission, PLASMODIUM falciparum, GEODATABASES, MULTIVARIATE analysis, INFECTION risk factors, MOSQUITO vectors, MOSQUITO nets

Abstract

Background: Malaria is a leading cause of disease burden in Uganda, although surprisingly few contemporary, age-stratified data exist on malaria epidemiology in the country. This report presents results from a total population survey of malaria infection and intervention coverage in a rural area of eastern Uganda, with a specific focus on how risk factors differ between demographic groups in this population. Methods: In 2008, a cross-sectional survey was conducted in four contiguous villages in Mulanda, sub-county in Tororo district, eastern Uganda, to investigate the epidemiology and risk factors of Plasmodium species infection. All permanent residents were invited to participate, with blood smears collected from 1,844 individuals aged between six months and 88 years (representing 78% of the population). Demographic, household and socio-economic characteristics were combined with environmental data using a Geographical Information System. Hierarchical models were used to explore patterns of malaria infection and identify individual, household and environmental risk factors. Results: Overall, 709 individuals were infected with Plasmodium, with prevalence highest among 5-9 year olds (63.5%). Thin films from a random sample of 20% of parasite positive participants showed that 94.0% of infections were Plasmodium falciparum and 6.0% were P. malariae; no other species or mixed infections were seen. In total, 68% of households owned at least one mosquito although only 27% of school-aged children reported sleeping under a net the previous night. In multivariate analysis, infection risk was highest amongst children aged 5-9 years and remained high in older children. Risk of infection was lower for those that reported sleeping under a bed net the previous night and living more than 750 m from a rice-growing area. After accounting for clustering within compounds, there was no evidence for an association between infection prevalence and socio-economic status, and no evidence for spatial clustering. Conclusion: These findings demonstrate that mosquito net usage remains inadequate and is strongly associated with risk of malaria among school-aged children. Infection risk amongst adults is influenced by proximity to potential mosquito breeding grounds. Taken together, these findings emphasize the importance of increasing net coverage, especially among school-aged children. [ABSTRACT FROM AUTHOR]

Published

2010

26. A World Malaria Map: Plasmodium falciparum Endemicity in 2007.

Author

Hay, Simon I., Guerra, Carlos A., Gething, Peter W., Patil, Anand P., Tatem, Andrew J., Noor, Abdisalan M., Kabaria, Caroline W., Manh, Bui H., Elyazar, Iqbal R. F., Brooker, Simon, Smith, David L., Moyeed, Rana A., and Snow, Robert W.

Subjects

RISK of malaria, PLASMODIUM falciparum, BAYESIAN analysis, GEOLOGICAL statistics, PROBABILITY theory, THERAPEUTICS

Abstract

Incorporating data from nearly 8,000 surveys ofPlasmodium falciparum parasite rates, Simon Hay and colleagues employ a model-based geostatistical procedure to create a map of global malaria endemicity. [ABSTRACT FROM AUTHOR]

Published

2009

27. Revisiting the Design of Phase III Clinical Trials of Antimalarial Drugs for Uncomplicated Plasmodium falciparum Malaria.

Author

Borrmann, Steffen, Peto, Tim, Snow, Robert W., Gutteridge, Win, and White, Nicholas J.

Subjects

PLASMODIUM falciparum, MALARIA treatment, DRUG efficacy, ANTIMALARIALS

Abstract

Steffen Borrmann and colleagues discuss appropriate endpoints and their measurement during phase III trials of new antimalarial drugs. [ABSTRACT FROM AUTHOR]

Published

2008

28. International Funding for Malaria Control in Relation to Populations at Risk of Stable Plasmodium falciparum Transmission.

Author

Snow, Robert W., Guerra, Carlos A., Mutheu, Juliette J., and Hay, Simon I.

Subjects

*MALARIA prevention, *PLASMODIUM falciparum, *MEDICAL care financing, *WORLD health, *PUBLIC health, *INTERNATIONAL cooperation

Abstract

To reach global malaria control goals, Robert Snow and colleagues argue that more international funding is needed but that it must be targeted at specific countries most at risk. [ABSTRACT FROM AUTHOR]

Published

2008

29. The Use of Mosquito Nets and the Prevalence of Plasmodium falciparum Infection in Rural South Central Somalia.

Author

Noor, Abdisalan M., Moloney, Grainne, Borle, Mohamed, Fegan, Greg W., Shewchuk, Tanya, and Snow, Robert W.

Subjects

MALARIA prevention, MOSQUITO nets, PUBLIC health, INSECTICIDES, BLOOD testing, CROSS-sectional method, INFECTION, PLASMODIUM falciparum, DISEASE prevalence, INFECTIOUS disease transmission

Abstract

Background: There have been resurgent efforts in Africa to estimate the public health impact of malaria control interventions such as insecticide treated nets (ITNs) following substantial investments in scaling-up coverage in the last five years. Little is known, however, on the effectiveness of ITN in areas of Africa that support low transmission. This hinders the accurate estimation of impact of ITN use on disease burden and its cost-effectiveness in low transmission settings. Methods and Principal Findings: Using a stratified two-stage cluster sample design, four cross-sectional studies were undertaken between March-June 2007 across three livelihood groups in an area of low intensity malaria transmission in South Central Somalia. Information on bed net use; age; and sex of all participants were recorded. A finger prick blood sample was taken from participants to examine for parasitaemia. Mantel-Haenzel methods were used to measure the effect of net use on parasitaemia adjusting for livelihood; age; and sex. A total of 10,587 individuals of all ages were seen of which 10,359 provided full information. Overall net use and parasite prevalence were 12.4% and 15.7% respectively. Age-specific protective effectiveness (PE) of bed net ranged from 39% among ,5 years to 72% among 5-14 years old. Overall PE of bed nets was 54% (95% confidence interval 44%-63%) after adjusting for livelihood; sex; and age. Conclusions and Significance: Bed nets confer high protection against parasite infection in South Central Somalia. In such areas where baseline transmission is low, however, the absolute reductions in parasitaemia due to wide-scale net use will be relatively small raising questions on the cost-effectiveness of covering millions of people living in such settings in Africa with nets. Further understanding of the progress of disease upon infection against the cost of averting its consequent burden in low transmission areas of Africa is therefore required. [ABSTRACT FROM AUTHOR]

Published

2008

30. Prospects for Malaria Eradication in Sub-Saharan Africa Prospects for Malaria Eradication in Sub-Saharan Africa.

Author

Águas, Ricardo, White, Lisa J., Snow, Robert W., and Gomes, M. Gabriela M.

Subjects

PLASMODIUM falciparum, MALARIA, IMMUNITY, MATHEMATICAL models, AGE distribution, PARASITES

Abstract

Background: A characteristic of Plasmodium falciparum infections is the gradual acquisition of clinical immunity resulting from repeated exposures to the parasite. While the molecular basis of protection against clinical malaria remains unresolved, its effects on epidemiological patterns are well recognized. Accumulating epidemiological data constitute a valuable resource that must be intensively explored and interpreted as to effectively inform control planning. Methodology/Principal Finding: Here we apply a mathematical model to clinical data from eight endemic regions in sub- Saharan Africa. The model provides a quantitative framework within which differences in age distribution of clinical disease are assessed in terms of the parameters underlying transmission. The shorter infectious periods estimated for clinical infections induce a regime of bistability of endemic and malaria-free states in regions of mesoendemic transmission. The two epidemiological states are separated by a threshold that provides a convenient measure for intervention design. Scenarios of eradication and resurgence are simulated. Conclusions/Significance: In regions that support mesoendemic transmission, intervention success depends critically on reducing prevalence below a threshold which separates endemic and malaria-free regimes. [ABSTRACT FROM AUTHOR]

Published

2008

31. The Limits and Intensity of Plasmodium falciparum Transmission: Implications for Malaria Control and Elimination Worldwide.

Author

Guerra, Carlos A., Gikandi, Priscilla W., Tatem, Andrew J., Noor, Abdisalan M., Smith, Dave L., Hay, Simon I., and Snow, Robert W.

Subjects

MALARIA, PLASMODIUM falciparum, ANOPHELES, INFECTIOUS disease transmission

Abstract

Combining extensive surveillance and climate data, as well as biological characteristics of Anopheles mosquitoes, Robert Snow and colleagues create a global map of risk for P. falciparum malaria. [ABSTRACT FROM AUTHOR]

Published

2008

32. Spatial prediction of Plasmodium falciparum prevalence in Somalia.

Author

Noor, Abdisalan M., Clements, Archie C. A., Gething, Peter W., Moloney, Grainne, Borle, Mohammed, Shewchuk, Tanya, Hay, Simon I., and Snow, Robert W.

Subjects

MALARIA, SPATIAL ecology, MEDICAL geography, DISEASE prevalence, INFECTIOUS disease transmission, PLASMODIUM falciparum

Abstract

Background: Maps of malaria distribution are vital for optimal allocation of resources for anti-malarial activities. There is a lack of reliable contemporary malaria maps in endemic countries in sub-Saharan Africa. This problem is particularly acute in low malaria transmission countries such as those located in the horn of Africa. Methods: Data from a national malaria cluster sample survey in 2005 and routine cluster surveys in 2007 were assembled for Somalia. Rapid diagnostic tests were used to examine the presence of Plasmodium falciparum parasites in finger-prick blood samples obtained from individuals across all age-groups. Bayesian geostatistical models, with environmental and survey covariates, were used to predict continuous maps of malaria prevalence across Somalia and to define the uncertainty associated with the predictions. Results: For analyses the country was divided into north and south. In the north, the month of survey, distance to water, precipitation and temperature had no significant association with P. falciparum prevalence when spatial correlation was taken into account. In contrast, all the covariates, except distance to water, were significantly associated with parasite prevalence in the south. The inclusion of covariates improved model fit for the south but not for the north. Model precision was highest in the south. The majority of the country had a predicted prevalence of < 5%; areas with ≥ 5% prevalence were predominantly in the south. Conclusion: The maps showed that malaria transmission in Somalia varied from hypo- to meso-endemic. However, even after including the selected covariates in the model, there still remained a considerable amount of unexplained spatial variation in parasite prevalence, indicating effects of other factors not captured in the study. Nonetheless the maps presented here provide the best contemporary information on malaria prevalence in Somalia. [ABSTRACT FROM AUTHOR]

Published

2008

33. Standardizing estimates of the Plasmodium falciparum parasite rate.

Author

Smith, David L., Guerra, Carlos A., Snow, Robert W., and Hay, Simon I.

Subjects

PLASMODIUM falciparum, PARASITES, MALARIA, ALGORITHMS, CHILDREN, PROTOZOAN diseases

Abstract

Background: The Plasmodium falciparum parasite rate (PfPR) is a commonly reported index of malaria transmission intensity. PfPR rises after birth to a plateau before declining in older children and adults. Studies of populations with different age ranges generally report average PfPR, so age is an important source of heterogeneity in reported PfPR data. This confounds simple comparisons of PfPR surveys conducted at different times or places. Methods: Several algorithms for standardizing PfPR were developed using 21 studies that stratify in detail PfPR by age. An additional 121 studies were found that recorded PfPR from the same population over at least two different age ranges; these paired estimates were used to evaluate these algorithms. The best algorithm was judged to be the one that described most of the variance when converting the PfPR pairs from one age-range to another. Results: The analysis suggests that the relationship between PfPR and age is predictable across the observed range of malaria endemicity. PfPR reaches a peak after about two years and remains fairly constant in older children until age ten before declining throughout adolescence and adulthood. The PfPR pairs were poorly correlated; using one to predict the other would explain only 5% of the total variance. By contrast, the PfPR predicted by the best algorithm explained 72% of the variance. Conclusion: The PfPR in older children is useful for standardization because it has good biological, epidemiological and statistical properties. It is also historically consistent with the classical categories of hypoendemic, mesoendemic and hyperendemic malaria. This algorithm provides a reliable method for standardizing PfPR for the purposes of comparing studies and mapping malaria endemicity. The scripts for doing so are freely available to all. [ABSTRACT FROM AUTHOR]

Published

2007

34. Mapping the global extent of malaria in 2005

Author

Guerra, Carlos A., Snow, Robert W., and Hay, Simon I.

Subjects

*MALARIA, *CHEMOPREVENTION, *POPULATION density, *PLASMODIUM falciparum, *FEVER

Abstract

Guidelines for travellers on malaria chemoprophylaxis, the altitude limits of dominant vector species, climate suitability for malaria transmission and human population density thresholds have been used to map the crude spatial limits of Plasmodium falciparum and Plasmodium vivax transmission on a global scale. These maps suggest that 2.510 and 2.596 billion people were at possible risk of transmission of P. falciparum and P. vivax, respectively, in 2005. Globally, 75 per cent of humans who are exposed to P. falciparum risk live in only ten countries. [Copyright &y& Elsevier]

Published

2006

35. The entomological inoculation rate and Plasmodium falciparum infection in African children.

Author

Smith, D. L., Dushoff, J., Snow, R. W., and Hay, S. I.

Subjects

MALARIA, MORTALITY, PLASMODIUM falciparum, CHILDREN, PROGNOSIS, DIAGNOSIS

Abstract

Malaria is an important cause of global morbidity and mortality. The fact that some people are bitten more often than others has a large effect on the relationship between risk factors and prevalence of vector-borne diseases. Here we develop a mathematical framework that allows us to estimate the heterogeneity of infection rates from the relationship between rates of infectious bites and community prevalence. We apply this framework to a large, published data set that combines malaria measurements from more than 90 communities. We find strong evidence that heterogeneous biting or heterogeneous susceptibility to infection are important and pervasive factors determining the prevalence of infection: 20% of people receive 80% of all infections. We also find that individual infections last about six months on average, per infectious bite, and children who clear infections are not immune to new infections. The results have important implications for public health interventions: the success of malaria control will depend heavily on whether efforts are targeted at those who are most at risk of infection. [ABSTRACT FROM AUTHOR]

Published

2005

36. Negative epistasis between the malaria-protective effects of α+-thalassemia and the sickle cell trait.

Author

Williams, Thomas N., Mwangi, Tabitha W., Wambua, Sammy, Peto, Timothy E. A., Weatherall, David J., Gupta, Sunetra, Recker, Mario, Penman, Bridget S., Uyoga, Sophie, Macharia, Alex, Mwacharo, Jedidah K., Snow, Robert W., and Marsh, Kevin

Subjects

HEMOGLOBINOPATHY, HEMOGLOBIN polymorphisms, PLASMODIUM falciparum, MALARIA, THALASSEMIA, GENETIC mutation

Abstract

The hemoglobinopathies, disorders of hemoglobin structure and production, protect against death from malaria. In sub-Saharan Africa, two such conditions occur at particularly high frequencies: presence of the structural variant hemoglobin S and α+-thalassemia, a condition characterized by reduced production of the normal α-globin component of hemoglobin. Individually, each is protective against severe Plasmodium falciparum malaria, but little is known about their malaria-protective effects when inherited in combination. We investigated this question by studying a population on the coast of Kenya and found that the protection afforded by each condition inherited alone was lost when the two conditions were inherited together, to such a degree that the incidence of both uncomplicated and severe P. falciparum malaria was close to baseline in children heterozygous with respect to the mutation underlying the hemoglobin S variant and homozygous with respect to the mutation underlying α+-thalassemia. Negative epistasis could explain the failure of α+-thalassemia to reach fixation in any population in sub-Saharan Africa. [ABSTRACT FROM AUTHOR]

Published

2005

37. Malaria in Kenya's western highlands.

Author

Shanks, G. Dennis, Hay, Simon I., Omumbo, Judy A., and Snow, Robert W.

Subjects

MALARIA, FEVER, PLASMODIUM falciparum, ANOPHELES, HISTORY of epidemics, DRUG therapy for malaria, ANTIMALARIALS, COMMUNICABLE disease epidemiology, COMMUNICABLE diseases, COMPARATIVE studies, RESEARCH methodology, MEDICAL cooperation, RESEARCH, RESEARCH funding, EVALUATION research, HISTORY, THERAPEUTICS

Abstract

Records from tea estates in the Kericho district in Kenya show that malaria reemerged in the 1980s. Renewed epidemic activity coincided with the emergence of chloroquine-resistant Plasmodium falciparum malaria and may have been triggered by the failure of antimalarial drugs. Meteorologic changes, population movements, degradation of health services, and changes in Anopheles vector populations are possible contributing factors. The highland malaria epidemics of the 1940s were stopped largely by sporontocidal drugs, and combination chemotherapy has recently limited transmission. Antimalarial drugs can limit the pool of gametocytes available to infect mosquitoes during the brief transmission season. [ABSTRACT FROM AUTHOR]

Published

2005

38. Modelling malaria risk in East Africa at high-spatial resolution.

Author

Omumbo, J. A., Hay, S. I., Snow, R. W., Tatem, A. J., and Rogers, D. J.

Subjects

MALARIA, PLASMODIUM falciparum, DISCRIMINANT analysis, MULTIVARIATE analysis

Abstract

Objectives: Malaria risk maps have re-emerged as an important tool for appropriately targeting the limited resources available for malaria control. In Sub-Saharan Africa empirically derived maps using standardized criteria are few and this paper considers the development of a model of malaria risk for East Africa.Methods: Statistical techniques were applied to high spatial resolution remotely sensed, human settlement and land-use data to predict the intensity of malaria transmission as defined according to the childhood parasite ratio (PR) in East Africa. Discriminant analysis was used to train environmental and human settlement predictor variables to distinguish between four classes of PR risk shown to relate to disease outcomes in the region.Results: Independent empirical estimates of the PR were identified from Kenya, Tanzania and Uganda (n = 330). Surrogate markers of climate recorded on-board earth orbiting satellites, population settlement, elevation and water bodies all contributed significantly to the predictive models of malaria transmission intensity in the sub-region. The accuracy of the model was increased by stratifying East Africa into two ecological zones. In addition, the inclusion of urbanization as a predictor of malaria prevalence, whilst reducing formal accuracy statistics, nevertheless improved the consistency of the predictive map with expert opinion malaria maps. The overall accuracy achieved with ecological zone and urban stratification was 62% with surrogates of precipitation and temperature being among the most discriminating predictors of the PR.Conclusions: It is possible to achieve a high degree of predictive accuracy for Plasmodium falciparum parasite prevalence in East Africa using high-spatial resolution environmental data. However, discrepancies were evident from mapped outputs from the models which were largely due to poor coverage of malaria training data and the comparable spatial resolution of predictor data. These deficiencies will only be addressed by more random, intensive small areas studies of empirical estimates of PR. [ABSTRACT FROM AUTHOR]

Published

2005

39. An Immune Basis for Malaria Protection by the Sickle Cell Trait.

Author

Williams, Thomas N., Mwangi, Tabitha W., Roberts, David J., Alexander, Neal D., Weatherall, David J., Wambua, Sammy, Kortok, Moses, Snow, Robert W., and Marsh, Kevin

Subjects

MALARIA, SICKLE cell anemia, GENETIC research, PLASMODIUM falciparum, ERYTHROCYTES

Abstract

Background Malaria resistance by the sickle cell trait (genotype HbAS) has served as the prime example of genetic selection for over half a century. Nevertheless, the mechanism of this resistance remains the subject of considerable debate. While it probably involves innate factors such as the reduced ability of Plasmodium falciparum parasites to grow and multiply in HbAS erythrocytes, recent observations suggest that it might also involve the accelerated acquisition of malaria-specific immunity. Methods and Findings We studied the age-specific protection afforded by HbAS against clinical malaria in children living on the coast of Kenya. We found that protection increased with age from only 20% in the first 2 y of life to a maximum of 56% by the age of 10 y, returning thereafter to 30% in participants greater than 10 y old. Conclusions Our observations suggest that malaria protection by HbAS involves the enhancement of not only innate but also of acquired immunity to the parasite. A better understanding of the underlying mechanisms might yield important insights into both these processes. [ABSTRACT FROM AUTHOR]

Published

2005

40. The global distribution of clinical episodes of Plasmodium falciparum malaria.

Author

Snow, Robert W., Guerra, Carlos A., Noor, Abdisalan M., Myint, Hla Y., and Hay, Simon I.

Subjects

*PLASMODIUM falciparum, *MALARIA, *CLINICAL epidemiology, *WORLD health, *GEOGRAPHY, *DEMOGRAPHY, *PUBLIC health

Abstract

Interest in mapping the global distribution of malaria is motivated by a need to define populations at risk for appropriate resource allocation and to provide a robust framework for evaluating its global economic impact. Comparison of older and more recent malaria maps shows how the disease has been geographically restricted, but it remains entrenched in poor areas of the world with climates suitable for transmission. Here we provide an empirical approach to estimating the number of clinical events caused by Plasmodium falciparum worldwide, by using a combination of epidemiological, geographical and demographic data. We estimate that there were 515 (range 300-660) million episodes of clinical P. falciparum malaria in 2002. These global estimates are up to 50% higher than those reported by the World Health Organization (WHO) and 200% higher for areas outside Africa, reflecting the WHO's reliance upon passive national reporting for these countries. Without an informed understanding of the cartography of malaria risk, the global extent of clinical disease caused by P. falciparum will continue to be underestimated. [ABSTRACT FROM AUTHOR]

Published

2005

41. The relationship between the Plasmodium falciparum parasite ratio in childhood and climate estimates of malaria transmission in Kenya.

Author

Omumbo, Judith A., Hay, Simon I., Guerra, Carlos A., and Snow, Robert W.

Subjects

PLASMODIUM falciparum, PARASITES, MALARIA, SURVEYS

Abstract

Background: Plasmodium falciparum morbid and fatal risks are considerably higher in areas supporting parasite prevalence =25%, when compared with low transmission areas supporting parasite prevalence below 25%. Recent descriptions of the health impacts of malaria in Africa are based upon categorical descriptions of a climate-driven fuzzy model of suitability (FCS) for stable transmission developed by the Mapping Malaria Risk in Africa collaboration (MARA). Methods: An electronic and national search was undertaken to identify community-based parasite prevalence surveys in Kenya. Data from these surveys were matched using ArcView 3.2 to extract spatially congruent estimates of the FCS values generated by the MARA model. Levels of agreement between three classes used during recent continental burden estimations of parasite prevalence (0%, >0 - <25% and =25%) and three classes of FCS (0, >0 - <0.75 and =0.75) were tested using the kappa (k) statistic and examined as continuous variables to define better levels of agreement. Results: Two hundred and seventeen independent parasite prevalence surveys undertaken since 1980 were identified during the search. Overall agreement between the three classes of parasite prevalence and FCS was weak although significant (k = 0.367, p < 0.0001). The overall correlation between the FCS and the parasite ratio when considered as continuous variables was also positive (0.364, p < 0.001). The margins of error were in the stable, endemic (parasite ratio =25%) class with 42% of surveys represented by an FCS <0.75. Reducing the FCS value criterion to =0.6 improved the classification of stable, endemic parasite ratio surveys. Zero values of FCS were not adequate discriminators of zero parasite prevalence. Conclusion: Using the MARA model to categorically distinguish populations at differing intensities of malaria transmission in Kenya may under-represent those who are exposed to stable, endemic transmission and over-represent those at no risk. The MARA approach to defining FCS values of suitability for stable transmission represents our only contemporary continental level map of malaria in Africa but there is a need to redefine Africa's population at risk in accordance with both climatic and non-climatic determinants of P. falciparum transmission intensity to provide a more informed approach to estimating the morbid and fatal consequences of infection across the continent. [ABSTRACT FROM AUTHOR]

Published

2004

42. The effects of untreated bednets on malaria infection and morbidity on the Kenyan coast

Author

Mwangi, Tabitha W., Ross, Amanda, Marsh, Kevin, and Snow, Robert W.

Subjects

MALARIA, PLASMODIUM falciparum, SURVEYS

Abstract

A study was conducted in order to determine whether children that slept under untreated bednets were protected against both malaria infection and clinical disease compared with children not sleeping under bednets. The study was conducted in Kilifi District, Kenya, during the malaria season (June—August 2000) and involved 416 children aged ⋜ 10 years. Data collected from a cross-sectional survey showed evidence of protection against malaria infection among children sleeping under untreated bednets in good condition compared with those not using nets (adjusted odds ratio [AOR] = 0.4, 95% CI 0.22–0.72, P = 0.002). There was no evidence of a protective effect against infection when comparing those that used untreated bednets that were worn and those not using nets (AOR = 0.75, 95% CI 0.34–1.63, P = 0.47). When these same children were followed-up during the malaria season, there was evidence of a lower rate of clinical malaria among those that used untreated nets in good condition (adjusted incidence rate ratio = 0.65, 95% CI 0.45–0.94, P = 0.022), while the rate of clinical malaria among those that used untreated bednets that were worn was similar to that of those that did not use bednets. In the face of persistent failure of communities to take up net retreatment, there is hope that untreated nets will offer some protection against malaria infection and disease compared with not using nets at all. [Copyright &y& Elsevier]

Published

2003

43. The Consequences of Reducing Transmission of Plasmodium falciparum in Africa.

Author

Snow, Robert W. and Marsh, Kevin

Subjects

*PLASMODIUM falciparum, *PARASITOLOGY

Abstract

Examines the consequences of reducing transmission of Plasmodium falcifarum in Africa. Rates of pediatric malaria morbidity across the varied transmission settings of Africa; Role of direct and indirect effects of Plasmodium falcifarum on child survival.

Published

2002

44. Plasmodium falciparum Infections Are Associated with Agglutinating Antibodies to Parasite-Infected Erythrocyte Surface Antigens among Healthy Kenyan Children.

Author

Bull, Peter C., Lowe, Brett S., Kaleli, Ngumbao, Njuga, Fixton, Kortox, Moses, Ross, Amanda, Ndungu, Francis, Snow, Robert W., and Marsh, Kevin

Subjects

PLASMODIUM falciparum, IMMUNOGLOBULINS, MALARIA, CELL surface antigens

Abstract

Antibodies to the highly diverse variant surface antigens (VSAs) expressed on Plasmodium falciparum--infected erythrocytes are thought to play a role in the development of naturally acquired immunity to malaria. It has been suggested that children gradually acquire immunity through the piecemeal acquisition of antibodies to a large number of VSAs over several years of exposure. However, in a cross-sectional survey of Kenyan children before the malaria-transmission season, the proportion of children with antibodies recognizing randomly sampled VSAs was found to be strikingly higher among children with microscopically detectable P. falciparum infection, compared with those without detectable infection. We suggest that parasitization status may be an important consideration in longitudinal assessments of the protective role of some antiparasite immune responses and support this suggestion with data from a prospective study of VSA antibodies in a group of children who subsequently had severe malaria. [ABSTRACT FROM AUTHOR]

Published

2002

45. Malaria prevention in highland Kenya: indoor residual house-spraying vs. insecticide-treated bednets.

Author

Guyatt, Helen L, Corlett, Sarah K, Robinson, Timothy P, Ochola, Sam A, and Snow, Robert W

Subjects

MALARIA, PLASMODIUM falciparum

Abstract

This study compares the effectiveness and cost-effectiveness of indoor residual house-spraying (IRS) and insecticide-treated bednets (ITNs) against infection with Plasmodium falciparum as part of malaria control in the highlands of western Kenya. Homesteads operationally targeted for IRS and ITNs during a district-based emergency response undertaken by an international relief agency were selected at random for evaluation. Five hundred and ninety homesteads were selected (200 with no vector control, 200 with IRS and 190 with ITNs). In July 2000, residents in these homesteads were randomly sampled according to three age-groups: 6 months-4 years, 5-15 years, and > 15 years for the presence of P. falciparum antigen (Pf HRP-2) using the rapid whole blood immunochromatographic test (ICT). The prevalence of P. falciparum infection amongst household members not protected by either IRS or ITN was 13%. Sleeping under a treated bednet reduced the risk of infection by 63% (58-68%) and sleeping in a room sprayed with insecticide reduced the risk by 75% (73-76%). The economic cost per infection case prevented by IRS was US$ 9 compared to US$ 29 for ITNs. This study suggests that IRS may be both more effective and cheaper than ITNs in communities subjected to low, seasonal risks of infection and as such should be considered as part of the control armamentarium for malaria prevention. [ABSTRACT FROM AUTHOR]

Published

2002

46. Relation between severe malaria morbidity in children and level of Plasmodium falciparum transmissio

Author

Snow, Robert W. and Omumbo, Judy A.

Subjects

*JUVENILE diseases, *MALARIA, *PLASMODIUM falciparum

Abstract

Attempts to discern the relationship between pediatric admissions with severe malaria and the level of Plasmodium falciparum in The Gambia and Kenya. Methods; Findings; Interpretation.

Published

1997

47. Global malaria eradication and the importance of Plasmodium falciparum epidemiology in Africa.

Author

Snow, Robert W.

Subjects

*MALARIA prevention, *EPIDEMIOLOGICAL research, *PLASMODIUM falciparum, *PROTOZOAN diseases

Abstract

The global agenda for malaria has, once again, embraced the possibility of eradication. As history has shown, there will be no single magic bullet that can be applied to every epidemiological setting. Africa has a diverse malaria ecology, lending itself to some of the highest disease burden areas of the world and a wide range of clinical epidemiological patterns making control with our current tools challenging. This commentary highlights why the epidemiology of malaria in Africa should not be forgotten when planning an eradication Plasmodium falciparum strategy, and why forgetting Africa will, once again, be the single largest threat to any hope for global eradication. [ABSTRACT FROM AUTHOR]

Published

2015

48. Modelling and mapping the intra-urban spatial distribution of Plasmodium falciparum parasite rate using very-high-resolution satellite derived indicators.

Author

Georganos, Stefanos, Brousse, Oscar, Dujardin, Sébastien, Linard, Catherine, Casey, Daniel, Milliones, Marco, Parmentier, Benoit, van Lipzig, Nicole P. M., Demuzere, Matthias, Grippa, Tais, Vanhuysse, Sabine, Mboga, Nicholus, Andreo, Verónica, Snow, Robert W., and Lennert, Moritz

Subjects

PLASMODIUM falciparum, SQUATTER settlements, URBAN density, CITY dwellers, NEIGHBORHOODS, URBAN agriculture, RURAL-urban migration, AGE groups

Abstract

Background: The rapid and often uncontrolled rural–urban migration in Sub-Saharan Africa is transforming urban landscapes expected to provide shelter for more than 50% of Africa's population by 2030. Consequently, the burden of malaria is increasingly affecting the urban population, while socio-economic inequalities within the urban settings are intensified. Few studies, relying mostly on moderate to high resolution datasets and standard predictive variables such as building and vegetation density, have tackled the topic of modeling intra-urban malaria at the city extent. In this research, we investigate the contribution of very-high-resolution satellite-derived land-use, land-cover and population information for modeling the spatial distribution of urban malaria prevalence across large spatial extents. As case studies, we apply our methods to two Sub-Saharan African cities, Kampala and Dar es Salaam. Methods: Openly accessible land-cover, land-use, population and OpenStreetMap data were employed to spatially model Plasmodium falciparum parasite rate standardized to the age group 2–10 years (PfPR2–10) in the two cities through the use of a Random Forest (RF) regressor. The RF models integrated physical and socio-economic information to predict PfPR2–10 across the urban landscape. Intra-urban population distribution maps were used to adjust the estimates according to the underlying population. Results: The results suggest that the spatial distribution of PfPR2–10 in both cities is diverse and highly variable across the urban fabric. Dense informal settlements exhibit a positive relationship with PfPR2–10 and hotspots of malaria prevalence were found near suitable vector breeding sites such as wetlands, marshes and riparian vegetation. In both cities, there is a clear separation of higher risk in informal settlements and lower risk in the more affluent neighborhoods. Additionally, areas associated with urban agriculture exhibit higher malaria prevalence values. Conclusions: The outcome of this research highlights that populations living in informal settlements show higher malaria prevalence compared to those in planned residential neighborhoods. This is due to (i) increased human exposure to vectors, (ii) increased vector density and (iii) a reduced capacity to cope with malaria burden. Since informal settlements are rapidly expanding every year and often house large parts of the urban population, this emphasizes the need for systematic and consistent malaria surveys in such areas. Finally, this study demonstrates the importance of remote sensing as an epidemiological tool for mapping urban malaria variations at large spatial extents, and for promoting evidence-based policy making and control efforts. [ABSTRACT FROM AUTHOR]

Published

2020

49. Observational study: 27 years of severe malaria surveillance in Kilifi, Kenya.

Author

Njuguna, Patricia, Maitland, Kathryn, Nyaguara, Amek, Mwanga, Daniel, Mogeni, Polycarp, Mturi, Neema, Mohammed, Shebe, Mwambingu, Gabriel, Ngetsa, Caroline, Awuondo, Kenedy, Lowe, Brett, Adetifa, Ifedayo, Scott, J. Anthony G., Williams, Thomas N., Atkinson, Sarah, Osier, Faith, Snow, Robert W., Marsh, Kevin, Tsofa, Benjamin, and Peshu, Norbert

Subjects

CEREBRAL malaria, MALARIA, SCIENTIFIC observation, PLASMODIUM falciparum, DISEASE risk factors

Abstract

Background: Many parts of Africa have witnessed reductions in Plasmodium falciparum transmission over the last 15 years. Since immunity to malaria is acquired more rapidly at higher transmission, the slower acquisition of immunity at lower transmission may partially offset the benefits of reductions in transmission. We examined the clinical spectrum of disease and predictors of mortality after sustained changes in transmission intensity, using data collected from 1989 to 2016.Methods: We conducted a temporal observational analysis of 18,000 children, aged 14 days to 14 years old, who were admitted to Kilifi County Hospital, Kenya, from 1989 to 2016 with malaria. We describe the trends over time of the clinical and laboratory criteria for severe malaria and associated risk of mortality.Results: During the time periods 1989-2003, 2004-2008, and 2009-2016, Kilifi County Hospital admitted averages of 657, 310, and 174 cases of severe malaria per year including averages of 48, 14, and 12 malaria-associated deaths per year, respectively. The median ages in years of children admitted with cerebral malaria, severe anaemia, and malaria-associated mortality were 3.0 (95% confidence interval (CI) 2.2-3.9), 1.1 (95% CI 0.9-1.4), and 1.1 (95% CI 0.3-2.2) in the year 1989, rising to 4.9 (95% CI 3.9-5.9), 3.8 (95% CI 2.5-7.1), and 5 (95% CI 3.3-6.3) in the year 2016. The ratio of children with cerebral malaria to severe anaemia rose from 1:2 before 2004 to 3:2 after 2009. Hyperparasitaemia was a risk factor for death after 2009 but not in earlier time periods.Conclusion: Despite the evidence of slower acquisition of immunity, continued reductions in the numbers of cases of severe malaria resulted in lower overall mortality. Our temporal data are limited to a single site, albeit potentially applicable to a secular trend present in many parts of Africa. [ABSTRACT FROM AUTHOR]

Published

2019

50. Trends of <italic>Plasmodium falciparum</italic> prevalence in two communities of Muheza district North-eastern Tanzania: correlation between parasite prevalence, malaria interventions and rainfall in the context of re-emergence of malaria after two decades of progressively declining transmission

Author

Ishengoma, Deus S., Mmbando, Bruno P., Mandara, Celine I., Chiduo, Mercy G., Francis, Filbert, Timiza, Wilbert, Msemo, Hellen, Kijazi, Agnes, Lemnge, Martha M., Malecela, Mwelecele N., Snow, Robert W., Alifrangis, Michael, and Bygbjerg, Ib C.

Subjects

PLASMODIUM falciparum, DISEASE prevalence, MALARIA prevention, MALARIA treatment, MALARIA transmission

Abstract

Background: Although the recent decline of malaria burden in some African countries has been attributed to a scale-up of interventions, such as bed nets (insecticide-treated bed nets, ITNs/long-lasting insecticidal nets, LLINs), the contribution of other factors to these changes has not been rigorously assessed. This study assessed the trends of Plasmodium falciparum prevalence in Magoda (1992–2017) and Mpapayu (1998–2017) villages of Muheza district, North-eastern Tanzania, in relation to changes in the levels of different interventions and rainfall patterns. Methods: Individuals aged 0–19 years were recruited in cross-sectional surveys to determine the prevalence of P. falciparum infections in relation to different malaria interventions deployed, particularly bed nets and anti-malarial drugs. Trends and patterns of rainfall in Muheza for 35 years (from 1981 to 2016) were assessed to determine changes in the amount and pattern of rainfall and their possible impacts on P. falciparum prevalence besides of those ascribed to interventions. Results: High prevalence (84–54%) was reported between 1992 and 2000 in Magoda, and 1998 and 2000 in Mpapayu, but it declined sharply from 2001 to 2004 (from 52.0 to 25.0%), followed by a progressive decline between 2008 and 2012 (to ≤ 7% in both villages). However, the prevalence increased significantly from 2013 to 2016 reaching ≥ 20.0% in 2016 (both villages), but declined in the two villages to ≤ 13% in 2017. Overall and age specific P. falciparum prevalence decreased in both villages over the years but with a peak prevalence shifting from children aged 5–9 years to those aged 10–19 years from 2008 onwards. Bed net coverage increased from < 4% in 1998 to > 98% in 2001 and was ≥ 85.0% in 2004 in both villages; followed by fluctuations with coverage ranging from 35.0 to ≤ 98% between 2008 and 2017. The 12-month weighted anomaly standardized precipitation index showed a marked rainfall deficit in 1990–1996 and 1999–2010 coinciding with declining prevalence and despite relatively high bed net coverage from 2000. From 1992, the risk of infection decreased steadily up to 2013 when the lowest risk was observed (RR = 0.07; 95% CI 0.06–0.08, P < 0.001), but it was significantly higher during periods with positive rainfall anomalies (RR = 2.79; 95% CI 2.23–3.50, P < 0.001). The risk was lower among individuals not owning bed nets compared to those with nets (RR = 1.35; 95% CI 1.22–1.49, P < 0.001). Conclusions: A decline in prevalence up to 2012 and resurgence thereafter was likely associated with changes in monthly rainfall, offset against changing malaria interventions. A sustained surveillance covering multiple factors needs to be undertaken and climate must be taken into consideration when relating control interventions to malaria prevalence. [ABSTRACT FROM AUTHOR]

Published

2018