论文信息 - Identification of hot spots of malaria transmission for targeted malaria control.

Identification of hot spots of malaria transmission for targeted malaria control.

BACKGROUND Variation in the risk of malaria within populations is a frequently described but poorly understood phenomenon. This heterogeneity creates opportunities for targeted interventions but only if hot spots of malaria transmission can be easily identified. METHODS We determined spatial patterns in malaria transmission in a district in northeastern Tanzania, using malaria incidence data from a cohort study involving infants and household-level mosquito sampling data. The parasite prevalence rates and age-specific seroconversion rates (SCRs) of antibodies against Plasmodium falciparum antigens were determined in samples obtained from people attending health care facilities. RESULTS Five clusters of higher malaria incidence were detected and interpreted as hot spots of transmission. These hot spots partially overlapped with clusters of higher mosquito exposure but could not be satisfactorily predicted by a probability model based on environmental factors. Small-scale local variation in malaria exposure was detected by parasite prevalence rates and SCR estimates for samples of health care facility attendees. SCR estimates were strongly associated with local malaria incidence rates and predicted hot spots of malaria transmission with 95% sensitivity and 85% specificity. CONCLUSIONS Serological markers were able to detect spatial variation in malaria transmission at the microepidemiological level, and they have the potential to form an effective method for spatial targeting of malaria control efforts.

[1] Grant Dorsey,et al. Short report: proximity to mosquito breeding sites as a risk factor for clinical malaria episodes in an urban cohort of Ugandan children. , 2003, The American journal of tropical medicine and hygiene.

[2] R. Snow,et al. Heritability of Malaria in Africa , 2005, PLoS medicine.

[3] S. Hay,et al. The Malaria Atlas Project: Developing Global Maps of Malaria Risk , 2006, PLoS medicine.

[4] S. P. Kachur,et al. Is there evidence for dual causation between malaria and socioeconomic status? Findings from rural Tanzania. , 2007, The American journal of tropical medicine and hygiene.

[5] B. Greenwood,et al. The microepidemiology of malaria and its importance to malaria control. , 1989, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[6] M Tanner,et al. Mapping the densities of malaria vectors within a single village. , 1995, Acta tropica.

[7] David L Smith,et al. Measuring malaria endemicity from intense to interrupted transmission , 2008, The Lancet. Infectious diseases.

[8] K. Mendis,et al. Spatial targeting of interventions against malaria. , 2000, Bulletin of the World Health Organization.

[9] C. Rogier,et al. Malaria attacks in children exposed to high transmission: who is protected? , 1993, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[10] T. Burkot,et al. Field evaluation of enzyme-linked immunosorbent assays for Plasmodium falciparum and Plasmodium vivax sporozoites in mosquitoes (Diptera: Culicidae) from Papua New Guinea. , 1987, Journal of medical entomology.

[11] C. Mendis,et al. Clustering of malaria infections within an endemic population: risk of malaria associated with the type of housing construction. , 1991, The American journal of tropical medicine and hygiene.

[12] T. Bousema,et al. Spatial and temporal variation in malaria transmission in a low endemicity area in northern Tanzania , 2006, Malaria Journal.

[13] R. Snow,et al. Effect of expanded insecticide-treated bednet coverage on child survival in rural Kenya: a longitudinal study , 2007, The Lancet.

[14] A. Ghani,et al. Rapid Assessment of Malaria Transmission Using Age-Specific Sero-Conversion Rates , 2009, PloS one.

[15] M. Tanner,et al. Health and survival of young children in southern Tanzania , 2008, BMC Public Health.

[16] Q. Bassat,et al. Duration of protection with RTS,S/AS02A malaria vaccine in prevention of Plasmodium falciparum disease in Mozambican children: single-blind extended follow-up of a randomised controlled trial , 2005, The Lancet.

[17] E. Seto,et al. Factors determining the heterogeneity of malaria incidence in children in Kampala, Uganda. , 2008, The Journal of infectious diseases.

[18] J. Kihonda,et al. Short report: Influence of centers for disease control light trap position, relative to a human-baited bed net, on catches of Anopheles gambiae and Culex quinquefasciatus in Tanzania. , 1998, The American journal of tropical medicine and hygiene.

[19] Abdullah S Ali,et al. Impact of Artemisinin-Based Combination Therapy and Insecticide-Treated Nets on Malaria Burden in Zanzibar , 2007, PLoS medicine.

[20] O. Miettinen,et al. Evaluation of diagnostic imaging tests: diagnostic probability estimation. , 1998, Journal of clinical epidemiology.

[21] Chris Drakeley,et al. Serology: a robust indicator of malaria transmission intensity? , 2007, Trends in parasitology.

[22] T. Bousema,et al. Overuse of artemisinin-combination therapy in Mto wa Mbu (river of mosquitoes), an area misinterpreted as high endemic for malaria , 2008, Malaria Journal.

[23] V. Machault,et al. Highly focused anopheline breeding sites and malaria transmission in Dakar , 2009, Malaria Journal.

[24] J. Trape,et al. Vector density gradients and the epidemiology of urban malaria in Dakar, Senegal. , 1992, The American journal of tropical medicine and hygiene.

[25] Du Jianwei,et al. Global malaria control and elimination: report of a technical review. , 2010 .

[26] M. Vaillant,et al. Relationship between entomological inoculation rate, Plasmodium falciparum prevalence rate, and incidence of malaria attack in rural Gabon. , 2003, Acta tropica.

[27] K. Marsh,et al. Analysis of Immunity to Febrile Malaria in Children That Distinguishes Immunity from Lack of Exposure , 2009, Infection and Immunity.

[28] C. Dye,et al. Heterogeneities in the transmission of infectious agents: implications for the design of control programs. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[29] David L Smith,et al. Revisiting the Basic Reproductive Number for Malaria and Its Implications for Malaria Control , 2007, PLoS biology.

[30] R. Snow,et al. Evidence for Over-Dispersion in the Distribution of Clinical Malaria Episodes in Children , 2008, PloS one.

[31] R. Snow,et al. Case definitions of clinical malaria under different transmission conditions in Kilifi District, Kenya. , 2005, The Journal of infectious diseases.

[32] M. Alpers,et al. Spatial and temporal variation in abundance of Anopheles (Diptera:Culicidae) in a malaria endemic area in Papua New Guinea. , 1997, Journal of medical entomology.

[33] J. Cox,et al. Estimating medium- and long-term trends in malaria transmission by using serological markers of malaria exposure. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[34] Teun Bousema,et al. Dried blood spots as a source of anti-malarial antibodies for epidemiological studies , 2008, Malaria Journal.

[35] W. Takken,et al. Identifying the most productive breeding sites for malaria mosquitoes in The Gambia , 2009, Malaria Journal.

[36] D. Chandramohan,et al. Protective efficacy and safety of three antimalarial regimens for intermittent preventive treatment for malaria in infants: a randomised, double-blind, placebo-controlled trial , 2009, The Lancet.

[37] C. Curtis,et al. Variation of malaria transmission and morbidity with altitude in Tanzania and with introduction of alphacypermethrin treated nets , 2003, Malaria Journal.

[38] T. Theander,et al. Eleven years of malaria surveillance in a Sudanese village highlights unexpected variation in individual disease susceptibility and outbreak severity , 2004, Parasitology.

[39] Jean Gaudart,et al. Space-time clustering of childhood malaria at the household level: a dynamic cohort in a Mali village , 2006, BMC public health.

[40] T. Williams,et al. Human red blood cell polymorphisms and malaria. , 2006, Current opinion in microbiology.

[41] L. Pritchett,et al. Estimating Wealth Effects Without Expenditure Data—Or Tears: An Application To Educational Enrollments In States Of India* , 2001, Demography.

[42] L. Molineaux,et al. The Garki project: Research on the epidemiology and control of malaria in the Sudan savanna of West Africa , 1980 .

[43] Shona Wilson,et al. Age-adjusted Plasmodium falciparum antibody levels in school-aged children are a stable marker of microgeographical variations in exposure to Plasmodium infection , 2007, BMC infectious diseases.

[44] S. Adjei,et al. Spatial variation of malaria incidence in young children from a geographically homogeneous area with high endemicity. , 2008, The Journal of infectious diseases.

[45] M. Tanner,et al. An estimation of the entomological inoculation rate for Ifakara: a semi‐urban area in a region of intense malaria transmission in Tanzania , 2003, Tropical medicine & international health : TM & IH.