. "2 Vector-Borne Disease Detection and Control." Vector-Borne Diseases: Understanding the Environmental, Human Health, and Ecological Connections, Workshop Summary (Forum on Microbial Threats). Washington, DC: The National Academies Press, 2008.
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Vector-Borne Diseases: Understanding the Environmental, Human Health, and Ecological Connections - Workshop Summary
Ali, M., Y. Wagatsuma, M. Emch, and R. F. Breiman. 2003. Use of a geographic information system for defining spatial risk for dengue transmission in Bangladesh: role for Aedes albopictus in an urban outbreak. American Journal of Tropical Medicine and Hygiene 69(6):634-640.
Alilio, M. S., I. C. Bygbjerg, and J. G. Breman. 2004. Are multilateral malaria research and control programs the most successful? Lessons from the past 100 years in Africa. American Journal ofTropical Medicine and Hygiene 71(Suppl 2):268-278.
Anderson, D. E., O. J. Rongstad, and W. R. Mytton. 1989. Response of nesting red-tailed hawks to helicopter overflights. Condor 91(2):296-299.
Anderson, G. A., J. L. Stott, L. J. Gershwin, and B. I. Osburn. 1985. Subclinical and clinical bluetongue disease in cattle: clinical, pathological and pathogenic considerations. Progress in Clinical and Biological Research 178:103-107.
Anderson, R., and R. May. 1991. Infectious diseases of humans. Oxford, UK: Oxford University Press. P. 735.
Antonio-Nkondjio, C., P. wono-Ambene, J. C. Toto, J. Y. Meunier, S. Zebaze-Kemleu, R. Nyambam, C. S. Wondji, T. Tchuinkam, and D. Fontenill. 2002. High malaria transmission intensity in a village close to Yaoundé, the capital city of Cameroon. Journal of Medical Entomology 39(2):350-355.
Anyamba, A., J. P. Chretien, P. B. Formenty, J. Small, C. J. Tucker, J. L. Malone, H. El Bushra, V. Martin, and K. J. Linthicum. 2006a. Rift Valley fever potential, Arabian Peninsula. EmergingInfectious Diseases 12(3):518-520.
Anyamba, A., J. P. Chretien, J. Small, C. J. Tucker, and K. J. Linthicum. 2006b. Developing global climate anomalies suggest potential disease risks for 2006-2007. International Journal of HealthGeographics 5:60.
Arrivillaga, J., and R. Barrera. 2004. Food as a limiting factor for Aedes aegypti in water-storage containers. Journal Vector Ecology 29(1):11-20.
Attaran, A. 2004. Malaria: where did it all go wrong? Nature 430(7002):932-933.
Attaran, A., D. R. Roberts, C. F. Curtis, and W. L. Kilama. 2000. Balancing risks on the backs of the poor. Nature Medicine 6(7):729-731.
Bailey, N. T. J. 1982. The Biomathematics of Malaria. London, UK: Griffen.
Bang, Y. H., D. N. Brown, and A. O. Onwubiko. 1981. Prevalence of potential yellow fever vectors in domestic water containers in south-east Nigeria. Bulletin of the World Health Organization 59(1):107-114.
Baylis, M., L. O’Connell, and B. V. Purse. 2004. Modelling the distribution of bluetongue vectors. Veterinaria Italiana 40(3):176-181.
Beaty, B. J. 2000. Genetic manipulation of vectors: a potential novel approach for control of vector-borne diseases. Proceedings of the National Academy of Sciences 97(19):10295-10297.
Beaty, B. J., and L. Eisen. 2008. Control of vector-borne diseases—the IOM recommendations to address needs and opportunities involving vector-borne disease surveillance, prevention, and control. In Vector-borne diseases: understanding the environmental, human health, and ecological connections. Washington, DC: The National Academies Press.
Bell, A. S., and L. C. Ranford-Cartwright. 2004. A real-time PCR assay for quantifying Plasmodium falciparum infections in the mosquito vector. International Journal for Parasitology 34(7):795-802.
Biggerstaff, B. J., and L. R. Petersen. 2003. Estimated risk of transmission of the West Nile virus through blood transfusion in the U.S., 2002. Transfusion 43(8):1007-1017.
Bird, B. H., M. L. Khristova, P. E. Rollin, T. G. Ksiazek, and S. T. Nichol. 2007. Complete genome analysis of 33 ecologically and biologically diverse Rift Valley fever virus strains reveals widespread virus movement and low genetic diversity due to recent common ancestry. Journal ofVirology 81(6):2805-2816.