The overall goal for this Administrative Core (Core A) is to provide effective administrative and scientific management to facilitate Interdisciplinary integration of the research and training activities developed under this ICEMR program. Core A will provide support to Project 1 on epidemiology, Project 2 on transmission and Project 3 on pathogenesis and their articulation with the DM Core (Core B). Organizationally, the ICEMR will be administered by the Caucaseco Scientific Research Center (CAUCASECO SRC) under the direction of Dr. Socrates Herrera, who will have the responsibility to articulate and guarantee an efficient communication among the PLs and CLs for Core B and C. CAUCASECO SRC will be legally and financially accountable for the use of funds for this ICEMR and will be responsible for all necessary administrative functions. Core A will contribute to the activities assigned to the Program Director (PD), the PLs and the CLs, as well as to all training activities and the special projects, promoting effective administrative and scientific management for team building. This includes key elements that will help us meet the overall goal of this ICEMR for establishment of the Centro Latino Americano de Investigacion en Malaria-CLAIM that will provide the necessary knowledge, tools, and evidence-based strategies for use by the National Malaria Control Program (NMCP) of the partner countries in this project. Core A will ensure an efficient communication with a "common language" among scientists, experts in diverse disciplines and staff members ofthe NMCP, and with endemic communities. It will ensure the accomplishment of the project milestones within the proposed timelines and promote creative interdisciplinary approaches to tackle critical features responsible for malaria transmission maintenance that cannot be solved through standard disciplinary approaches. Moreover, it will promote partnerships with government officials and stakeholders in the partner countries as a means for fast-tracking research results into translational steps towards malaria elimination. Models emerging from CLAIM activities will have broader regional and global applications for solving major malaria disease problems. Our emphasis on high-impact interdisciplinary science will have a direct impact on local, regional, and global policy related to the control of diseases. Accordingly these significant goals, strategies, and outcomes require the full scope of activities described. Core A team has the necessary background and experience to provide effective leadership for this program project. Nevertheless, we will promote coordination and integration of Projects and Cores by working interactively with the NIAID program staff, and will remain flexible enough to implement changes when needed to better serve the overall ICEMR team. As we have demonstrated in past NIH projects with significant international components, the design of our scientific management plan will promote a solid foundation for facilitating interdisciplinary collaboration and scientific productivity.
This core will play a key role on effective administrative and scientific management to facilitate interdisciplinary integration ofthe research and training activities developed under this ICEMR program.
|Forero, David A; Chaparro, Pablo E; Vallejo, Andres F et al. (2014) Knowledge, attitudes and practices of malaria in Colombia. Malar J 13:165|
|Fuller, D O; Troyo, A; Alimi, T O et al. (2014) Participatory Risk Mapping of Malaria Vector Exposure in Northern South America using Environmental and Population Data. Appl Geogr 48:1-7|
|Schneider, Kristan A; Escalante, Ananias A (2014) A likelihood approach to estimate the number of co-infections. PLoS One 9:e97899|
|Kim, Yuseob; Escalante, Ananias A; Schneider, Kristan A (2014) A population genetic model for the initial spread of partially resistant malaria parasites under anti-malarial combination therapy and weak intrahost competition. PLoS One 9:e101601|
|Herrera, Sócrates; Vallejo, Andrés F; Quintero, Juan P et al. (2014) Field evaluation of an automated RDT reader and data management device for Plasmodium falciparum/Plasmodium vivax malaria in endemic areas of Colombia. Malar J 13:87|
|Naranjo, Diana P; Qualls, Whitney A; Jurado, Hugo et al. (2014) Vector control programs in Saint Johns County, Florida and Guayas, Ecuador: successes and barriers to integrated vector management. BMC Public Health 14:674|
|Céspedes, Nora; Jiménez, Eliécer; Lopez-Perez, Mary et al. (2014) Antigenicity and immunogenicity of a novel Plasmodium vivax circumsporozoite derived synthetic vaccine construct. Vaccine 32:3179-86|
|Chamchod, Farida; Beier, John C (2013) Modeling Plasmodium vivax: relapses, treatment, seasonality, and G6PD deficiency. J Theor Biol 316:25-34|
|Taylor, Jesse E; Pacheco, M Andreina; Bacon, David J et al. (2013) The evolutionary history of Plasmodium vivax as inferred from mitochondrial genomes: parasite genetic diversity in the Americas. Mol Biol Evol 30:2050-64|
|Rice, Benjamin L; Acosta, Monica M; Pacheco, Maria Andreina et al. (2013) Merozoite surface protein-3 alpha as a genetic marker for epidemiologic studies in Plasmodium vivax: a cautionary note. Malar J 12:288|
Showing the most recent 10 out of 23 publications