Search results for "Infectious Disease Modeling"

showing 3 items of 3 documents

Invasion Ability and Disease Dynamics of Environmentally Growing Opportunistic Pathogens under Outside-Host Competition

2014

Most theories of the evolution of virulence concentrate on obligatory host-pathogen relationship. Yet, many pathogens replicate in the environment outside-host where they compete with non-pathogenic forms. Thus, replication and competition in the outside-host environment may have profound influence on the evolution of virulence and disease dynamics. These environmentally growing opportunistic pathogens are also a logical step towards obligatory pathogenicity. Efficient treatment methods against these diseases, such as columnaris disease in fishes, are lacking because of their opportunist nature. We present a novel epidemiological model in which replication and competition in the outside-hos…

Bacterial Diseases0106 biological sciencesPopulation ModelingDisease01 natural sciencesTheoretical EcologyMedicine and Health SciencesPathogenPOPULATIONmedia_common0303 health scienceseducation.field_of_studyPREDATIONMultidisciplinaryEcologyTransmission (medicine)EcologySimulation and ModelingQRCHANNEL CATFISHEVOLUTIONARY DYNAMICSCOMMUNITYInfectious DiseasesHost-Pathogen Interactions1181 Ecology evolutionary biologyMedicineAlgorithmsResearch ArticleTRANSMISSIONSciencemedia_common.quotation_subjecteducationPopulationVirulenceOpportunistic InfectionsBiologyResearch and Analysis Methods010603 evolutionary biologyCompetition (biology)03 medical and health sciences14. Life underwaterParasite EvolutioneducationEvolutionary dynamicsta413030304 developmental biologyEvolutionary BiologyMathematical ModelingSTABILITYMORTALITYEcology and Environmental SciencesBiology and Life SciencesComputational BiologyFLAVOBACTERIUM-COLUMNAREOutbreakModels TheoreticalEmerging Infectious DiseasesEvolutionary Ecologyta1181VIRULENCEParasitologyInfectious Disease ModelingPLoS ONE
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Outside-host growth of pathogens attenuates epidemiological outbreaks.

2012

Opportunist saprotrophic pathogens differ from obligatory pathogens due to their capability in host-independent growth in environmental reservoirs. Thus, the outside-host environment potentially influences host-pathogen dynamics. Despite the socio-economical importance of these pathogens, theory on their dynamics is practically missing. We analyzed a novel epidemiological model that couples outside-host density-dependent growth to host-pathogen dynamics. Parameterization was based on columnaris disease, a major hazard in fresh water fish farms caused by saprotrophic Flavobacterium columnare. Stability analysis and numerical simulations revealed that the outside-host growth maintains high pr…

Fresh water fishEpidemiologySciencePopulation DynamicsFisheriesPopulation ModelingFresh WaterAquacultureFlavobacteriumModels BiologicalMicrobiologyInfectious Disease EpidemiologyDisease Outbreaks03 medical and health sciencesFish DiseasesFlavobacteriaceae InfectionsAnimalsComputer SimulationDisease DynamicsBiology030304 developmental biologyDisease Reservoirs0303 health sciencesMultidisciplinarybiologyPopulation Biology030306 microbiologyEcologyHost (biology)QColumnaris diseaseRFishesOutbreakComputational BiologyAgriculturebiology.organism_classificationHost-Pathogen InteractionInfectious DiseasesFlavobacterium columnareHost-Pathogen InteractionsMedicineFish FarmingInfectious Disease ModelingResearch ArticlePloS one
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CANDIDA ALBICANS INDUCES SELECTIVE DEVELOPMENT OF MACROPHAGES AND MONOCYTE DERIVED DENDRITIC CELLS BY A TLR2 DEPENDENT SIGNALLING

2011

As TLRs are expressed by haematopoietic stem and progenitor cells (HSPCs), these receptors may play a role in haematopoiesis in response to pathogens during infection. We have previously demonstrated that in in vitro defined conditions inactivated yeasts and hyphae of Candida albicans induce HSPCs proliferation and differentiation towards the myeloid lineage by a TLR2/MyD88 dependent pathway. In this work, we showed that C. albicans invasive infection with a low virulence strain results in a rapid expansion of HSPCs (identified as LKS cells: Lin(-) c-Kit(+) Sca-1(+) IL-7R alpha(-)), that reach the maximum at day 3 post-infection. This in vivo expansion of LKS cells in TLR2(-/-) mice was del…

MaleImmune CellsCellular differentiationImmunologylcsh:MedicineMycologyMicrobiologyMonocytesMiceCandida albicansAnimalsLymphopoiesisProgenitor celllcsh:ScienceCandida albicansBiologyImmune ResponseCells CulturedMice KnockoutMultidisciplinarybiologyMacrophageslcsh:RFungal DiseasesCandidiasisCell DifferentiationHematologyDendritic CellsFlow Cytometrybiology.organism_classificationToll-Like Receptor 2Corpus albicansHematopoiesisCell biologyHost-Pathogen InteractionToll-Like Receptor 4HaematopoiesisTLR2Infectious DiseasesMyeloid Differentiation Factor 88Medicinelcsh:QFemaleStem cellInfectious Disease ModelingResearch ArticleSignal Transduction
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