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| Systems-level genetic patterns underlying disseminated coccidioidomycosis in humans 项目 项目编号: 1R21AI152394-01. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2020-2022 负责人: LUSSIER, YVES A. 收藏  |  浏览/下载:5/0  |  提交时间:2021/08/12 Acute Address adverse outcome African American Alleles Automobile Driving Biochemical Biological Biological Process Biology bone Brain Candidate Disease Gene Caring Case Study Categories causal variant Chronic Clinical clinical care Coccidioides Coccidioidomycosis Code cohort Communicable Diseases Complex Data Databases desert fever design Disease Disease susceptibility DNA Emerging Communicable Diseases Equilibrium Exogenous Factors exome exome sequencing experience Filipino flu Foundations fungus Gene Expression Gene Mutation Genes Genetic genetic architecture Genetic Heterogeneity Genetic Predisposition to Disease genetic risk factor Genetic Variation genome-wide genome-wide analysis Genotype genotyped patients Guidelines Haplotypes Heterogeneity high risk HLA Antigens Human Human Genetics human leukocyte antigen testing IFNGR1 gene IL12RB1 gene Immune Immune response Immune system Immunocompetent Immunogenetics Immunological Models Immunosuppression Infection Inhalation insight Knowledge Life Lung Medical Modeling Molecular Mutation Mycoses National Institute of Allergy and Infectious Disease novel Organ Participant pathogen pathogen exposure Pathogenesis pathogenic fungus Pathology Pathway Analysis Pathway interactions Patients Pattern Phenotype Play Pneumonia Positioning Attribute Predisposition Proteins Quantitative Trait Loci rare variant Recommendation recruit Resistance Resources response Risk risk variant Role Sample Size Sampling Studies Signal Transduction Skin Soil STAT1 gene STAT3 gene Stimulus Symptoms System Systems Analysis Testing Therapeutic Time Variant whole genome |
| Apply an imaging flow cytometry method to screen chemical libraries for identifying and repurposing novel drugs against coccidioidomycosis 项目 项目编号: 1R21AI149015-01. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2020-2021 负责人: HUNG, CHIUNG YU 收藏  |  浏览/下载:6/0  |  提交时间:2021/08/12 acute infection Adverse effects Affect Americas Amphotericin B Animals Antifungal Agents Antimicrobial Resistance Area base Biological Assay Caliber Caspofungin Cell Membrane Permeability Cell Wall Cells chemotherapy Clinical Coccidioides Coccidioides immitis Coccidioides posadasii Coccidioidomycosis Communities Containment Contracts cost Cryptococcus Cryptococcus neoformans Cytochrome P450 Cytology cytotoxicity Data Databases desert fever Development Diagnosis Disease Dose drug development Drug usage drug use screening Flow Cytometry Fluconazole follow-up fungus Goals Government Growth Hand Human Hyphae Image In Vitro in vivo Incubated indexing Infection Inhalation insight Lead Legal patent Libraries Life Cycle Stages Lower respiratory tract structure Lung Lung diseases Medical Medical Research Meningitis Methods Mexico Microscope Morphology Motivation Mycoses Neuraxis novel novel strategies novel therapeutics off-patent pathogen pathogenic fungus Patients Pharmaceutical Preparations Pharmacology Phase IV Clinical Trials Phenotype Pneumonia preclinical development prevent Process Property Reporting Reproduction spores Research Personnel resistant strain Resolution screening small molecule libraries Soil South America Southwestern United States Speed success Symptoms synergism Techniques Testing The science of Mycology Time Toxic effect United States United States National Institutes of Health Vaccines |
| Understanding the natural Coccidioides bioaerosol in time and space and its relationship to disease 项目 项目编号: 1R21AI149660-01. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2020-2022 负责人: ENGELTHALER, DAVID M 收藏  |  浏览/下载:6/0  |  提交时间:2021/08/12 Address Aerosols Affect Air air filter air sampling Animals Area beta diversity Biological Assay Canis familiaris Climate climate change Coccidioides Coccidioidomycosis Collection Communities Community Health Data desert fever Detection Development Disease disease natural history disorder risk DNA Dust Ecology Environment Environmental Monitoring Environmental Risk Factor Environmental Wind epidemiologic data Epidemiology Event exposed human population Exposure to Fungal DNA Fungal Spores fungus Genomics Health Health Care Costs healthcare community Human Human Activities Humidity Incidence Infection Inhalation Knowledge knowledge base Locales Location Meteorology metropolitan microbiome analysis Modeling Monitor Morbidity - disease rate Movement Multivariate Analysis mycobiome Nature novel strategies Outcome Particulate Matter pathogen pathogenic fungus Pattern Population Precipitation predictive modeling Prevalence process optimization prospective Public Health Recreation Research Research Personnel Risk Risk Factors risk mitigation Schools severe weather Site Soil Source Southwestern United States Spatial Distribution suburb System Temperature The science of Mycology Time Veterinarians Weather whole genome Work Workplace |
| Regulatory T cell function in predicting Valley fever outcomes 项目 项目编号: 1R21AI142261-01A1. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2020-2022 负责人: HOYER, KATRINA K. 收藏  |  浏览/下载:16/0  |  提交时间:2021/08/12 Activities of Daily Living Acute acute infection adaptive immune response Adult Aftercare Age Algorithms Antibiotic Therapy Antifungal Agents Area Arizona Bacterial Infections base Biological Factors Biological Markers Blood California Case Study Cell physiology Cells Cessation of life Child Childhood Chronic Chronic Disease chronic infection Clinic Clinical Coccidioides Coccidioides immitis Coccidioides posadasii Coccidioidomycosis Contracts Data Data Set desert fever Detection Diagnosis Diagnostic Disease Disease Outcome Dust eosinophil Evaluation experience flu Frequencies fungus Health Immune Immune response Immunity Immunologic Factors Immunologic Markers Impaired health improved Incidence Infection Inhalation Knowledge Lung nodule Measurement Methods Mexico Modeling Monitor Mus neutrophil novel older patient Outcome pathogenic fungus Patient Care Patients pediatric patients peripheral blood Pharmaceutical Preparations Phenotype Population prediction algorithm Predictive Factor predictive modeling predictive test prevent Recurrent disease Regulatory T-Lymphocyte Relapse research study Resolution response Severities Severity of illness side effect Soil South America Southwestern United States Symptoms Testing Time tool Translational Research transmission process Travel Vaccines Washington Weather |
| Project 1 - Environmental Project 1 - EP1 - Immobilization of U, As, and Co-occurring Metals in Mine Wastes 项目 项目编号: 5P42ES025589-04. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2019- 负责人: CERRATO, JOSE MANUEL 收藏  |  浏览/下载:4/0  |  提交时间:2021/08/12 Address Adsorption Aerobic Affect Amendment aqueous Basic Science bioaccumulation Biological Carbonates Characteristics Chemicals Chemistry Climate Climate Controls Collaborations Communities Complement contaminated drinking water cultural values Custom Decision Making Desert Climate Development Ecology Engineering Environment Environmental Engineering technology Environmental Microbiology experience experimental study Exposure to Exudate Geographic Factor Goals Hazardous Substances Hazardous Waste Sites Health Home environment Human IGFBP2 gene Immobilization In Vitro Individual Ingestion innovation inorganic phosphate interfacial Intervention iron oxide Knowledge Laboratories Ligands mathematical model Measures member metagenome Metal exposure metal poisoning Metals Methods microbiome microbiome alteration microorganism Microscopy migration Minerals Mining Modeling Molecular Native Americans Navajo New Mexico next generation sequencing Outcomes Research Oxides Pattern Phase Pilot Projects Plant Roots Plants Play Population Precipitation prevent Process programs Pueblo Race Rain Reaction remediation Research Resources Risk Risk Reduction Role Sampling Science Scientist Seasons Site Soil Source Spectrum Analysis Superfund Surface System Techniques Testing tool Toxic effect toxic metal tribal community tribal lands Tribes Underserved Population Universities uptake Uranium wasting Water water flow |
| Project 1 - Environmental Project 1 - EP1 - Immobilization of U, As, and Co-occurring Metals in Mine Wastes 项目 项目编号: 5P42ES025589-02. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2018- 负责人: CERRATO, JOSE MANUEL 收藏  |  浏览/下载:3/0  |  提交时间:2021/08/12 Address Adsorption Aerobic Affect Amendment aqueous Basic Science bioaccumulation Biological Carbonates Characteristics Chemicals Chemistry Climate Climate Controls Collaborations Communities Complement contaminated drinking water cultural values Custom Decision Making Desert Climate Development Ecology Engineering Environment Environmental Engineering technology Environmental Microbiology experience experimental study Exposure to Exudate Geographic Factor Goals Hazardous Substances Hazardous Waste Sites Health Home environment Human IGFBP2 gene Immobilization In Vitro Individual Ingestion innovation inorganic phosphate interfacial Intervention Knowledge Laboratories Ligands mathematical model Measures member metagenome Metal exposure metal poisoning Metals Methods microbiome microbiome alteration microorganism Microscopy migration Minerals Mining Modeling Molecular Native Americans Navajo New Mexico next generation sequencing Outcomes Research Oxides Pattern Phase Pilot Projects Plant Roots Plants Play Population Precipitation prevent Process programs Pueblo Race Rain Reaction remediation Research Resources Risk Risk Reduction Role Sampling Science Scientist Seasons Site Soil Source Spectrum Analysis Superfund Surface System Techniques Testing tool Toxic effect toxic metal tribal community tribal lands Tribes Underserved Population Universities uptake Uranium wasting Water water flow |
| Role of NRF2 in the Pulmonary Response to Inhaled Mine Tailing Dust 项目 项目编号: 5P42ES004940-29. 资助机构: US-NIH(美国国立卫生研究院). 起止日期: 2018- 负责人: ZHANG, DONNA D 收藏  |  浏览/下载:6/0  |  提交时间:2021/08/12 Adverse effects Affect airway epithelium Alveolar Arsenic Autophagocytosis base Binding Biological Assay Biological Markers Bronchiectasis Butter Carcinogens Cells Chemopreventive Agent Chronic Chronic Bronchitis Chronic Obstructive Airway Disease CRISPR/Cas technology Cytosol Data defense response Degradation Pathway Desert Climate Development Diet Dietary Supplementation Disease disease registry Dose Dust Epithelial Epithelial Cells epithelial to mesenchymal transition Epithelium Erythroid exposure route Exposure to Fibrosis Functional disorder Gene Expression Gene Targeting Generations Goals Health high risk In Vitro in vivo Infiltration Inflammation Inflammatory Ingestion Inhalation Injury Intervention Iron Lung Lung diseases Lung Inflammation lung injury Maintenance Malignant Neoplasms Measures Mediating Metal exposure Metals Mining mitochondrial dysfunction Molecular Mus mutant Non-Malignant Nuclear Occupational Health Organ Organelles Outcome Oxidative Stress particle Particulate Pathway interactions Poison Population Intervention Populations at Risk Preventive Preventive treatment prophylactic protein aggregate Proteins Public Health Pulmonary Emphysema remediation Reporting Research Respiratory physiology response Risk Role Severities Side Site Soil Structure Sulforaphane superfund site Supplementation Tail Testing Therapeutic Tight Junctions Tissues Toxic effect transcription factor transcriptomics wasting |