about
Analysis of the lung microbiome in the "healthy" smoker and in COPDEpidemiology, genetics, and subtyping of preserved ratio impaired spirometry (PRISm) in COPDGeneThe respiratory microbiome: an underappreciated player in the human response to inhaled pollutants?Bacterial Topography of the Healthy Human Lower Respiratory TractAcute exacerbations of chronic obstructive pulmonary disease are associated with decreased CD4+ & CD8+ T cells and increased growth & differentiation factor-15 (GDF-15) in peripheral blood.Gender differences in symptoms and care delivery for chronic obstructive pulmonary diseaseMannose-binding lectin deficiency and acute exacerbations of chronic obstructive pulmonary disease.Protective effect of Toll-like receptor 4 in pulmonary vaccinia infectionLung dendritic cell expression of maturation molecules increases with worsening chronic obstructive pulmonary disease.Scavenger receptor A modulates the immune response to pulmonary Cryptococcus neoformans infection.Basal gene expression by lung CD4+ T cells in chronic obstructive pulmonary disease identifies independent molecular correlates of airflow obstruction and emphysema extentChanges in the lung microbiome following lung transplantation include the emergence of two distinct Pseudomonas species with distinct clinical associations.Cigarette smoke exposure impairs pulmonary bacterial clearance and alveolar macrophage complement-mediated phagocytosis of Streptococcus pneumoniae.Accumulation of CD11b+ lung dendritic cells in response to fungal infection results from the CCR2-mediated recruitment and differentiation of Ly-6Chigh monocytes.Impact of self-reported gastroesophageal reflux disease in subjects from COPDGene cohort.Anxiety is associated with diminished exercise performance and quality of life in severe emphysema: a cross-sectional studyCytotoxic potential of lung CD8(+) T cells increases with chronic obstructive pulmonary disease severity and with in vitro stimulation by IL-18 or IL-15.Human CD56+ cytotoxic lung lymphocytes kill autologous lung cells in chronic obstructive pulmonary diseaseIncreased cytokine response of rhinovirus-infected airway epithelial cells in chronic obstructive pulmonary disease.Resident murine alveolar and peritoneal macrophages differ in adhesion of apoptotic thymocytesQuercetin prevents progression of disease in elastase/LPS-exposed mice by negatively regulating MMP expressionAnalysis of culture-dependent versus culture-independent techniques for identification of bacteria in clinically obtained bronchoalveolar lavage fluid.Tyro3 receptor tyrosine kinases in the heterogeneity of apoptotic cell uptake.Use of direct gradient analysis to uncover biological hypotheses in 16s survey data and beyond.Efferocytosis and lung diseaseSimvastatin for the prevention of exacerbations in moderate-to-severe COPDThe predictive role of plasma TGF-beta1 during radiation therapy for radiation-induced lung toxicity deserves further study in patients with non-small cell lung cancer.Chemokine receptor 2-mediated accumulation of fungicidal exudate macrophages in mice that clear cryptococcal lung infection.Transforming growth factor-β induces microRNA-29b to promote murine alveolar macrophage dysfunction after bone marrow transplantationDesign of a multi-center immunophenotyping analysis of peripheral blood, sputum and bronchoalveolar lavage fluid in the Subpopulations and Intermediate Outcome Measures in COPD Study (SPIROMICS)Application of a neutral community model to assess structuring of the human lung microbiomeTumour necrosis factor receptor-75 and risk of COPD exacerbation in the azithromycin trialWhy do we need a nonhuman primate model of smoking-induced COPD?Analysis of the upper respiratory tract microbiotas as the source of the lung and gastric microbiotas in healthy individuals.Cryptococcus neoformans-induced macrophage lysosome damage crucially contributes to fungal virulence.Chronic obstructive pulmonary disease exacerbations in the COPDGene study: associated radiologic phenotypes.Azithromycin for prevention of exacerbations of COPD.Transcellular delivery of vesicular SOCS proteins from macrophages to epithelial cells blunts inflammatory signalingSpatial Variation in the Healthy Human Lung Microbiome and the Adapted Island Model of Lung Biogeography.Multicenter Comparison of Lung and Oral Microbiomes of HIV-infected and HIV-uninfected Individuals.
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Q21091065-CB272A28-5494-414E-A2FA-D90C4FF4E33FQ28383674-EF8AF3CE-76D8-46F2-A3F4-AAF083774BBAQ28396321-F1782A91-67B1-45F2-9D6D-6747AA2A633FQ29247998-776F9387-0DE7-4888-A17D-DD39E57D1D99Q30371420-DCADAFA3-F0E7-40A9-B5D5-CEF97BF509D8Q30416108-1CEDEA4D-0E9A-4C15-BCF9-9B67362E4786Q30423456-CA662254-DD0E-47A0-A974-7C95A3E6FB71Q33370547-2CE6CFC6-39A9-4F50-A51C-D4EC3D7E08AFQ33551459-E4F75181-D6C4-4710-A548-335EBBA597A3Q33556474-61D72AE9-3676-4319-9336-B0F3D1E4C445Q33578189-70CFBD96-86E8-499A-85FE-167EA18B275BQ33617931-CA306A86-DB1C-4B32-A138-0FE7B7D6E3F5Q33675787-098D3F99-0EF4-4ED9-BE27-56108100AB74Q33705456-802F04D8-96A3-4AA4-8F23-95CD4F6E3BD5Q33727936-6F63A688-9512-4C08-A683-2DA6B487CEFAQ33763935-FC178FBA-9BE0-4FE1-98F3-F3ED10055031Q33903742-DC4B3687-83C0-47D2-9236-DB5CE7A45577Q33982284-C207FFB9-4624-4C5E-B1E2-0F1C046BAB00Q34065620-4BA396B8-E74C-48EE-AC23-B6BDAC078C01Q34066465-190C7DE0-D0CC-4188-B480-EB5AAB0527B9Q34198929-F233B7C9-DCDC-4389-8335-B06ADEE3C7FDQ34298156-64F06E54-EB7C-4080-B17D-BDE3A5C68804Q34314664-B2ECC04C-494D-4E58-BE3A-05372854FDB1Q34555956-AF38BA21-4D69-471D-90F0-15DD82A3CA50Q34652571-64699919-DE0D-4185-A1B0-4A69A474E7B1Q34661935-DAA0A729-30CA-4601-8B73-A8B75CCAF857Q34695531-61095F0E-E698-4EE9-8797-490BC1F877C4Q34756043-25F6BD6D-0A85-4F8F-BA6B-B4A2A0CD3DAEQ34801214-BC177D3F-B386-4BDF-A810-BDBFB207D1B1Q35041299-649A2242-609E-466B-846F-D2F7CBAE3A89Q35072309-4BBF4FED-9CD7-4162-8C01-2878A440AACBQ35078352-1CD9D61F-E287-4A29-A477-4A1E648A2DFCQ35143726-3907D423-7EE0-40F4-9F56-C5B56BF3EE70Q35172371-341C81CD-81E5-47A4-B83F-89EC2C77BBA3Q35231374-7C07403A-9DAC-4E7A-8B06-B28637EDA38EQ35249531-BEC85A1E-5FF6-4400-8A1F-643AC029153DQ35564000-B7CB7517-29B0-4B98-8BDA-89C8C52786ADQ35568437-D453A548-FEC0-436D-A64B-171281BFFF1DQ35585116-32A51F90-B3C9-4267-8D9B-5AA959630641Q35738797-47FD0443-4085-4B5E-8077-FACCA9CC5D2F
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description
hulumtues
@sq
onderzoeker
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researcher
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հետազոտող
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name
Jeffrey L Curtis
@nl
Jeffrey L Curtis
@sl
Jeffrey L. Curtis
@en
Jeffrey L. Curtis
@es
type
label
Jeffrey L Curtis
@nl
Jeffrey L Curtis
@sl
Jeffrey L. Curtis
@en
Jeffrey L. Curtis
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prefLabel
Jeffrey L Curtis
@nl
Jeffrey L Curtis
@sl
Jeffrey L. Curtis
@en
Jeffrey L. Curtis
@es
P106
P1153
7401481586
P2038
Jeffrey_Curtis2
P21
P2798
P31
P496
0000-0001-5191-4847