about
Secreted osteopontin is highly polymerized in human airways and fragmented in asthmatic airway secretionsReduced exercise tolerance and pulmonary capillary recruitment with remote secondhand smoke exposureOzone inhalation leads to a dose-dependent increase of cytogenetic damage in human lymphocytes.Inflammatory and repair pathways induced in human bronchoalveolar lavage cells with ozone inhalationExposure to medium and high ambient levels of ozone causes adverse systemic inflammatory and cardiac autonomic effectsEffects of antioxidant enzyme polymorphisms on ozone-induced lung function changes.Low prevalence of chronic beryllium disease among workers at a nuclear weapons research and development facility.Is there an association between lifetime cumulative exposure and acute pulmonary responses to ozone?Effects of exercise on systemic inflammatory, coagulatory, and cardiac autonomic parameters in an inhalational exposure studyEffects of chronic and acute ozone exposure on lipid peroxidation and antioxidant capacity in healthy young adults.Mfge8 suppresses airway hyperresponsiveness in asthma by regulating smooth muscle contraction.Secondhand Tobacco Smoke and COPD Risk in Smokers: A COPDGene Study Cohort Subgroup Analysis.Repeated exposure to ozone increases alveolar macrophage recruitment into asthmatic airwaysPulmonary function abnormalities in never-smoking flight attendants exposed to secondhand tobacco smoke in the aircraft cabinModeling vascular inflammation and atherogenicity after inhalation of ambient levels of ozone: exploratory lessons from transcriptomics.Diagnosing Chronic Obstructive Pulmonary Disease Among Afghanistan and Iraq Veterans: Veterans Affair's Concordance With Clinical Guidelines for Spirometry Administration.Effects of nitrogen dioxide on allergic airway responses in subjects with asthma.PAI-1 is an essential component of the pulmonary host response during Pseudomonas aeruginosa pneumonia in miceIQGAP1-dependent scaffold suppresses RhoA and inhibits airway smooth muscle contraction.Arginine restores nitric oxide activity and inhibits monocyte accumulation after vascular injury in hypercholesterolemic rabbits.Respiratory Responses to Ozone Exposure: The Multicenter Ozone Study in oldEr Subjects (MOSES).Cytogenetic damage in buccal epithelia and peripheral lymphocytes of young healthy individuals exposed to ozone.Sputum induction and bronchoscopy for assessment of ozone-induced airway inflammation in asthma.Lung volumes identify an at-risk group in persons with prolonged secondhand tobacco smoke exposure but without overt airflow obstruction.Effects of immunosuppressants FK506 and rapamycin on the heterooligomeric form of the progesterone receptorLaboratory-based Intermountain Validated Exacerbation (LIVE) Score stability in patients with chronic obstructive pulmonary diseaseDoes Ambient Ozone or Other Pollutants Modify Effects of Controlled Ozone Exposure on Pulmonary Function?Ozone effects on blood biomarkers of systemic inflammation, oxidative stress, endothelial function, and thrombosis: The Multicenter Ozone Study in oldEr Subjects (MOSES)Lung volume indices predict morbidity in smokers with preserved spirometryClinical Significance of Bronchodilator Responsiveness Evaluated by Forced Vital Capacity in COPD: SPIROMICS Cohort Analysis
P50
Q34059572-CCA23EFF-F743-4664-94A8-65564ADC1553Q34228383-0248463F-4796-4AC9-B60C-B9AF3340771AQ35528035-E84965F6-735A-4926-8C7A-1E8DCB5E494AQ35650058-CD924B85-0535-4A07-B993-51AE43AA53E1Q35749612-EA375908-8526-4C34-8200-00C466815266Q35764694-77CAD9C6-6B9F-40A9-85EC-3EBEB3B839B9Q35855359-2225C16D-E69E-4300-8F8D-715D87A5A3D2Q35875235-0F28552F-085C-4216-9474-699A53EE72FBQ35881676-DCA7C035-0A93-4274-8A7B-7425BB61F437Q36264515-D980FA7D-0CC8-4BAB-AB1F-2D8CF8C66206Q36535237-5FEF75D5-A363-40F1-B381-C5DA2262AAA6Q36763923-E8232757-561B-42E5-8E16-89BF3EF459D5Q37282965-7BCB7BF8-B42B-4232-81C0-3D53B22BF5A7Q37294618-A05CE4A8-B666-4F1B-ACEA-91914689856AQ38434757-76D6CA12-01A2-42FE-9C49-9E1B1C5D6D0BQ40050944-7AB52030-3E01-4474-A848-B3434C8E4EDAQ40366337-4F37D75F-ED56-4171-9C83-24AE3D1887BBQ41261629-ACAA8B31-86A0-409E-9CCD-48D9649E5377Q41866608-0B042B68-3446-4916-BAF7-7AD95447CE8FQ46037040-5D812407-A23A-4253-BBA3-3AA305D35597Q46201089-49A74E63-2678-40D8-8822-208E54C679AFQ46583299-E7EB4499-0C6E-4F48-9A72-A4A065ABBB7EQ46839848-DFA3C738-5A07-49D8-BEA4-A3205E9D8B68Q54981808-1F2A6AF4-72B1-4B9D-B4FC-77ECFECDB651Q71614951-5A0AFFC9-5F90-4FF1-8204-90BCB3D57666Q89721679-D5836DED-4AFB-49E4-834E-892D33A80CD5Q89996432-F96486EE-6630-4992-B223-52451D580E03Q90280474-8C8728A3-6948-4C7B-8438-7DE24A80EA79Q90374478-936AEE3F-D684-4C5B-9AE0-7DB96EC58699Q92460795-FA871D4C-03BC-46E6-BD46-7E46668F2D29
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mehrdad Arjomandi
@ast
Mehrdad Arjomandi
@en
Mehrdad Arjomandi
@es
Mehrdad Arjomandi
@nl
type
label
Mehrdad Arjomandi
@ast
Mehrdad Arjomandi
@en
Mehrdad Arjomandi
@es
Mehrdad Arjomandi
@nl
prefLabel
Mehrdad Arjomandi
@ast
Mehrdad Arjomandi
@en
Mehrdad Arjomandi
@es
Mehrdad Arjomandi
@nl
P106
P1153
10045533200
24287743700
P31
P496
0000-0002-0116-9217