The structural basis of airways hyperresponsiveness in asthma.
about
Automatic Training of Rat Cyborgs for Navigation.Workshop on idiopathic pulmonary fibrosis in older adultsAsthma outcomes: pulmonary physiology.Physiologic dysfunction of the asthmatic lung: what's going on down there, anyway?Explorations in statistics: the analysis of ratios and normalized data.Distribution of airway narrowing responses across generations and at branching points, assessed in vitro by anatomical optical coherence tomography.A multivariate analysis of risk factors for the air-trapping asthmatic phenotype as measured by quantitative CT analysis.Influence of rapid fluid loading on airway structure and function in healthy humansDeep inspiration and the emergence of ventilation defects during bronchoconstriction: a computational study.Fixed airways obstruction among patients with severe asthma: findings from the Singapore General Hospital-Severe Asthma Phenotype Study.Association of elevated plasminogen activator inhibitor 1 levels with diminished lung function in patients with asthma.Measurement of the pressure-volume curve in mouse lungs.Lung imaging in asthmatic patients: the picture is clearerBronchodilation response to deep inspirations in asthma is dependent on airway distensibility and air trapping.Physical activity and bronchial hyperresponsiveness: European Community Respiratory Health Survey II.Measurement of intraindividual airway tone heterogeneity and its importance in asthma.Markers of vascular perturbation correlate with airway structural change in asthma.Supranormal expiratory airflow after bilateral lung transplantation is associated with improved survival.The pharmacological modulation of allergen-induced asthma.Autonomic neural control of intrathoracic airways.Lung function in adults with stable but severe asthma: air trapping and incomplete reversal of obstruction with bronchodilation.Effect of Bronchial Thermoplasty on Airway Closure.Effects of exercise training on airway responsiveness and airway cells in healthy subjects.Deep inspirations protect against airway closure in nonasthmatic subjects.Lung volume abnormalities and its correlation to spirometric and demographic variables in adult asthma.Heterogeneity of bronchoconstriction does not distinguish mild asthmatic subjects from healthy controls when supine.Commentary on "The role of the large airways on smooth muscle contraction in asthma".Will the small airways rise again?Complex airway behavior and paradoxical responses to bronchoprovocation.Predicting reduced TLC in patients with low FVC and a normal or elevated FEV1/FVC ratio.Intrinsic and antigen-induced airway hyperresponsiveness are the result of diverse physiological mechanisms.The structural basis of airways hyperresponsiveness in asthma.Retinoic acid signaling is essential for airway smooth muscle homeostasis
P2860
Q27312389-CBED6B53-6EDD-43C8-8A84-74A2CFEFFAC3Q28603445-2749ABF5-45C5-4A3A-AF52-14510ADBAE2AQ30423167-30979CC9-932D-4147-BF8A-246F4015A18DQ30436335-5C2978C8-F2E9-46B3-AAD9-219F8DD7ADA0Q30666127-40521FF7-FA6F-4715-A4B3-6D05D1F207B9Q33669602-A28D56E9-6E73-4AFA-895E-F0F67DCCE681Q33771346-752020E3-0D98-4FAC-8E01-6D4BF3CCF072Q33910707-1E397341-D6EF-42B6-9DB0-E50854AEC61CQ34524683-08937C5C-A56A-459C-8589-6AEB5240D5ADQ34695211-C2BBD50F-8503-4F8F-8563-A6495472A049Q35007883-F501E3CC-E053-4A6D-B947-19AC1990EC98Q35162031-C0D29299-1BD1-40D3-A599-95628D83D9BDQ35278582-FF1E40A3-CFDA-4810-8CB7-1F18F86A5519Q35789357-27138271-1729-403E-97DE-A79FEBA650F0Q36225658-663FA247-6C6C-4E2C-8343-14178B44C2B2Q37139766-CCEB25CE-7E07-4B67-8A66-575C1E51BBB6Q37187005-FA09D4F7-AAF2-4E29-8EA4-9802A5379C54Q37778670-3BC149B1-949A-4CBF-878D-0CC5DDB932B8Q38055384-BCE4DA9A-E643-4D12-9F16-4683C1C62A4DQ38116834-C924BFBB-30A2-4FBD-B3B2-3F6148540058Q39820641-A0AF3477-96D9-4774-BC49-81368C7D6F46Q42020010-E8CB4526-6496-49AA-9432-AABFB614C18CQ43031007-0B9D2727-2A77-4D33-8AF3-D88642147023Q46011297-091375D4-C551-4CAA-B5C5-3F2177F58689Q46725877-4327AC51-34D8-44BA-90E7-A99BD8092CDAQ46942243-61686047-AA65-478A-A1EA-ACCE52A4144BQ46966193-8ACE01E3-A90A-4018-B0F1-A3C6749E3F9EQ48599813-A485E71E-2670-4471-8DBD-8E7C6E890298Q48600411-B81285EB-CA05-4D4C-96E0-D110410243A0Q51661985-AB688B55-3F4D-434C-873F-35D2C53C9B30Q51932577-426173AA-8C4F-422C-85B4-BEB2924BBE85Q53523044-AA37B4FA-D843-4E46-939D-2D21CDDD8F77Q58710841-5DDCF19A-4377-41C1-8A71-C7F0B9FAA960
P2860
The structural basis of airways hyperresponsiveness in asthma.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
The structural basis of airways hyperresponsiveness in asthma.
@en
type
label
The structural basis of airways hyperresponsiveness in asthma.
@en
prefLabel
The structural basis of airways hyperresponsiveness in asthma.
@en
P2093
P2860
P1476
The structural basis of airways hyperresponsiveness in asthma.
@en
P2093
Alkis Togias
David B Pearse
George Pyrgos
Mark C Liu
Robert H Brown
Solbert Permutt
P2860
P356
10.1152/JAPPLPHYSIOL.01190.2005
P407
P577
2006-02-09T00:00:00Z