Regional lung deflation with increased airway volume underlies the functional response to bronchodilators in chronic obstructive pulmonary disease
Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local...
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| Published in | Physiological reports Vol. 7; no. 24; pp. e14330 - n/a |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
John Wiley & Sons, Inc
01.12.2019
John Wiley and Sons Inc Wiley |
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| Online Access | Get full text |
| ISSN | 2051-817X 2051-817X |
| DOI | 10.14814/phy2.14330 |
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| Abstract | Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1‐year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1. In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes.
Bronchodilators improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD) by increasing airway calibre and deflate the lungs, but little is known about effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study showed that the improved airflow limitation after long‐acting bronchodilator treatment was significantly correlated with an increase in the airway tree to lung volume percentage ratio in the lower lobe, but not in the upper lobes. These data suggest that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. |
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| AbstractList | Bronchodilators, including long-acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1-year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV
). The results showed that LAMA treatment significantly increased the FEV
and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV
. In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV
independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1‐year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV 1 ). The results showed that LAMA treatment significantly increased the FEV 1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV 1 . In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV 1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD) by increasing airway calibre and deflate the lungs, but little is known about effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study showed that the improved airflow limitation after long‐acting bronchodilator treatment was significantly correlated with an increase in the airway tree to lung volume percentage ratio in the lower lobe, but not in the upper lobes. These data suggest that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Abstract Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1‐year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1. In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators, including long-acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1-year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1 ). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1 . In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes.Bronchodilators, including long-acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1-year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1 ). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1 . In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1‐year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1. In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD). While bronchodilators increase airway caliber and deflate the lungs, little is known about the effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study aimed to explore whether lung deflation with increased airway volume in the upper and lower lung regions would produce different physiological responses to LAMA therapy. Using the clinical data of 41 patients with COPD who underwent spirometry and inspiratory computed tomography (CT) before and 1 year after LAMA treatment, we measured the 1‐year change in the airway tree to lung volume percentage ratio (AWV%) for the right upper, middle, and lower lobes (RUL, RML, and RLL) and the left upper and lower lobes (LUL and LLL), and total airway count (TAC) identifiable on CT in relation to the forced expiratory volume in 1 s (FEV1). The results showed that LAMA treatment significantly increased the FEV1 and AWV% of the RUL, RML, RLL, LUL, and LLL. Increased AWV% in the RLL and LLL, but not in the RUL and LUL, was correlated with increased FEV1. In the multivariate analysis, the increased AWV% in the RLL was associated with the increased FEV1 independent of the change in TAC in the RLL after treatment. This is the first study to show that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. Bronchodilators improve airflow limitation and lung hyperinflation in patients with chronic obstructive pulmonary disease (COPD) by increasing airway calibre and deflate the lungs, but little is known about effects of the local interaction between airway dilation and lung deflation on functional improvements resulting from bronchodilator therapy. This study showed that the improved airflow limitation after long‐acting bronchodilator treatment was significantly correlated with an increase in the airway tree to lung volume percentage ratio in the lower lobe, but not in the upper lobes. These data suggest that the physiological improvements after bronchodilator treatment in COPD could be mainly due to the combination of regional deflation and increased airway volume of the lower lobes. |
| Author | Tanimura, Kazuya Oguma, Tsuyoshi Hirai, Toyohiro Sato, Atsuyasu Tanabe, Naoya Muro, Shigeo Sato, Susumu Shima, Hiroshi |
| AuthorAffiliation | 2 Department of Respiratory Medicine Nara Medical University Nara Japan 1 Department of Respiratory Medicine Graduate School of Medicine Kyoto University Kyoto Japan |
| AuthorAffiliation_xml | – name: 1 Department of Respiratory Medicine Graduate School of Medicine Kyoto University Kyoto Japan – name: 2 Department of Respiratory Medicine Nara Medical University Nara Japan |
| Author_xml | – sequence: 1 givenname: Naoya orcidid: 0000-0002-7481-0212 surname: Tanabe fullname: Tanabe, Naoya email: ntana@kuhp.kyoto-u.ac.jp organization: Kyoto University – sequence: 2 givenname: Susumu orcidid: 0000-0002-9626-1090 surname: Sato fullname: Sato, Susumu organization: Kyoto University – sequence: 3 givenname: Shigeo surname: Muro fullname: Muro, Shigeo organization: Nara Medical University – sequence: 4 givenname: Hiroshi surname: Shima fullname: Shima, Hiroshi organization: Kyoto University – sequence: 5 givenname: Tsuyoshi surname: Oguma fullname: Oguma, Tsuyoshi organization: Kyoto University – sequence: 6 givenname: Kazuya surname: Tanimura fullname: Tanimura, Kazuya organization: Kyoto University – sequence: 7 givenname: Atsuyasu surname: Sato fullname: Sato, Atsuyasu organization: Kyoto University – sequence: 8 givenname: Toyohiro surname: Hirai fullname: Hirai, Toyohiro organization: Kyoto University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31880096$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1183_23120541_00672_2020 crossref_primary_10_1093_jpp_rgae071 crossref_primary_10_29235_1814_6023_2023_20_3_191_204 crossref_primary_10_62464_ijoprp_v3i8_48 crossref_primary_10_3390_jcm12144815 crossref_primary_10_2147_COPD_S366126 |
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| Keywords | hyperinflation CT airway total airway count COPD bronchodilator |
| Language | English |
| License | Attribution http://creativecommons.org/licenses/by/4.0 http://doi.wiley.com/10.1002/tdm_license_1.1 2019 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
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| Notes | Funding information The data collection and analysis in this work were funded by the Japan Society for the Promotion of Science (JSPS) [Grants‐in‐Aid for scientific research Nos. 17H06807 and 19K08624]. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 ObjectType-Undefined-3 Naoya Tanabe and Susumu Sato contributed equally to this work. |
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| Snippet | Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive... Bronchodilators, including long-acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic obstructive... Abstract Bronchodilators, including long‐acting muscarinic antagonists (LAMAs), improve airflow limitation and lung hyperinflation in patients with chronic... |
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| SubjectTerms | Acetylcholine receptors (muscarinic) airway Antagonists bronchodilator Bronchodilators Chronic obstructive pulmonary disease Computed tomography COPD Deflation Emphysema hyperinflation Lung Lung diseases Medical imaging Multivariate analysis Obstructive lung disease Original Research Patients Physiology Respiration Respiratory Conditions Disorder and Diseases Respiratory tract Scanners Software total airway count |
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| Title | Regional lung deflation with increased airway volume underlies the functional response to bronchodilators in chronic obstructive pulmonary disease |
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