Changes in respiratory mechanics with increasing degrees of airway obstruction in COPD: Detection by forced oscillation technique

The Forced Oscillation Technique (FOT) is a method for non-invasively assessing respiratory mechanics during spontaneous breathing, demanding little cooperation. The aim of this study was to test the ability of FOT to describe the changes in respiratory mechanics in progressive COPD. The study was p...

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Veröffentlicht in:	Respiratory medicine 2006-03, Vol.100 (3), p.399-410
Hauptverfasser:	Di Mango, Ana Maria G.T., Lopes, Agnaldo J., Jansen, José M., Melo, Pedro L.
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Sprache:	eng
Schlagworte:	Adult Airway management Biological and medical sciences Biometrics Case-Control Studies Chronic obstructive pulmonary disease, asthma Compliance COPD Data processing Female Forced Expiratory Volume Forced oscillation technique Fourier transforms Humans Lungs Male Mechanics Medical sciences Middle Aged Oscillometry - standards Pneumology Pulmonary Disease, Chronic Obstructive - physiopathology Respiratory mechanics Respiratory Mechanics - physiology Sensitivity and Specificity Spirometry Studies Vital Capacity Volunteers
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creator	Di Mango, Ana Maria G.T. Lopes, Agnaldo J. Jansen, José M. Melo, Pedro L.
description	The Forced Oscillation Technique (FOT) is a method for non-invasively assessing respiratory mechanics during spontaneous breathing, demanding little cooperation. The aim of this study was to test the ability of FOT to describe the changes in respiratory mechanics in progressive COPD. The study was performed in a control group formed by 21 healthy subjects and 79 outpatients with COPD, which were classified by spirometry, according to the degree of airway obstruction, in mild, moderate and severe groups. Resistive impedance data were submitted to linear regression analysis over the 4–16 Hz frequency range, which yielded the total respiratory system resistance extrapolated at 0 Hz ( R 0), the respiratory system conductance ( G rs), mean respiratory resistance ( R m), and the resistance/frequency slope ( S). Reactance data were interpreted using the mean values ( X m) over the 4–32 Hz frequency range, the dynamic compliance ( C rs,dyn), the dynamic elastance ( E rs,dyn), and the resonant frequency ( f r) data. Considering the control and mild groups, the increase of airway obstruction resulted in a significant increase of R 0 ( P < 0.008 ), R m ( P < 0.001 ), and a significant reduction in G rs ( P < 0.002 ). Reactive parameters, C rs, dyn and E rs,dyn also presented significant modifications. The subsequent increase (mild to moderate) showed a significant raise of R 0 ( P < 0.007 ), S ( P < 0.001 ), and a reduction in G rs ( P < 0.015 ), while significant increases in X rs ( P < 0.001 ), and E rs,dyn ( P < 0.02 ), and also a reduction in C rs, dyn ( P < 0.02 ) were also observed. In contrast to earlier stages, in the late stage of the airway obstruction increase (moderate to severe obstruction), resistive parameters did not present statistically significant modifications, while significant modifications were observed in X rs ( P < 0.02 ), C rs, dyn ( P < 0.003 ) and E rs,dyn ( P < 0.003 ). The results of this study demonstrated that the FOT is useful for detecting the respiratory mechanics modifications in COPD patients. The initial phases of airway obstruction in COPD can be described mainly by resistive parameters, while in more advanced phases, reactive parameters seem to be more useful. Since the FOT has the advantage of being a simple method, such a technique may give a significant clinical contribution, representing an alternative and/or complement to the evaluation of respiratory mechanics by means of forced expiration.
doi_str_mv	10.1016/j.rmed.2005.07.005
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The aim of this study was to test the ability of FOT to describe the changes in respiratory mechanics in progressive COPD. The study was performed in a control group formed by 21 healthy subjects and 79 outpatients with COPD, which were classified by spirometry, according to the degree of airway obstruction, in mild, moderate and severe groups. Resistive impedance data were submitted to linear regression analysis over the 4–16 Hz frequency range, which yielded the total respiratory system resistance extrapolated at 0 Hz ( R 0), the respiratory system conductance ( G rs), mean respiratory resistance ( R m), and the resistance/frequency slope ( S). Reactance data were interpreted using the mean values ( X m) over the 4–32 Hz frequency range, the dynamic compliance ( C rs,dyn), the dynamic elastance ( E rs,dyn), and the resonant frequency ( f r) data. Considering the control and mild groups, the increase of airway obstruction resulted in a significant increase of R 0 ( P < 0.008 ), R m ( P < 0.001 ), and a significant reduction in G rs ( P < 0.002 ). Reactive parameters, C rs, dyn and E rs,dyn also presented significant modifications. The subsequent increase (mild to moderate) showed a significant raise of R 0 ( P < 0.007 ), S ( P < 0.001 ), and a reduction in G rs ( P < 0.015 ), while significant increases in X rs ( P < 0.001 ), and E rs,dyn ( P < 0.02 ), and also a reduction in C rs, dyn ( P < 0.02 ) were also observed. In contrast to earlier stages, in the late stage of the airway obstruction increase (moderate to severe obstruction), resistive parameters did not present statistically significant modifications, while significant modifications were observed in X rs ( P < 0.02 ), C rs, dyn ( P < 0.003 ) and E rs,dyn ( P < 0.003 ). 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The aim of this study was to test the ability of FOT to describe the changes in respiratory mechanics in progressive COPD. The study was performed in a control group formed by 21 healthy subjects and 79 outpatients with COPD, which were classified by spirometry, according to the degree of airway obstruction, in mild, moderate and severe groups. Resistive impedance data were submitted to linear regression analysis over the 4–16 Hz frequency range, which yielded the total respiratory system resistance extrapolated at 0 Hz ( R 0), the respiratory system conductance ( G rs), mean respiratory resistance ( R m), and the resistance/frequency slope ( S). Reactance data were interpreted using the mean values ( X m) over the 4–32 Hz frequency range, the dynamic compliance ( C rs,dyn), the dynamic elastance ( E rs,dyn), and the resonant frequency ( f r) data. Considering the control and mild groups, the increase of airway obstruction resulted in a significant increase of R 0 ( P < 0.008 ), R m ( P < 0.001 ), and a significant reduction in G rs ( P < 0.002 ). Reactive parameters, C rs, dyn and E rs,dyn also presented significant modifications. The subsequent increase (mild to moderate) showed a significant raise of R 0 ( P < 0.007 ), S ( P < 0.001 ), and a reduction in G rs ( P < 0.015 ), while significant increases in X rs ( P < 0.001 ), and E rs,dyn ( P < 0.02 ), and also a reduction in C rs, dyn ( P < 0.02 ) were also observed. In contrast to earlier stages, in the late stage of the airway obstruction increase (moderate to severe obstruction), resistive parameters did not present statistically significant modifications, while significant modifications were observed in X rs ( P < 0.02 ), C rs, dyn ( P < 0.003 ) and E rs,dyn ( P < 0.003 ). The results of this study demonstrated that the FOT is useful for detecting the respiratory mechanics modifications in COPD patients. The initial phases of airway obstruction in COPD can be described mainly by resistive parameters, while in more advanced phases, reactive parameters seem to be more useful. Since the FOT has the advantage of being a simple method, such a technique may give a significant clinical contribution, representing an alternative and/or complement to the evaluation of respiratory mechanics by means of forced expiration.]]></description><subject>Adult</subject><subject>Airway management</subject><subject>Biological and medical sciences</subject><subject>Biometrics</subject><subject>Case-Control Studies</subject><subject>Chronic obstructive pulmonary disease, asthma</subject><subject>Compliance</subject><subject>COPD</subject><subject>Data processing</subject><subject>Female</subject><subject>Forced Expiratory Volume</subject><subject>Forced oscillation technique</subject><subject>Fourier transforms</subject><subject>Humans</subject><subject>Lungs</subject><subject>Male</subject><subject>Mechanics</subject><subject>Medical sciences</subject><subject>Middle Aged</subject><subject>Oscillometry - standards</subject><subject>Pneumology</subject><subject>Pulmonary Disease, Chronic Obstructive - physiopathology</subject><subject>Respiratory mechanics</subject><subject>Respiratory Mechanics - physiology</subject><subject>Sensitivity and Specificity</subject><subject>Spirometry</subject><subject>Studies</subject><subject>Vital Capacity</subject><subject>Volunteers</subject><issn>0954-6111</issn><issn>1532-3064</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2006</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kU9v1DAQxS0EokvhC3BAlhDcEiaO_zSoF7QFilSpHOBsOc5k16vdeLETqj32mzNhV1TqgdNIM78ZP7_H2OsKygoq_WFTph12pQBQJZiSyhO2qFQtihq0fMoW0ChZ6KqqztiLnDcA0EgJz9lZRU1llFyw--XaDSvMPAw8Yd6H5MaYDnyHngbBZ34XxjVNfUKXw7DiHa4S0kLsuQvpzh14bPOYJj-GOMxnlrffrz7yKxzx2GoPvI_JY8dj9mG7dX-7NF0P4deEL9mz3m0zvjrVc_bzy-cfy-vi5vbrt-Wnm8JLpceiqbGWXe2dk21jsGl70UgwIKB3plUdglB9rdH0cOF04-mrrpMXqhUtIQLrc_b-eHefIj2bR7sL2SPpGTBO2WqjtRBaE_j2EbiJUxpIm62gViCFAkGUOFI-xZwT9nafws6lA0F2jsdu7ByPneOxYCwVWnpzOj218-zfyikPAt6dAJe92_bJDT7kB84oY4ScNV4eOSTHfgdMlqzFgUwOiWy3XQz_0_EHCUyvUw</recordid><startdate>20060301</startdate><enddate>20060301</enddate><creator>Di Mango, Ana Maria G.T.</creator><creator>Lopes, Agnaldo J.</creator><creator>Jansen, José M.</creator><creator>Melo, Pedro L.</creator><general>Elsevier Ltd</general><general>Elsevier</general><general>Elsevier Limited</general><scope>6I.</scope><scope>AAFTH</scope><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7U9</scope><scope>ASE</scope><scope>FPQ</scope><scope>H94</scope><scope>K6X</scope><scope>K9.</scope><scope>M7N</scope><scope>NAPCQ</scope><scope>7X8</scope></search><sort><creationdate>20060301</creationdate><title>Changes in respiratory mechanics with increasing degrees of airway obstruction in COPD: Detection by forced oscillation technique</title><author>Di Mango, Ana Maria G.T. ; 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The aim of this study was to test the ability of FOT to describe the changes in respiratory mechanics in progressive COPD. The study was performed in a control group formed by 21 healthy subjects and 79 outpatients with COPD, which were classified by spirometry, according to the degree of airway obstruction, in mild, moderate and severe groups. Resistive impedance data were submitted to linear regression analysis over the 4–16 Hz frequency range, which yielded the total respiratory system resistance extrapolated at 0 Hz ( R 0), the respiratory system conductance ( G rs), mean respiratory resistance ( R m), and the resistance/frequency slope ( S). Reactance data were interpreted using the mean values ( X m) over the 4–32 Hz frequency range, the dynamic compliance ( C rs,dyn), the dynamic elastance ( E rs,dyn), and the resonant frequency ( f r) data. Considering the control and mild groups, the increase of airway obstruction resulted in a significant increase of R 0 ( P < 0.008 ), R m ( P < 0.001 ), and a significant reduction in G rs ( P < 0.002 ). Reactive parameters, C rs, dyn and E rs,dyn also presented significant modifications. The subsequent increase (mild to moderate) showed a significant raise of R 0 ( P < 0.007 ), S ( P < 0.001 ), and a reduction in G rs ( P < 0.015 ), while significant increases in X rs ( P < 0.001 ), and E rs,dyn ( P < 0.02 ), and also a reduction in C rs, dyn ( P < 0.02 ) were also observed. In contrast to earlier stages, in the late stage of the airway obstruction increase (moderate to severe obstruction), resistive parameters did not present statistically significant modifications, while significant modifications were observed in X rs ( P < 0.02 ), C rs, dyn ( P < 0.003 ) and E rs,dyn ( P < 0.003 ). The results of this study demonstrated that the FOT is useful for detecting the respiratory mechanics modifications in COPD patients. The initial phases of airway obstruction in COPD can be described mainly by resistive parameters, while in more advanced phases, reactive parameters seem to be more useful. Since the FOT has the advantage of being a simple method, such a technique may give a significant clinical contribution, representing an alternative and/or complement to the evaluation of respiratory mechanics by means of forced expiration.]]></abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><pmid>16115754</pmid><doi>10.1016/j.rmed.2005.07.005</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Airway management Biological and medical sciences Biometrics Case-Control Studies Chronic obstructive pulmonary disease, asthma Compliance COPD Data processing Female Forced Expiratory Volume Forced oscillation technique Fourier transforms Humans Lungs Male Mechanics Medical sciences Middle Aged Oscillometry - standards Pneumology Pulmonary Disease, Chronic Obstructive - physiopathology Respiratory mechanics Respiratory Mechanics - physiology Sensitivity and Specificity Spirometry Studies Vital Capacity Volunteers
title	Changes in respiratory mechanics with increasing degrees of airway obstruction in COPD: Detection by forced oscillation technique
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