Airwave oscillometry and spirometry in children with asthma or wheeze

Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spi...

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Veröffentlicht in:	The Journal of asthma Jg. 60; H. 6; S. 1153 - 1161
Hauptverfasser:	Gunawardana, Shannon, Tuazon, Mark, Wheatley, Lorna, Cook, James, Harris, Christopher, Greenough, Anne
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	England Taylor & Francis 03.06.2023
Schlagworte:	Adolescent Asthma - drug therapy Bronchodilator Agents - therapeutic use bronchodilator responsiveness Child Child, Preschool Forced Expiratory Volume forced expiratory volume in 1 second (FEV1) Humans Lung function Oscillometry - methods pediatrics resistance at 5Hz (R5) Spirometry - methods resistance at 5Hz (R5) bronchodilator responsiveness Lung function forced expiratory volume in 1 second (FEV1) pediatrics
ISSN:	0277-0903, 1532-4303, 1532-4303
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Abstract	Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spirometry and AOS in assessing bronchodilator responsiveness in children. AOS was conducted alongside routine lung function testing. Resistance at 5 Hz (R5), the difference between the resistance at 5 and 20 Hz (R5-20) and the area under the reactance curve (AX) were assessed. Patients between 5 and 16 years old attending clinic with wheeze or asthma were assessed. Patients performed AOS, followed by spirometry and were then given 400 µg salbutamol; the tests were repeated 15 minutes later. Lung function testing was performed in 47 children of whom 46 (98%) and 32 (68%) performed acceptable baseline oscillometry and spirometry, respectively (p < 0.001). Children unable to perform acceptable spirometry were younger (7.35, range: 5.4-10.3 years) than those who could (10.4, range: 5.5-16.9 years), p < 0.001. The baseline z-scores of AOS R5 correlated with FEV 1 (r = 0.499, p = 0.004), FEF 75 (r = 0.617, p < 0.001), and FEV 1 /FVC (r = 0.618, p < 0.001). There was a positive bronchodilator response assessed by spirometry (change in FEV 1 ≥ 12%) in eight children which corresponded to a change in R5 of 36% (range: 30%-50%) and a change in X5 of 39% (range: 15%-54%). Oscillometry is a useful adjunct to spirometry in assessing young asthmatic children's lung function. The degree of airway obstruction, however, might affect the comparability of the results of the two techniques.
AbstractList	Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spirometry and AOS in assessing bronchodilator responsiveness in children.OBJECTIVELung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spirometry and AOS in assessing bronchodilator responsiveness in children.AOS was conducted alongside routine lung function testing. Resistance at 5 Hz (R5), the difference between the resistance at 5 and 20 Hz (R5-20) and the area under the reactance curve (AX) were assessed. Patients between 5 and 16 years old attending clinic with wheeze or asthma were assessed. Patients performed AOS, followed by spirometry and were then given 400 µg salbutamol; the tests were repeated 15 minutes later.METHODSAOS was conducted alongside routine lung function testing. Resistance at 5 Hz (R5), the difference between the resistance at 5 and 20 Hz (R5-20) and the area under the reactance curve (AX) were assessed. Patients between 5 and 16 years old attending clinic with wheeze or asthma were assessed. Patients performed AOS, followed by spirometry and were then given 400 µg salbutamol; the tests were repeated 15 minutes later.Lung function testing was performed in 47 children of whom 46 (98%) and 32 (68%) performed acceptable baseline oscillometry and spirometry, respectively (p < 0.001). Children unable to perform acceptable spirometry were younger (7.35, range: 5.4-10.3 years) than those who could (10.4, range: 5.5-16.9 years), p < 0.001. The baseline z-scores of AOS R5 correlated with FEV1 (r = 0.499, p = 0.004), FEF75 (r = 0.617, p < 0.001), and FEV1/FVC (r = 0.618, p < 0.001). There was a positive bronchodilator response assessed by spirometry (change in FEV1 ≥ 12%) in eight children which corresponded to a change in R5 of 36% (range: 30%-50%) and a change in X5 of 39% (range: 15%-54%).RESULTSLung function testing was performed in 47 children of whom 46 (98%) and 32 (68%) performed acceptable baseline oscillometry and spirometry, respectively (p < 0.001). Children unable to perform acceptable spirometry were younger (7.35, range: 5.4-10.3 years) than those who could (10.4, range: 5.5-16.9 years), p < 0.001. The baseline z-scores of AOS R5 correlated with FEV1 (r = 0.499, p = 0.004), FEF75 (r = 0.617, p < 0.001), and FEV1/FVC (r = 0.618, p < 0.001). There was a positive bronchodilator response assessed by spirometry (change in FEV1 ≥ 12%) in eight children which corresponded to a change in R5 of 36% (range: 30%-50%) and a change in X5 of 39% (range: 15%-54%).Oscillometry is a useful adjunct to spirometry in assessing young asthmatic children's lung function. The degree of airway obstruction, however, might affect the comparability of the results of the two techniques.CONCLUSIONSOscillometry is a useful adjunct to spirometry in assessing young asthmatic children's lung function. The degree of airway obstruction, however, might affect the comparability of the results of the two techniques. Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spirometry and AOS in assessing bronchodilator responsiveness in children. AOS was conducted alongside routine lung function testing. Resistance at 5 Hz (R5), the difference between the resistance at 5 and 20 Hz (R5-20) and the area under the reactance curve (AX) were assessed. Patients between 5 and 16 years old attending clinic with wheeze or asthma were assessed. Patients performed AOS, followed by spirometry and were then given 400 µg salbutamol; the tests were repeated 15 minutes later. Lung function testing was performed in 47 children of whom 46 (98%) and 32 (68%) performed acceptable baseline oscillometry and spirometry, respectively ( < 0.001). Children unable to perform acceptable spirometry were younger (7.35, range: 5.4-10.3 years) than those who could (10.4, range: 5.5-16.9 years), < 0.001. The baseline z-scores of AOS R5 correlated with FEV ( = 0.499, = 0.004), FEF ( = 0.617, < 0.001), and FEV /FVC ( = 0.618, < 0.001). There was a positive bronchodilator response assessed by spirometry (change in FEV ≥ 12%) in eight children which corresponded to a change in R5 of 36% (range: 30%-50%) and a change in X5 of 39% (range: 15%-54%). Oscillometry is a useful adjunct to spirometry in assessing young asthmatic children's lung function. The degree of airway obstruction, however, might affect the comparability of the results of the two techniques. Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing this test challenging. Non-volitional tests such as airwave oscillometry (AOS) may be helpful in that population. We compared the success of spirometry and AOS in assessing bronchodilator responsiveness in children. AOS was conducted alongside routine lung function testing. Resistance at 5 Hz (R5), the difference between the resistance at 5 and 20 Hz (R5-20) and the area under the reactance curve (AX) were assessed. Patients between 5 and 16 years old attending clinic with wheeze or asthma were assessed. Patients performed AOS, followed by spirometry and were then given 400 µg salbutamol; the tests were repeated 15 minutes later. Lung function testing was performed in 47 children of whom 46 (98%) and 32 (68%) performed acceptable baseline oscillometry and spirometry, respectively (p < 0.001). Children unable to perform acceptable spirometry were younger (7.35, range: 5.4-10.3 years) than those who could (10.4, range: 5.5-16.9 years), p < 0.001. The baseline z-scores of AOS R5 correlated with FEV 1 (r = 0.499, p = 0.004), FEF 75 (r = 0.617, p < 0.001), and FEV 1 /FVC (r = 0.618, p < 0.001). There was a positive bronchodilator response assessed by spirometry (change in FEV 1 ≥ 12%) in eight children which corresponded to a change in R5 of 36% (range: 30%-50%) and a change in X5 of 39% (range: 15%-54%). Oscillometry is a useful adjunct to spirometry in assessing young asthmatic children's lung function. The degree of airway obstruction, however, might affect the comparability of the results of the two techniques.
Author	Greenough, Anne Gunawardana, Shannon Wheatley, Lorna Cook, James Harris, Christopher Tuazon, Mark
Author_xml	– sequence: 1 givenname: Shannon surname: Gunawardana fullname: Gunawardana, Shannon organization: Department of Women and Children's Health, School of Life Course Sciences, Faculty of Life Sciences and Medicine, King's College London – sequence: 2 givenname: Mark surname: Tuazon fullname: Tuazon, Mark organization: Chest Unit, King's College Hospital NHS Foundation Trust – sequence: 3 givenname: Lorna surname: Wheatley fullname: Wheatley, Lorna organization: Chest Unit, King's College Hospital NHS Foundation Trust – sequence: 4 givenname: James surname: Cook fullname: Cook, James organization: Department of Pediatric Respiratory Medicine, King's College Hospital NHS Foundation Trust – sequence: 5 givenname: Christopher surname: Harris fullname: Harris, Christopher organization: Neonatal Intensive Care Centre, King's College Hospital NHS Foundation Trust – sequence: 6 givenname: Anne orcidid: 0000-0002-8672-5349 surname: Greenough fullname: Greenough, Anne organization: NIHR Biomedical Research Centre based at Guy's and St Thomas NHS Foundation Trust and King's College London
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Snippet	Lung function testing is used in diagnosing asthma and assessing asthma control. Spirometry is most commonly used, but younger children can find performing...
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SubjectTerms	Adolescent Asthma - drug therapy Bronchodilator Agents - therapeutic use bronchodilator responsiveness Child Child, Preschool Forced Expiratory Volume forced expiratory volume in 1 second (FEV1) Humans Lung function Oscillometry - methods pediatrics resistance at 5Hz (R5) Spirometry - methods
Title	Airwave oscillometry and spirometry in children with asthma or wheeze
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