Exhaled Nitric Oxide Cutoff Values for Asthma Diagnosis According to Rhinitis and Smoking Status in Japanese Subjects

Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the fEno cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that inve...

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Published in	Allergology International Vol. 60; no. 3; pp. 331 - 336
Main Authors	Matsunaga, Kazuto, Hirano, Tsunahiko, Akamatsu, Keiichiro, Koarai, Akira, Sugiura, Hisatoshi, Minakata, Yoshiaki, Ichinose, Masakazu
Format	Journal Article
Language	English
Published	England Elsevier B.V 2011 JAPANESE SOCIETY OF ALLERGOLOGY Elsevier
Subjects	Adult airflow obstruction airway hyperresponsiveness airway inflammation airway reversibility Asthma - complications Asthma - diagnosis Exhalation Female Humans inhaled corticosteroids Japan Male Nitric Oxide - analysis Reference Values Rhinitis - complications Rhinitis - diagnosis Smoking Japan FENo airway inflammation airway hyperresponsiveness ppb ROC airway reversibility airflow obstruction AUC BMI inhaled corticosteroids
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ISSN	1323-8930 1440-1592 1440-1592
DOI	10.2332/allergolint.10-OA-0277

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Abstract	Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the fEno cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FEno levels. Methods: FEno was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FEno measurements. FEno was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FEno 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FEno levels. The cutoff values of FEno to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status. The cutoff values presented may be useful for the interpretation of FEno values in the clinical practice.
AbstractList	Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the fEno cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FEno levels. Methods: FEno was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FEno measurements. FEno was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FEno 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FEno levels. The cutoff values of FEno to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status. The cutoff values presented may be useful for the interpretation of FEno values in the clinical practice. [ABSTRACT] Background: Measurement of the exhaled nitric oxide fraction (FEND) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the FENO cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FENO levels. Methods: FENO was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FENO measurements. Results: FENO was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FENO 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FENO levels. The cutoff values of FENO to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status. Conclusions: The cutoff values presented may be useful for the interpretation of FENO values in the clinical practice. Measurement of the exhaled nitric oxide fraction (FE(NO)) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the FE(NO) cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FE(NO) levels. FE(NO) was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FE(NO) measurements. FE(NO) was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FE(NO) 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FE(NO) levels. The cutoff values of FE(NO) to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status. The cutoff values presented may be useful for the interpretation of FE(NO) values in the clinical practice. Measurement of the exhaled nitric oxide fraction (FE(NO)) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the FE(NO) cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FE(NO) levels.BACKGROUNDMeasurement of the exhaled nitric oxide fraction (FE(NO)) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the FE(NO) cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FE(NO) levels.FE(NO) was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FE(NO) measurements.METHODSFE(NO) was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FE(NO) measurements.FE(NO) was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FE(NO) 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FE(NO) levels. The cutoff values of FE(NO) to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status.RESULTSFE(NO) was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FE(NO) 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FE(NO) levels. The cutoff values of FE(NO) to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status.The cutoff values presented may be useful for the interpretation of FE(NO) values in the clinical practice.CONCLUSIONSThe cutoff values presented may be useful for the interpretation of FE(NO) values in the clinical practice. Background: Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the fEno cutoff values for the diagnosis of asthma have not yet examined using standard procedures. Furthermore, there is no detailed study that investigated the cutoff values that takes into account patient factors that influence the FEno levels. Methods: FEno was measured in 142 steroid-naive asthmatics and 224 control subjects using an online electrochemical nitric oxide analyzer in accordance with the current guidelines. Subjects without respiratory symptoms and normal spirometric parameters were included in the control group. Asthma was diagnosed on the basis of the presence of significant airway reversibility and/or airway hyperresponsiveness during clinical follow up 6 months after FEno measurements. Results: FEno was significantly higher in asthmatic patients compared with control subjects (p < 0.01). Based on all study subjects, the receiver operating characteristic curves indicated that the cutoff value of FEno 22 parts per billion (ppb) was associated with the highest combination of sensitivity (90.8%) and specificity (83.9%). Multivariate analysis showed allergic rhinitis, current smoking, and asthma were significant factors influencing the FEno levels. The cutoff values of FEno to discriminate asthma from non-asthma ranged from 18 to 28 ppb depending on rhinitis and smoking status. Conclusions: The cutoff values presented may be useful for the interpretation of FEno values in the clinical practice.
Author	Hirano, Tsunahiko Sugiura, Hisatoshi Matsunaga, Kazuto Minakata, Yoshiaki Akamatsu, Keiichiro Ichinose, Masakazu Koarai, Akira
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/21502803$$D View this record in MEDLINE/PubMed
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Keywords	FENo airway inflammation airway hyperresponsiveness ppb ROC airway reversibility airflow obstruction AUC BMI inhaled corticosteroids
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Snippet	Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the fEno... [ABSTRACT] Background: Measurement of the exhaled nitric oxide fraction (FEND) has been proposed as a useful diagnostic test for asthma. However, most of the... Measurement of the exhaled nitric oxide fraction (FE(NO)) has been proposed as a useful diagnostic test for asthma. However, most of the data concerning the... Background: Measurement of the exhaled nitric oxide fraction (FEno) has been proposed as a useful diagnostic test for asthma. However, most of the data...
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SubjectTerms	Adult airflow obstruction airway hyperresponsiveness airway inflammation airway reversibility Asthma - complications Asthma - diagnosis Exhalation Female Humans inhaled corticosteroids Japan Male Nitric Oxide - analysis Reference Values Rhinitis - complications Rhinitis - diagnosis Smoking
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Title	Exhaled Nitric Oxide Cutoff Values for Asthma Diagnosis According to Rhinitis and Smoking Status in Japanese Subjects
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