Volatile organic compound breath signatures of children with cystic fibrosis by real-time SESI-HRMS
Early pulmonary infection and inflammation result in irreversible lung damage and are major contributors to cystic fibrosis (CF)-related morbidity. An easy to apply and noninvasive assessment for the timely detection of disease-associated complications would be of high value. We aimed to detect vola...
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| Published in | ERJ open research Vol. 6; no. 1; p. 171 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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England
European Respiratory Society
01.01.2020
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| Abstract | Early pulmonary infection and inflammation result in irreversible lung damage and are major contributors to cystic fibrosis (CF)-related morbidity. An easy to apply and noninvasive assessment for the timely detection of disease-associated complications would be of high value. We aimed to detect volatile organic compound (VOC) breath signatures of children with CF by real-time secondary electrospray ionisation high-resolution mass spectrometry (SESI-HRMS). A total of 101 children, aged 4-18 years (CF=52; healthy controls=49) and comparable for sex, body mass index and lung function were included in this prospective cross-sectional study. Exhaled air was analysed by a SESI-source linked to a high-resolution time-of-flight mass spectrometer. Mass spectra ranging from m/z 50 to 500 were recorded. Out of 3468 m/z features, 171 were significantly different in children with CF (false discovery rate adjusted p-value of 0.05). The predictive ability (CF
healthy) was assessed by using a support-vector machine classifier and showed an average accuracy (repeated cross-validation) of 72.1% (sensitivity of 77.2% and specificity of 67.7%). This is the first study to assess entire breath profiles of children with SESI-HRMS and to extract sets of VOCs that are associated with CF. We have detected a large set of exhaled molecules that are potentially related to CF, indicating that the molecular breath of children with CF is diverse and informative. |
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| AbstractList | Early pulmonary infection and inflammation result in irreversible lung damage and are major contributors to cystic fibrosis (CF)-related morbidity. An easy to apply and noninvasive assessment for the timely detection of disease-associated complications would be of high value. We aimed to detect volatile organic compound (VOC) breath signatures of children with CF by real-time secondary electrospray ionisation high-resolution mass spectrometry (SESI-HRMS). A total of 101 children, aged 4-18 years (CF=52; healthy controls=49) and comparable for sex, body mass index and lung function were included in this prospective cross-sectional study. Exhaled air was analysed by a SESI-source linked to a high-resolution time-of-flight mass spectrometer. Mass spectra ranging from m/z 50 to 500 were recorded. Out of 3468 m/z features, 171 were significantly different in children with CF (false discovery rate adjusted p-value of 0.05). The predictive ability (CF
healthy) was assessed by using a support-vector machine classifier and showed an average accuracy (repeated cross-validation) of 72.1% (sensitivity of 77.2% and specificity of 67.7%). This is the first study to assess entire breath profiles of children with SESI-HRMS and to extract sets of VOCs that are associated with CF. We have detected a large set of exhaled molecules that are potentially related to CF, indicating that the molecular breath of children with CF is diverse and informative. Early pulmonary infection and inflammation result in irreversible lung damage and are major contributors to cystic fibrosis (CF)-related morbidity. An easy to apply and noninvasive assessment for the timely detection of disease-associated complications would be of high value. We aimed to detect volatile organic compound (VOC) breath signatures of children with CF by real-time secondary electrospray ionisation high-resolution mass spectrometry (SESI-HRMS). A total of 101 children, aged 4–18 years (CF=52; healthy controls=49) and comparable for sex, body mass index and lung function were included in this prospective cross-sectional study. Exhaled air was analysed by a SESI-source linked to a high-resolution time-of-flight mass spectrometer. Mass spectra ranging from m/z 50 to 500 were recorded. Out of 3468 m/z features, 171 were significantly different in children with CF (false discovery rate adjusted p-value of 0.05). The predictive ability (CF versus healthy) was assessed by using a support-vector machine classifier and showed an average accuracy (repeated cross-validation) of 72.1% (sensitivity of 77.2% and specificity of 67.7%). This is the first study to assess entire breath profiles of children with SESI-HRMS and to extract sets of VOCs that are associated with CF. We have detected a large set of exhaled molecules that are potentially related to CF, indicating that the molecular breath of children with CF is diverse and informative. Early pulmonary infection and inflammation result in irreversible lung damage and are major contributors to cystic fibrosis (CF)-related morbidity. An easy to apply and noninvasive assessment for the timely detection of disease-associated complications would be of high value. We aimed to detect volatile organic compound (VOC) breath signatures of children with CF by real-time secondary electrospray ionisation high-resolution mass spectrometry (SESI-HRMS). A total of 101 children, aged 4–18 years (CF=52; healthy controls=49) and comparable for sex, body mass index and lung function were included in this prospective cross-sectional study. Exhaled air was analysed by a SESI-source linked to a high-resolution time-of-flight mass spectrometer. Mass spectra ranging from m/z 50 to 500 were recorded. Out of 3468 m/z features, 171 were significantly different in children with CF (false discovery rate adjusted p-value of 0.05). The predictive ability (CF versus healthy) was assessed by using a support-vector machine classifier and showed an average accuracy (repeated cross-validation) of 72.1% (sensitivity of 77.2% and specificity of 67.7%). This is the first study to assess entire breath profiles of children with SESI-HRMS and to extract sets of VOCs that are associated with CF. We have detected a large set of exhaled molecules that are potentially related to CF, indicating that the molecular breath of children with CF is diverse and informative. This is the first study to assess entire breath profiles of 101 children with SESI-HRMS. 171 molecules that are potentially related to CF were detected, indicating that the molecular breath profile of children with CF is diverse and informative. http://bit.ly/33nIeML |
| Author | Weber, Ronja Baghdasaryan, Astghik Spinas, Renate Micic, Srdjan Moeller, Alexander Bruderer, Tobias Zenobi, Renato Haas, Naemi Inci, Demet Perkins, Nathan |
| AuthorAffiliation | 2 Joint Medical Center Arabkir, Division of Pulmonology, Yerevan, Armenia 3 ETH Zürich, Dept of Chemistry and Applied Bioscience, Zürich, Switzerland 1 Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland 5 A list of the members of the Paediatric Exhalomics Group can be found at the end of this article 4 Division of Clinical Chemistry and Biochemistry, University Children's Hospital Zürich, Zürich, Switzerland |
| AuthorAffiliation_xml | – name: 2 Joint Medical Center Arabkir, Division of Pulmonology, Yerevan, Armenia – name: 5 A list of the members of the Paediatric Exhalomics Group can be found at the end of this article – name: 4 Division of Clinical Chemistry and Biochemistry, University Children's Hospital Zürich, Zürich, Switzerland – name: 1 Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – name: 3 ETH Zürich, Dept of Chemistry and Applied Bioscience, Zürich, Switzerland |
| Author_xml | – sequence: 1 givenname: Ronja surname: Weber fullname: Weber, Ronja organization: Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 2 givenname: Naemi surname: Haas fullname: Haas, Naemi organization: Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 3 givenname: Astghik surname: Baghdasaryan fullname: Baghdasaryan, Astghik organization: Joint Medical Center Arabkir, Division of Pulmonology, Yerevan, Armenia – sequence: 4 givenname: Tobias orcidid: 0000-0003-2399-2332 surname: Bruderer fullname: Bruderer, Tobias organization: ETH Zürich, Dept of Chemistry and Applied Bioscience, Zürich, Switzerland – sequence: 5 givenname: Demet surname: Inci fullname: Inci, Demet organization: Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 6 givenname: Srdjan surname: Micic fullname: Micic, Srdjan organization: Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 7 givenname: Nathan surname: Perkins fullname: Perkins, Nathan organization: Division of Clinical Chemistry and Biochemistry, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 8 givenname: Renate surname: Spinas fullname: Spinas, Renate organization: Division of Respiratory Medicine and Childhood Research Center, University Children's Hospital Zürich, Zürich, Switzerland – sequence: 9 givenname: Renato surname: Zenobi fullname: Zenobi, Renato organization: ETH Zürich, Dept of Chemistry and Applied Bioscience, Zürich, Switzerland – sequence: 10 givenname: Alexander surname: Moeller fullname: Moeller, Alexander organization: A list of the members of the Paediatric Exhalomics Group can be found at the end of this article |
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| Title | Volatile organic compound breath signatures of children with cystic fibrosis by real-time SESI-HRMS |
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