Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis

Sarah van den Berg; Annabel S. Zaat; Isabel F. van der Poel; Yoni E. van Dijk; Simone Hashimoto; Niels W. P. Rutjes; Suzanne W. J. Terheggen-Largo; Bart E. van Ewijk; Claudia Gagliani; Fleur L. Sondaal; Job B. M. van Woensel; Anke-Hilse Maitland-van der Zee; Paul Brinkman; Susanne J. H. Vijverberg; Berber Kapitein

doi:10.3390/metabo15040247

Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis

Sarah van den Berg
, Annabel S. Zaat
, Isabel F. van der Poel
, Yoni E. van Dijk
, Simone Hashimoto
, Niels W. P. Rutjes
, Suzanne W. J. Terheggen-Largo
, Bart E. van Ewijk
, Claudia Gagliani
, Fleur L. Sondaal
, Job B. M. van Woensel
, Anke-Hilse Maitland-van der Zee
, Paul Brinkman
, Susanne J. H. Vijverberg
, Berber Kapitein^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Background: Severe acute asthma (SAA) in children can be life-threatening. There has been a significant rise in paediatric intensive care unit (PICU) admissions due to SAA over the past two decades. While asthma is a heterogeneous disease, its underlying pathophysiological pathways remain underexplored. This study aimed to assess the value of non-invasive targeted exhaled breath metabolomics analysis to better characterise SAA. Methods: Breath samples from 17 children admitted to the PICU with SAA (cases) and 27 children with controlled severe asthma (controls) were analysed using thermal desorption gas chromatography–mass spectrometry (TD-GC-MS). Results: A targeted volatile organic compound (VOC) analysis identified 25 compounds, of which 16 were shared between groups. Four VOCs were significantly more often present in SAA, and nine VOCs exhibited higher concentrations in SAA. Longitudinal analysis of VOCs from follow-up samples of 10 cases showed no significant temporal differences, reinforcing the reproducibility of identified biomarkers. Conclusions: This study exemplifies the potential of exhaled breath analysis to provide insights into the molecular background of SAA. Breath metabolomics may enable early recognition of severe asthma attacks and preventive therapeutic interventions in children with severe asthma.

Original language	English
Article number	247
Journal	Metabolites
Volume	15
Issue number	4
DOIs	https://doi.org/10.3390/metabo15040247
Publication status	Published - 1 Apr 2025

Keywords

breathomics
paediatric intensive care unit
paediatrics
severe acute asthma
thermal desorption gas chromatography–mass spectrometry
volatile organic compounds

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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van den Berg, S., Zaat, A. S., van der Poel, I. F., van Dijk, Y. E., Hashimoto, S., Rutjes, N. W. P., Terheggen-Largo, S. W. J., van Ewijk, B. E., Gagliani, C., Sondaal, F. L., van Woensel, J. B. M., Maitland-van der Zee, A.-H., Brinkman, P., Vijverberg, S. J. H., & Kapitein, B. (2025). Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis. Metabolites, 15(4), Article 247. https://doi.org/10.3390/metabo15040247

@article{c89df3a69ac64193875ff5512fa3a6cb,

title = "Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis",

abstract = "Background: Severe acute asthma (SAA) in children can be life-threatening. There has been a significant rise in paediatric intensive care unit (PICU) admissions due to SAA over the past two decades. While asthma is a heterogeneous disease, its underlying pathophysiological pathways remain underexplored. This study aimed to assess the value of non-invasive targeted exhaled breath metabolomics analysis to better characterise SAA. Methods: Breath samples from 17 children admitted to the PICU with SAA (cases) and 27 children with controlled severe asthma (controls) were analysed using thermal desorption gas chromatography–mass spectrometry (TD-GC-MS). Results: A targeted volatile organic compound (VOC) analysis identified 25 compounds, of which 16 were shared between groups. Four VOCs were significantly more often present in SAA, and nine VOCs exhibited higher concentrations in SAA. Longitudinal analysis of VOCs from follow-up samples of 10 cases showed no significant temporal differences, reinforcing the reproducibility of identified biomarkers. Conclusions: This study exemplifies the potential of exhaled breath analysis to provide insights into the molecular background of SAA. Breath metabolomics may enable early recognition of severe asthma attacks and preventive therapeutic interventions in children with severe asthma.",

keywords = "breathomics, paediatric intensive care unit, paediatrics, severe acute asthma, thermal desorption gas chromatography–mass spectrometry, volatile organic compounds",

author = "\{van den Berg\}, Sarah and Zaat, \{Annabel S.\} and \{van der Poel\}, \{Isabel F.\} and \{van Dijk\}, \{Yoni E.\} and Simone Hashimoto and Rutjes, \{Niels W. P.\} and Terheggen-Largo, \{Suzanne W. J.\} and \{van Ewijk\}, \{Bart E.\} and Claudia Gagliani and Sondaal, \{Fleur L.\} and \{van Woensel\}, \{Job B. M.\} and \{Maitland-van der Zee\}, Anke-Hilse and Paul Brinkman and Vijverberg, \{Susanne J. H.\} and Berber Kapitein",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = apr,

day = "1",

doi = "10.3390/metabo15040247",

language = "English",

volume = "15",

journal = "Metabolites",

issn = "2218-1989",

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number = "4",

}

van den Berg, S, Zaat, AS, van der Poel, IF, van Dijk, YE , Hashimoto, S , Rutjes, NWP, Terheggen-Largo, SWJ, van Ewijk, BE, Gagliani, C, Sondaal, FL, van Woensel, JBM , Maitland-van der Zee, A-H , Brinkman, P , Vijverberg, SJH & Kapitein, B 2025, 'Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis', Metabolites, vol. 15, no. 4, 247. https://doi.org/10.3390/metabo15040247

TY - JOUR

T1 - Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis

AU - van den Berg, Sarah

AU - Zaat, Annabel S.

AU - van der Poel, Isabel F.

AU - van Dijk, Yoni E.

AU - Hashimoto, Simone

AU - Rutjes, Niels W. P.

AU - Terheggen-Largo, Suzanne W. J.

AU - van Ewijk, Bart E.

AU - Gagliani, Claudia

AU - Sondaal, Fleur L.

AU - van Woensel, Job B. M.

AU - Maitland-van der Zee, Anke-Hilse

AU - Brinkman, Paul

AU - Vijverberg, Susanne J. H.

AU - Kapitein, Berber

PY - 2025/4/1

Y1 - 2025/4/1

N2 - Background: Severe acute asthma (SAA) in children can be life-threatening. There has been a significant rise in paediatric intensive care unit (PICU) admissions due to SAA over the past two decades. While asthma is a heterogeneous disease, its underlying pathophysiological pathways remain underexplored. This study aimed to assess the value of non-invasive targeted exhaled breath metabolomics analysis to better characterise SAA. Methods: Breath samples from 17 children admitted to the PICU with SAA (cases) and 27 children with controlled severe asthma (controls) were analysed using thermal desorption gas chromatography–mass spectrometry (TD-GC-MS). Results: A targeted volatile organic compound (VOC) analysis identified 25 compounds, of which 16 were shared between groups. Four VOCs were significantly more often present in SAA, and nine VOCs exhibited higher concentrations in SAA. Longitudinal analysis of VOCs from follow-up samples of 10 cases showed no significant temporal differences, reinforcing the reproducibility of identified biomarkers. Conclusions: This study exemplifies the potential of exhaled breath analysis to provide insights into the molecular background of SAA. Breath metabolomics may enable early recognition of severe asthma attacks and preventive therapeutic interventions in children with severe asthma.

AB - Background: Severe acute asthma (SAA) in children can be life-threatening. There has been a significant rise in paediatric intensive care unit (PICU) admissions due to SAA over the past two decades. While asthma is a heterogeneous disease, its underlying pathophysiological pathways remain underexplored. This study aimed to assess the value of non-invasive targeted exhaled breath metabolomics analysis to better characterise SAA. Methods: Breath samples from 17 children admitted to the PICU with SAA (cases) and 27 children with controlled severe asthma (controls) were analysed using thermal desorption gas chromatography–mass spectrometry (TD-GC-MS). Results: A targeted volatile organic compound (VOC) analysis identified 25 compounds, of which 16 were shared between groups. Four VOCs were significantly more often present in SAA, and nine VOCs exhibited higher concentrations in SAA. Longitudinal analysis of VOCs from follow-up samples of 10 cases showed no significant temporal differences, reinforcing the reproducibility of identified biomarkers. Conclusions: This study exemplifies the potential of exhaled breath analysis to provide insights into the molecular background of SAA. Breath metabolomics may enable early recognition of severe asthma attacks and preventive therapeutic interventions in children with severe asthma.

KW - breathomics

KW - paediatric intensive care unit

KW - paediatrics

KW - severe acute asthma

KW - thermal desorption gas chromatography–mass spectrometry

KW - volatile organic compounds

UR - https://www.scopus.com/pages/publications/105003689518

U2 - 10.3390/metabo15040247

DO - 10.3390/metabo15040247

M3 - Article

C2 - 40278376

SN - 2218-1989

VL - 15

JO - Metabolites

JF - Metabolites

IS - 4

M1 - 247

ER -

Uncovering Non-Invasive Biomarkers in Paediatric Severe Acute Asthma Using Targeted Exhaled Breath Analysis

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Keywords

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