Within-day and between-day repeatability of measurements with an electronic nose in patients with COPD

Bofan, Maria; Mores, Nadia; Baron, M. San; Dąbrowska, Małgorzata; Valente, Salvatore; Schmid, Maurizio; Trovè, Andrea; Conforto, Silvia; Zini, Gina; Cattani, Paola; Fuso, Leonello; Mautone, A.; Mondino, Chiara; Pagliari, Gabriella; D’Alessio, Tommaso; Montuschi, Paolo

doi:10.1088/1752-7155/7/1/017103

Cited by 65 publications

(55 citation statements)

References 37 publications

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“…Its systematic application to EBC representative of normal or pathological states appears therefore very promising for future development that may provide a fully validated clinical diagnostic tool. Furthermore, combination of EBC proteomic analysis with EBC NMR spectroscopy and electronic noses, which have been reported to be reproducible techniques [47,48] might provide a more comprehensive breathomics approach.…”

Section: Discussionmentioning

confidence: 99%

Protein profile of exhaled breath condensate determined by high resolution mass spectrometry

Muccilli

Saletti

Cunsolo

et al. 2015

Journal of Pharmaceutical and Biomedical Analysis

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Section: Discussionmentioning

confidence: 99%

Protein profile of exhaled breath condensate determined by high resolution mass spectrometry

Muccilli

Saletti

Cunsolo

et al. 2015

Journal of Pharmaceutical and Biomedical Analysis

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“…As a result, in recent years, a number of techniques have been developed to analyze exhaled breath for investigating COPD among other lung diseases. These include the analysis of exhaled-breath condensate [5,6,7,8,9,10,11,12], exhaled particles [13] and volatile compounds [14,15,16,17,18,19,20]. Even trained dogs seem to be able to recognize the peculiar scent of COPD in exhaled breath [21].…”

Section: Introductionmentioning

confidence: 99%

Breath Analysis in Real Time by Mass Spectrometry in Chronic Obstructive Pulmonary Disease

et al. 2014

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Background: It has been suggested that exhaled breath contains relevant information on health status. Objectives: We hypothesized that a novel mass spectrometry (MS) technique to analyze breath in real time could be useful to differentiate breathprints from chronic obstructive pulmonary disease (COPD) patients and controls (smokers and nonsmokers). Methods: We studied 61 participants including 25 COPD patients [Global Initiative for Obstructive Lung Disease (GOLD) stages I-IV], 25 nonsmoking controls and 11 smoking controls. We analyzed their breath by MS in real time. Raw mass spectra were then processed and statistically analyzed. Results: A panel of discriminating mass-spectral features was identified for COPD (all stages; n = 25) versus healthy nonsmokers (n = 25), COPD (all stages; n = 25) versus healthy smokers (n = 11) and mild COPD (GOLD stages I/II; n = 13) versus severe COPD (GOLD stages III/IV; n = 12). A blind classification (i.e. leave-one-out cross validation) resulted in 96% sensitivity and 72.7% specificity (COPD vs. smoking controls), 88% sensitivity and 92% specificity (COPD vs. nonsmoking controls) and 92.3% sensitivity and 83.3% specificity (GOLD I/II vs. GOLD III/IV). Acetone and indole were identified as two of the discriminating exhaled molecules. Conclusions: We conclude that real-time MS may be a useful technique to analyze and characterize the metabolome of exhaled breath. The acquisition of breathprints in a rapid manner may be valuable to support COPD diagnosis and to gain insight into the disease.

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“…Similar studies should be undertaken with the aim of assessing the effects of EVH and MCT on markers of inflammation in exhaled breath condensate, including metabolites [24,25], leukotriene B4 [26] and isoprostanes [27,28] in patients with asthma. Likewise, it would be worth studying the effects of these challenges on e-nose breathprints [29,30]. …”

Section: Discussionmentioning

confidence: 99%

Exhaled Breath Temperature in Asthmatics and Controls after Eucapnic Voluntary Hyperventilation and a Methacholine Challenge Test

Svensson¹,

Bjermer²,

Tufvesson³

2013

Respiration

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Background: It has been suggested that exhaled breath temperature (EBT) is increased in asthmatic subjects. Objectives: Our aim was to investigate EBT in asthmatics compared to healthy controls before and after eucapnic voluntary hyperventilation (EVH) and a methacholine challenge test (MCT). Methods: A total of 26 asthmatics and 29 healthy controls were included. Forced expiratory volume in 1 s (FEV₁), EBT and oral, axillary and auricular temperatures were measured before and after EVH and MCT. Results: FEV₁ % predicted (%p) was significantly lower in asthmatic subjects compared to healthy controls at all time points. EBT was significantly increased in all subjects 15-30 min after EVH and 5-45 min after MCT. Oral temperature displayed a similar pattern of increase, in contrast to axillary and auricular temperature, and correlated with EBT before and after both of the challenge tests. EBT after 5 min correlated with the largest drop in FEV₁%p after EVH in asthmatic subjects. No significant differences or changes in EBT were found when comparing asthmatics to healthy controls before or after any of the tests. Conclusions: EBT is increased after both EVH and MCT, possibly reflecting a vascular response. This is related to both the fall in FEV₁ and to oral temperature, suggesting an effect on the whole respiratory tract including the oral cavity. No differences in EBT are seen between asthmatics and healthy controls, indicating that the increase in EBT is mainly physiological rather than pathophysiological.

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Within-day and between-day repeatability of measurements with an electronic nose in patients with COPD

Cited by 65 publications

References 37 publications

Protein profile of exhaled breath condensate determined by high resolution mass spectrometry

Protein profile of exhaled breath condensate determined by high resolution mass spectrometry

Breath Analysis in Real Time by Mass Spectrometry in Chronic Obstructive Pulmonary Disease

Exhaled Breath Temperature in Asthmatics and Controls after Eucapnic Voluntary Hyperventilation and a Methacholine Challenge Test

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