Oral or nasal breathing? Real-time effects of switching sampling route onto exhaled VOC concentrations

Sukul, Pritam; Oertel, Peter; Kamysek, Svend; Trefz, Phillip

doi:10.1088/1752-7163/aa6368

Cited by 52 publications

(78 citation statements)

References 39 publications

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“…Breath hydrogen sulphide is sourced from oral bacterial emissions and AMS is known to originate from food constituent e.g. garlic, onions etc 59 . Here, hydrogen sulphide exhalation did not change whereas AMS showed similar tendencies as DMS in both cohorts.…”

Section: Discussionmentioning

confidence: 99%

Natural menstrual rhythm and oral contraception diversely affect exhaled breath compositions

Sukul¹,

Schubert²,

Trefz³

et al. 2018

Sci Rep

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Natural menstrual cycle and/or oral contraception diversely affect women metabolites. Longitudinal metabolic profiling under constant experimental conditions is thereby realistic to understand such effects. Thus, we investigated volatile organic compounds (VOCs) exhalation throughout menstrual cycles in 24 young and healthy women with- and without oral contraception. Exhaled VOCs were identified and quantified in trace concentrations via high-resolution real-time mass-spectrometry, starting from a menstruation and then repeated follow-up with six intervals including the next bleeding. Repeated measurements within biologically comparable groups were employed under optimized measurement setup. We observed pronounced and substance specific changes in exhaled VOC concentrations throughout all cycles with low intra-individual variations. Certain blood-borne volatiles changed significantly during follicular and luteal phases. Most prominent changes in endogenous VOCs were observed at the ovulation phase with respect to initial menstruation. Here, the absolute median abundances of alveolar ammonia, acetone, isoprene and dimethyl sulphide changed significantly (P-value ≤ 0.005) by 18.22↓, 13.41↓, 18.02↑ and 9.40↓%, respectively. These VOCs behaved in contrast under the presence of combined oral contraception; e.g. isoprene decreased significantly by 30.25↓%. All changes returned to initial range once the second bleeding phase was repeated. Changes in exogenous benzene, isopropanol, limonene etc. and smoking related furan, acetonitrile and orally originated hydrogen sulphide were rather nonspecific and mainly exposure dependent. Our observations could apprehend a number of known/pre-investigated metabolic effects induced by monthly endocrine regulations. Potential in vivo origins (e.g. metabolic processes) of VOCs are crucial to realize such effects. Despite ubiquitous confounders, we demonstrated the true strength of volatolomics for metabolic monitoring of menstrual cycle and contraceptives. These outcomes may warrant further studies in this direction to enhance our fundamental and clinical understanding on menstrual metabolomics and endocrinology. Counter-effects of contraception can be deployed for future noninvasive assessment of birth control pills. Our findings could be translated toward metabolomics of pregnancy, menopause and post-menopausal complications via breath analysis.

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Section: Discussionmentioning

confidence: 99%

Natural menstrual rhythm and oral contraception diversely affect exhaled breath compositions

Sukul¹,

Schubert²,

Trefz³

et al. 2018

Sci Rep

Self Cite

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show abstract

“…socio-demographic, clinical examination, medical condition, lab tests, medication intake, phenotypic data, sensor data) along with machine learning techniques are presented in [24,[29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45][46][47]49]. Recent studies have identified certain biomarkers which strongly correlate with the HF severity, progression and mortality [64][65][66][67][68][69][70][71][72][73][74][75][76][77][78][79][80][81], while the progress in analytical chemistry and biosensor development allowed their detection in saliva and breath [82][83][84][85] with prominent merits due to the easy and non-invasive sample collection. The Event prediction module aims to inform the experts about the possible presence of adverse events (relapses and mortality): (i) by introducing saliva and breath biomarkers into the adverse event prediction process, (ii) based on a machine le...…”

Section: Event Prediction Modulementioning

confidence: 99%

HEARTEN KMS – A knowledge management system targeting the management of patients with heart failure

Tripoliti

Karanasiou

Kalatzis

et al. 2019

Journal of Biomedical Informatics

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The aim of this work is to present the HEARTEN Knowledge Management System, one of the core modules of the HEARTEN platform. The HEARTEN platform is an mHealth collaborative environment enabling the Heart Failure patients to self-manage the disease and remain adherent, while allowing the other ecosystem actors (healthcare professionals, caregivers, nutritionists, physical activity experts, psychologists) to monitor the patient's health progress and offer personalized, predictive and preventive disease management. The HEARTEN Knowledge Management System is a tool which provides multiple functionalities to the ecosystem actors for the assessment of the patient's condition, the estimation of the patient's adherence, the prediction of potential adverse events, the calculation of Heart Failure related scores, the extraction of statistics, the association of patient clinical and non-clinical data and the provision of alerts and suggestions. The innovation of this tool lays in the analysis of multiparametric personal data coming from different sources, including for the first time breath and saliva biomarkers, and the use of machine learning techniques. The HEARTEN Knowledge Management System consists of nine modules. The accuracy of the KMS modules ranges from 78-95% depending on the module/functionality.

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“…[29][30][31] An air sampling method was selected to collect inhaled and exhaled air for each subject. [29][30][31] An air sampling method was selected to collect inhaled and exhaled air for each subject.…”

Section: Me Thodsmentioning

confidence: 99%

“…As the breath modality such as oral or nasal, body position, and breath holding may significantly effect on exhaled concentrations, the breathing sampling process should be normalized and strictly monitored. [29][30][31] An air sampling method was selected to collect inhaled and exhaled air for each subject. 12 The apparatus of collecting exhaled air was composed of a disposable blow nozzle, a spherical condenser and a Tedlar gas sampling bag (Alllabware Scientific, 5 L).…”

Section: Me Thodsmentioning

confidence: 99%

Human respiratory system as sink for volatile organic compounds: Evidence from field measurements

Sun

Yang

2019

Indoor Air

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Human exposure to volatile organic compounds (VOCs) via inhalation might increase the risk of specific diseases. Human breath has been widely investigated as a source of VOCs. However, the role of the human respiratory system as a sink for VOCs is much less studied. In this observational study, the VOC concentrations in inhaled and exhaled air in different environmental conditions were investigated. A total of 98 healthy non‐smoking subjects who were exposed to a wide variation in levels of VOCs participated in this study. Individual and statistical results show that human breath could serve as a source for some VOCs and a sink for others, and even when human breath serves as a sink, not all VOCs were 100% absorbed. Interestingly, an increase in inhaled concentrations of toluene was observed to convert human breath from being a source to being a sink. Attention could be given to those VOCs for which humans act as a strong sink.

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Oral or nasal breathing? Real-time effects of switching sampling route onto exhaled VOC concentrations

Cited by 52 publications

References 39 publications

Natural menstrual rhythm and oral contraception diversely affect exhaled breath compositions

Natural menstrual rhythm and oral contraception diversely affect exhaled breath compositions

HEARTEN KMS – A knowledge management system targeting the management of patients with heart failure

Human respiratory system as sink for volatile organic compounds: Evidence from field measurements

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