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Physiol Rep


Title:The Smell of Hypoxia: using an electronic nose at altitude and proof of concept of its role in the prediction and diagnosis of acute mountain sickness
Author(s):Lacey JRN; Kidel C; van der Kaaij JM; Brinkman P; Gilbert-Kawai ET; Grocott MPW; Mythen MG; Martin DS; Xtreme E;
Address:"University College London Centre for Altitude Space and Extreme Environment (CASE) Medicine, UCLH NIHR Biomedical Research Centre, Institute of Sport and Exercise Health, London, United Kingdom. Royal Free London NHS Foundation Trust, London, United Kingdom. Respiratory Medicine, AMC, University of Amsterdam, Amsterdam, Netherlands. Anaesthesia and Critical Care Research Unit, University Hospital Southampton NHS Foundation Trust, Southampton, United Kingdom. Critical Care Research Area, NIHR Respiratory Biomedical Research Unit, University Hospital Southampton NHS Foundation Trust, Southampton, United Kingdom. Integrative Physiology and Critical Illness Group, Clinical and Experimental Sciences, Faculty of Medicine, University of Southampton, Southampton, United Kingdom"
Journal Title:Physiol Rep
Year:2018
Volume:6
Issue:17
Page Number:e13854 -
DOI: 10.14814/phy2.13854
ISSN/ISBN:2051-817X (Electronic) 2051-817X (Linking)
Abstract:"Electronic nose (e-nose) devices may be used to identify volatile organic compounds (VOCs) in exhaled breath. VOCs generated via metabolic processes are candidate biomarkers of (patho)physiological pathways. We explored the feasibility of using an e-nose to generate human 'breathprints' at high altitude. Furthermore, we explored the hypothesis that pathophysiological processes involved in the development of acute mountain sickness (AMS) would manifest as altered VOC profiles. Breath analysis was performed on Sherpa and lowlander trekkers at high altitude (3500 m). The Lake Louise Scoring (LLS) system was used to diagnose AMS. Raw data were reduced by principal component (PC) analysis (PCA). Cross validated linear discriminant analysis (CV-LDA) and receiver-operating characteristic area under curve (ROC-AUC) assessed discriminative function. Breathprints suitable for analysis were obtained from 58% (37/64) of samples. PCA showed significant differences between breathprints from participants with, and without, AMS; CV-LDA showed correct classification of 83.8%, ROC-AUC 0.86; PC 1 correlated with AMS severity. There were significant differences between breathprints of participants who remained AMS negative and those whom later developed AMS (CV-LDA 68.8%, ROC-AUC 0.76). PCA demonstrated discrimination between Sherpas and lowlanders (CV-LDA 89.2%, ROC-AUC 0.936). This study demonstrated the feasibility of breath analysis for VOCs using an e-nose at high altitude. Furthermore, it provided proof-of-concept data supporting e-nose utility as an objective tool in the prediction and diagnosis of AMS. E-nose technology may have substantial utility both in altitude medicine and under other circumstances where (mal)adaptation to hypoxia may be important (e.g., critically ill patients)"
Keywords:Adult Altitude Sickness/*diagnosis Breath Tests/instrumentation/methods Electronic Nose/*standards Female Humans Male Proof of Concept Study Sensitivity and Specificity Volatile Organic Compounds/analysis Altitude sickness breath tests e-Nose hypoxia vola;
Notes:"MedlineLacey, Jonathan R N Kidel, Carlos van der Kaaij, Jildou M Brinkman, Paul Gilbert-Kawai, Edward T Grocott, Michael P W Mythen, Michael G Martin, Daniel S eng Department of Health/United Kingdom Research Support, Non-U.S. Gov't 2018/09/07 Physiol Rep. 2018 Sep; 6(17):e13854. doi: 10.14814/phy2.13854"

 
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