购买
下载掌阅APP,畅读海量书库
立即打开
畅读海量书库
扫码下载掌阅APP

参考文献

1.Treyin ZN,Ghosh M,Gksel Z,et al.Exhaled Breath Analysis in Diagnosis of Malignant Pleural Mesothelioma:Systematic Review.International Journal of Environmental Research and Public Health,2020,17(3):1110.

2.Chen MX,Wang SY,Kuo CH,et al.Metabolome analysis for investigating host-gut microbiota interactions.J Formos Med Assoc,2019,118 Suppl 1:S10-S22.

3.Bos LDJ.Diagnosis of acute respiratory distress syndrome by exhaled breath analysis.Ann Transl Med,2018,6(2):33.

4.Saasa V,Malwela T,Beukes M,et al.Sensing Technologies for Detection of Acetone in Human Breath for Diabetes Diagnosis and Monitoring.Diagnostics( Basel),2018,8(1):12.

5.Santini G,Mores N,Penas A,et al.Electronic Nose and Exhaled Breath NMR-based Metabolomics Applications in Airways Disease.Curr Top Med Chem,2016,16(14):1610-1630.

6.Wang Y,Jiang J,Hua L,et al.High-Pressure Photon Ionization Source for TOFMS and Its Application for Online Breath Analysis.Analytical Chemistry,2016,88(18):9047-9055.

7.Hua L,Hou K,Chen P,et al.Realization of in-source collision-induced dissociation in single-photon ionization time-of-flight mass spectrometry and its application for differentiation of isobaric compounds.Analytical Chemistry,2015,87(4):2427-2433.

8.Xie Y,Ping C,Lei H,et al.Rapid Identification and Quantification of Linear Olefin Isomers by Online Ozonolysis-Single Photon Ionization Time-of-Flight Mass Spectrometry.J Am Soc Mass Spectrom,2016,27(1):144-152.

9.Pugliese G,Trefz P,Brock B,et al.Extending PTR based breath analysis to real-time monitoring of reactive volatile organic compounds.Analyst,2019,144(24):7359-7367.

10.Ma lá skov á M,Henderson B,Chellayah PD,et al.Proton transfer reaction time-of-flight mass spectrometric measurements of volatile compounds contained in peppermint oil capsules of relevance to real-time pharmacokinetic breath studies.J Breath Res,2019,13(4):046009.

11.N ú ñez-Naveira L,LA Mariñas-Pardo,Montero-Mar ít nez C.Mass Spectrometry Analysis of the Exhaled Breath Condensate and Proposal of Dermcidin and S100A9 as Possible Markers for Lung Cancer Prognosis.Lung,2019,197(4):523-531.

12.Bayrakli I.Breath analysis using external cavity diode lasers:a review.J Biomed Opt,2017,22(4):40901.

13.Henderson B,Khodabakhsh A,Metsälä M,et al.Laser spectroscopy for breath analysis:towards clinical implementation.Appl Phys B,2018,124(8):161.

14.Chen Y,Zhang Y,Pan F,et al.Breath Analysis Based on Surface-Enhanced Raman Scattering Sensors Distinguishes Early and Advanced Gastric Cancer Patients from Healthy Persons.ACS Nano,2016,10(9):8169-8179.

15.G ü ntner AT,Pineau NJ,Mochalski P,et al.Sniffing Entrapped Humans with Sensor Arrays.Anal Chem,2018,90(8):4940-4945.

16.Ghorbani R,F M Schmidt.Real-time breath gas analysis of CO and CO2 using an EC-QCL.Applied Physics B,2017,123(5):144.

17.Pakmanesh N,et al.Quantum cascade laser-based sensors for the detection of exhaled carbon monoxide.Applied Physics B,2016,122(1):1-9.

18.Maignan M,Gennai S,Debaty G,et al.Exhaled carbon monoxide is correlated with ischemia reperfusion injuries during ex vivo lung perfusion in pigs.J Breath Res,2017,11(3):036004.

19.Khodabakhsh A,Rutkowski L,Morville J,et al.Mid-infrared continuous-filtering Vernier spectroscopy using a doubly resonant optical parametric oscillator.Applied Physics B,2017,123(7):210.

20.Kara O,Maidment L,Gardiner T,et al.Dual-comb spectroscopy in the spectral fingerprint region using OPGaP optical parametric oscillators.Optics Express,2017,25(26):32713.

21.Natale C D,Paolesse R,Martinelli E,et al.Solid-state gas sensors for breath analysis:A review.Analytica chimica acta,2014,824:1-17.

22.Schroeder V,Savagatrup S,He M,et al.Carbon Nanotube Chemical Sensors.Chem Rev,2019,119(1):599-663.

23.Nicole I,Eric H,Joseph S.Nitric Oxide Sensors for Biological Applications.Chemosensors,2018,6:1-13.

24.G ü ntner AT,Sievi NA,Theodore SJ,et al.Noninvasive Body Fat Burn Monitoring from Exhaled Acetone with Si-doped WO3-sensing Nanoparticles.Anal Chem,2017,89(19):10578-10584.

25.Akamatsu T,Itoh T,Shin W.Mixed-Potential Gas Sensors Using an Electrolyte Consisting of Zinc Phosphate Glass and Benzimidazole.Sensors,2017,17:1-8.

26.Schon S,Theodore S J,Güntner A T.Versatile Breath Sampler for Online Gas Sensor Analysis.Sensors and Actuators B:Chemical,2018,273:1780-1785.

27.van den Broek J,Güntner A T,Pratsinis S E.Highly Selective and Rapid Breath Isoprene Sensing Enabled by Activated Alumina Filter.ACS Sensor,2018,3(3):677-683.

28.Guntner AT,Koren V,Chikkadi K,et al.E-nose sensing of low-ppb formaldehyde in gas mixtures at high relative humidity for breath screening of lung cancer? ACS Sens,2016,1:528-535.

29.Broza YY,Vishinkin R,Barash O,et al.Synergy between nanomaterials and volatile organic compounds for noninvasive medical evaluation.Chem Soc Rev,2018,47(13):4781-4859.

30.Potyrailo RA.Toward high value sensing:monolayer-protected metal nanoparticles in multivariable gas and vapor sensors.Chem Soc Rev,2017,46(17):5311-5346.

31.Shehada N,Cancilla JC,Torrecilla JS,et al.Silicon nanowire sensors enable diagnosis of patients via exhaled breath.ACS Nano,2016,10(7):7047-7057.

32.Li Z,Suslick KS.Colorimetric Sensor Array for Monitoring CO and Ethylene.Anal Chem,2019,91(1):797-802.

33.Behera B,Joshi R,Anil Vishnu GK,et al.Electronic nose:a non-invasive technology for breath analysis of diabetes and lung cancer patients.J Breath Res,2019,13(2):024001.

34.Tarik Saidi,Omar Zaim,Mohammed Moufid,et al.Exhaled breath analysis using electronic nose and gas chromatography-mass spectrometry for non-invasive diagnosis of chronic kidney disease,diabetes mellitus and healthy subjects.Sensors and Actuators B:Chemical,2018,257:178-188. q9xhecpR8JfYKZwyD5m/xuDtq7WPYW5RL5PyKlxnSqRRA44oEbFhtJDfKDmvJqNp

点击中间区域
呼出菜单
上一章
目录
下一章
×