Advanced search
Publication Cover
Critical Reviews in Analytical Chemistry Volume 37, 2007 - Issue 1
Submit an article Journal homepage
1,963
Views
164
CrossRef citations to date
0
Altmetric
Original Articles

Current Status of Methods and Techniques for Breath Analysis

Wenqing Cao Los Alamos National Laboratory, Los Alamos, New Mexico, USA
&
Yixiang Duan Los Alamos National Laboratory, Los Alamos, New Mexico, USA
Pages 3-13 | Published online: 02 Mar 2007

REFERENCES

  • Miekisch , W. , Schubert , J. K. and Noeldge-Schomburg , G. F. E. 2004 . Diagnostic potential of breath analysis—Focus on volatile organic compounds . Clinica Chimica Acta , 347 : 25 – 39 .
  • Phillips , M. , Herrera , J. , Krishnan , S. , Zain , M. , Greenberg , J. and Cataneo , R. 1999 . Variation in volatile organic compounds in the breath of normal humans . Journal of Chromatography B , 729 : 75 – 88 .
  • Schubert , J. K. , Miekisch , W. , Geiger , K. and Noldge-Schomburg , G. F. E. 2004 . Breath analysis in critically ill patients: Potential and limitations . Expert Review of Molecular Diagnostics , 4 : 619 – 629 .
  • Mukhopadhyay , R. 2004 . Don't waste your breath . Analytical Chemistry , 76 : 273A – 276A .
  • Sanchez , J. M. and Sacks , R. D. 2003 . GC analysis of human breath with a series-coupled column ensemble and a multibed sorption trap . Analytical Chemistry , 75 : 2231 – 2236 .
  • Pleil , J. D. and Lindstrom , A. B. 1997 . Exhaled human breath measurement method for assessing exposure to halogenated volatile organic compounds . Clinical Chemistry , 43 : 723 – 730 .
  • Phillips , M. 1992 . Breath tests in medicine . Scientific American , 267 : 74 – 79 .
  • Pauling , L. , Robinson , A. B. , Teranishi , R. and Cary , P. 1971 . Quantitative analysis of urine vapour and breath by gas–liquid partition chromatography . Proc Natl Acad Sci USA , 68 : 2374 – 2376 .
  • Gisbert , J. P. and Pajares , J. M. 2004 . Review article: 13C-urea breath test in the diagnosis of Helicobacter pylori infection—A critical review . Alimentary Pharmacology & Therapeutics , 20 : 1001 – 1017 .
  • Logan , R. P. H. 1998 . Urea breath tests in the management of Helicobacter pylori infection . Gut , 43 : S47 – S50 .
  • BreathTek UBiT system . http://www.meretek.com/physician 〈instruments.asp#UBiT〉, accessed December 12, 2006
  • Romagnuolo , J. , Schiller , D. and Bailey , R. J. 2002 . Using breath tests wisely in a gastroenterology practice: An evidence-based review of indications and pitfalls in interpretation . American Journal of Gastroenterology , 97 : 1113 – 1126 .
  • Peng , N. J. , Lai , K. H. Liu , R. S. 2001 . Clinical significance of oral urease in diagnosis of Helicobacter pylori infection by [C-13]urea breath test . Digestive Diseases and Sciences , 46 : 1772 – 1778 .
  • Graham , D. Y. , Malaty , H. M. , Cole , R. A. , Martin , R. F. and Klein , P. D. 2001 . Simplified C-13-urea breath test for detection of Helicobacter pylori infection . American Journal Of Gastroenterology , 96 : 1741 – 1745 .
  • Rosias , P. P. R. , Dompeling , E. Dentener , M. A. 2004 . Childhood asthma: Exhaled markers of airway inflammation, asthma control score, and lung function tests . Pediatric Pulmonology , 38 : 107 – 114 .
  • Stick , S. M. 2002 . Non-invasive monitoring of airway inflammation . Medical Journal of Australia , 177 : S59 – S60 .
  • Kissoon , N. , Duckworth , L. , Blake , K. , Murphy , S. and Silkoff , P. E. 1999 . Exhaled nitric oxide measurements in childhood asthma: Techniques and interpretation . Pediatric Pulmonology , 28 : 282 – 296 .
  • Gabbay , E. , Fisher , A. J. , Small , T. , Leonard , A. J. and Corris , P. A. 1998 . Exhaled single-breath nitric oxide measurements are reproducible, repeatable and reflect levels of nitric oxide found in the lower airways . European Respiratory Journal , 11 : 467 – 472 .
  • Cao , W. and Duan , Y. Biomarker related breath analysis for clinic diagnosis and exposure assessment Submitted to Clinical Chemistry.
  • Guilbault , G. G. , Palleschi , G. and Lubrano , G. 1995 . Noninvasive biosensors in clinical analysis . Biosensors and Bioelectronics , 10 ( 3–4 ) : 379 – 392 .
  • Manolis , A. 1983 . The diagnostic potential of breath analysis . Clinical Chemistry , 29 ( 1 ) : 5 – 15 .
  • Horvath , I. , Hunt , J. and Barnes , P. J. 2005 . Exhaled breath condensate: Methodological recommendations and unresolved questions . European Respiratory Journal , 26 ( 3 ) : 523 – 548 .
  • Liu , J. and Thomas , P. S. 2005 . Exhaled breath condensate as a method of sampling airway nitric oxide and other markers of inflammation . Medical Science Monitor , 11 ( 8 ) : MT53 – MT62 .
  • Montuschi , P. 2005 . Exhaled breath condensate analysis in patients with COPD . Clinica Chimica Acta , 356 ( 1–2 ) : 22 – 34 .
  • Pollet , I. V. , Pieters , J. G. , Deltour , J. and Verschoore , R. 2005 . Diffusion of radiation transmitted through dry and condensate covered transmitting materials . Solar Energy Materials and Solar Cells , 86 ( 2 ) : 177 – 196 .
  • Effros , R. M. , Dunning , M. B. , Biller , J. and Shaker , R. 2004 . The promise and perils of exhaled breath condensates . American Journal of Physiology—Lung Cellular and Molecular Physiology , 287 ( 6 ) : L1073 – L1080 .
  • Rosias , P. P. R. , Dompeling , E. , Hendriks , H. J. E. , Heijnens , J. W. C. M. , Donckerwolcke , R. A. M. G. and Jobsis , Q. 2004 . Exhaled breath condensate in children: Pearls and pitfalls . Pediatric Allergy and Immunology , 15 ( 1 ) : 4 – 19 .
  • Rahman , I. and Kelly , F. 2003 . Biomarkers in breath condensate: A promising new non-invasive technique in free radical research . Free Radical Research , 37 ( 12 ) : 1253 – 1266 .
  • Montuschi , P. and Barnes , P. J. 2002 . Analysis of exhaled breath condensate for monitoring airway inflammation . Trends in Pharmacological Sciences , 23 ( 5 ) : 232 – 237 .
  • Mutlu , G. M. , Garey , K. W. , Robbins , R. A. , Danziger , L. H. and Rubinstein , I. 2001 . Collection and analysis of exhaled breath condensate in humans . American Journal of Respiratory and Critical Care Medicine , 164 ( 5 ) : 731 – 737 .
  • Cheng , W. H. and Lee , W. J. 1999 . Technology development in breath microanalysis for clinical diagnosis . Journal of Laboratory and Clinical Medicine , 133 ( 3 ) : 218 – 228 .
  • Kharitonov , S. A. , Chung , K. F. , Evans , D. , O'Connor , B. J. and Barnes , P. J. 1996 . Increased exhaled nitric oxide in asthma is mainly derived from the lower respiratory tract . American Journal of Respiratory and Critical Care Medicine , 153 : 1773 – 1780 .
  • Vreman , H. J. , Stevenson , D. K. , Oh , W. , Fanaroff , A. A. , Wright , L. L. Lemons , J. A. 1994 . Semiportable electrochemical instrument for determining carbon monoxide in breath . Clinical Chemistry , 40 : 1927 – 1933 .
  • Stevenson , D. K. , Vreman , H. J. , Oh , W. , Fanaroff , A. A. , Wright , L. L. Lemons , J. A. 1994 . Bilirubin production in healthy term infants as measured by carbon monoxide in breath . Clinical Chemistry , 40 : 1934 – 1939 .
  • Vreman , H. J. , Baxter , L. M. , Stone , R. T. and Stevenson , D. K. 1996 . Evaluation of a fully automated end-tidal carbon monoxide instrument for breath analysis . Clinical Chemistry , 42 : 50 – 56 .
  • Glaser , R. A. , Arnold , J. E. and Shulman , S. A. 1990 . Comparison of three sampling and analytical methods for measuring m-xylene in expired air of exposed humans . American Industrial Hygiene Association Journal , 51 : 139 – 150 .
  • Franzblau , A. , Levine , S. P. , Burgess , L. A. , Qu , Q. S. , Schreck , R. M. and Darcy , J. B. 1992 . The use of transportable Fourier transform infrared (FTIR) spectrometer for the direct measurement of solvents in breath and ambient air. I. Methanol . American Industrial Hygiene Association Journal , 53 ( 4 ) : 221 – 227 .
  • Schubert , J. K. , Spittler , K. H. , Braun , G. , Geiger , K. and Guttmann , J. 2001 . CO2-controlled sampling of alveolar gas in mechanically ventilated patients . Journal of Applied Physiology , 90 ( 2 ) : 486 – 492 .
  • Phillips , M. 1997 . Methods for the collection and assay of volatile organic compounds in breath . Analytical Biochemistry , 247 ( 2 ) : 272 – 278 .
  • Phillips , M. and Greenberg , J. 1992 . Ion-trap detection of volatile organic compounds in alveolar breath . Clinical Chemistry , 38 : 60 – 65 .
  • Groves , W. A. and Zellers , E. T. 1996 . Investigation of organic vapor losses to condensed water vapor in Tedlar bags used for exhaled-breath sampling . American Industrial Hygiene Association Journal , 57 ( 3 ) : 257 – 263 .
  • Conkle , J. P. , Camp , B. J. and Welch , B. E. 1975 . Trace composition of human respiratory gas . Archives of Environmental Health , 30 ( 6 ) : 290 – 295 .
  • Eriksen , S. 1964 . Studying the composition of human breath . New Scientist , 381 : 608 – 611 .
  • Zlatkis , A. , Lichtenstein , H. A. and Tishbee , A. 1973 . Concentration and analysis of trace volatile organics in gases and biological fluids with a new solid adsorbent . Chromatographia , 6 ( 2 ) : 67 – 70 .
  • Zlatkis , A. , Bertsch , W. , Lichtens , H. A. , Tishbee , A. , Shunbo , F. , Liebich , H. M. , Coscia , A. M. and Fleische , N. 1973 . Profile of volatile metabolites in urine by gas chromatography mass spectrometry . Analytical Chemistry , 45 ( 4 ) : 763 – 767 .
  • Zlatkis , A. , Bertsch , W. , Bafus , D. A. and Liebich , H. M. 1974 . Analysis of trace volatile metabolites in serum and plasma . Journal of Chromatography , 91 : 379 – 383 .
  • Janak , J. , Ruzickova , J. and Novak , J. 1974 . Effects of water vapor in the quantitation of trace components concentrated by frontal gas chromatography on Tenax-GC . Journal of Chromatography , 99 : 689 – 696 .
  • Novotny , M. , Lee , M. L. and Bartle , K. D. 1974 . Some analytical aspects of the chromatographic headspace concentration method using a porous polymer . Chromatographia , 7 : 333 – 338 .
  • Krotoszynski , B. , Gabriel , G. , O'Neill , H. and Claudio , M. P. A. 1977 . Characterization of human expired air—A promising investigative and diagnostic technique . Journal of Chromatographic Science , 15 ( 7 ) : 239 – 244 .
  • Krotoszynski , B. K. , Bruneau , G. M. and O'Neill , H. J. 1979 . Measurement Of chemical inhalation exposure in an urban population in the presence of endogenous effluents . Journal of Analytical Toxicology , 3 ( 6 ) : 225 – 234 .
  • Barkley , J. , Bunch , J. , Bursey , J. T. , Castillo , N. , Cooper , S. D. , Davis , J. M. , Erickson , M. D. , Harris , B. S. H. , Kirkpatrick , M. Michael , L. C. 1980 . Gas chromatography mass spectrometry computer-analysis of volatile halogenated hydrocarbons in man and his environment—A multi-media environmental study . Biomedical Mass Spectrometry , 7 ( 4 ) : 139 – 147 .
  • Gage , J. C. , Lagessen , V. and Tunek , A. 1977 . A method for the determination of low concentrations of organic vapors in air and inhaled breath . Ann. Occup. Hyg. , 20 : 127 – 134 .
  • Pebay-Peyroula , F. and Nicaise , A. M. 1970 . Pulmonary elimination of toxic substances. Measurement and toxological applications . Poumon eoeur , 26 : 853 – 866 .
  • Bryant , P. J. , Weddle , O. H. and Gutschall , P. L. 1974 . Mass spectrometry applied to human breath analysis . Jpn. J. Appl. Phys. Suppl. , 2 : 159 – 161 .
  • Henderson , M. J. , Karger , B. A. and Wrenshall , G. A. 1952 . Acetone in the breath—A study of acetone exhalation in diabetic and nondiabetic human subjects . Diabetes , 1 ( 3 ) : 188 – 193 .
  • Teshima , N. , Li , J. Z. , Toda , K. and Dasgupta , P. K. 2005 . Determination of acetone in breath . Analytica Chimica Acta , 535 ( 1–2 ) : 189 – 199 .
  • Duan , Y. and Cao , W. Noninvasive diagnostics of disease based on microplasma portable device through breath acetone analysis: A potential tool for monitoring diabetes. Currently in review process . Analytical Chemistry ,
  • Saba , A. , Raffaelli , A. , Pucci , S. and Salvadori , P. A. 1999 . Simple method for the extraction of volatile organic compounds contained in air samples from adsorbent materials by solid phase microextraction and their analysis by gas chromatography/mass spectrometry . Rapid Communications in Mass Spectrometry , 13 ( 19 ) : 1899 – 1902 .
  • Giardina , M. and Olesik , S. V. 2003 . Application of low-temperature glassy carbon-coated macrofibers for solid-phase microextraction analysis of simulated breath volatiles . Analytical Chemistry , 75 ( 7 ) : 1604 – 1614 .
  • Grote , C. and Pawliszyn , J. 1997 . Solid-phase microextraction for the analysis of human breath . Analytical Chemistry , 69 ( 4 ) : 587 – 596 .
  • Miekisch , W. , Schubert , J. K. , Vagts , D. A. and Geiger , K. 2001 . Analysis of volatile disease markers in blood . Clinical Chemistry , 47 ( 6 ) : 1053 – 1060 .
  • Tangerman , A. , Meuwesearends , M. T. and Vantongeren , J. H. M. 1985 . New methods for the release of volatile sulfur compounds from human serum its determination by Tenax trapping and gas chromatography and its application in liver diseases . Journal of Laboratory and Clinical Medicine , 106 ( 2 ) : 175 – 182 .
  • Mueller , W. , Schubert , J. , Benzing , A. and Geiger , K. 1998 . Method for analysis of exhaled air by microwave energy desorption coupled with gas chromatography-flame ionization detection-mass spectrometry . Journal of Chromatography , B716 ( 1–2 ) : 27 – 38 .
  • Risby , T. H. 2002 . Volatile organic compounds as markers in normal and diseased states . NATO Science Series, Sub-Series I: Life And Behavioural Sciences , 346 : 113 – 122 .
  • Stein , V. B. , Narang , R. S. , Wilson , L. and Aldous , K. M. 1996 . A simple, reliable method for the determination of chlorinated volatile organics in human breath and air using glass sampling tubes . Journal of Analytical Toxicology , 20 ( 3 ) : 145 – 150 .
  • http://www.sisweb.com/index/referenc/resin3.htm〈Definition of Breakthrough Volume〉
  • Larstad , M. , Loh , C. , Ljungkvist , G. , Olin , A. C. and Toren , K. 2002 . Determination of ethane, pentane and isoprene in exhaled air using a multi-bed adsorbent and end-cut gas-solid chromatography . Analyst , 127 ( 11 ) : 1440 – 1445 .
  • Oliver , K. D. , Adan , J. R. , Daughtrey , E. J. R. , Mcclenny , W. A. , Yoong , M. J. Pardee , M. A. 1996 . Technique for monitoring toxic VOCs in air sorbent preconcentration, closed-cycle cooler cryofocusing and GC/MS analysis . Environ Sci Technol , 30 : 1939 – 1945 .
  • Lord , H. , Yu , Y. F. , Segal , A. and Pawliszyn , J. 2002 . Breath analysis and monitoring by membrane extraction with sorbent interface . Analytical Chemistry , 74 ( 21 ) : 5650 – 5657 .
  • Ghoos , Y. , Hiele , M. , Rutgeerts , P. , Vantrappen , G. and Porous-layer , G. 1989 . Open-tubular gas chromatography in combination with an ion trap detector to assess volatile metabolites in human breath . Biomedical and Environmental Mass Spectrometry , 18 ( 8 ) : 613 – 616 .
  • Mendis , S. , Sobotka , P. A. and Euler , D. E. 1994 . Pentane and isoprene in expired air from human: gas chromatographic analysis of a single breath . Clinical Chemistry , 40 : 1485 – 1488 .
  • Kneepkens , C. M. E. , Lepage , G. and Roy , C. C. 1994 . The potential of the hydrocarbon breath test as a measure of lipid peroxidation . Free Radic Biol Med , 17 : 127 – 160 .
  • Phillips , M. and Greenberg , J. 1991 . Method for the collection and analysis of volatile compounds in the breath . Journal of Chromatography Biomedical Applications , 564 ( 1 ) : 242 – 249 .
  • Daughtrey , E. H. , Oliver , K. D. , Adams , J. R. , Kronmiller , K. G. , Lonneman , W. A. and McClenny , W. A. 2001 . A comparison of sampling and analysis methods for low-ppbC levels of volatile organic compounds in ambient air . Journal of Environmental Monitoring , 3 ( 1 ) : 166 – 174 .
  • Haley , L. V. and Romeskie , J. M. 1998 . Development of an explosives detection system using fast GC-IMS technology . IEEE 32nd Annual 1998 International Carnahan Conference on Security Technology . Oct. 12–14 1998 , Alexandria, VA, USA. pp. 59 – 64 .
  • Hansel , A. , Jordan , A. , Holzinger , R. , Prazeller , P. , Vogel , W. and Lindinger , W. 1995 . Proton-transfer reaction mass spectrometry—Online trace gas analysis at the ppb level . International Journal of Mass Spectrometry and Ion Processes , 150 : 609 – 619 .
  • Jordan , A. , Hansel , A. , Holzinger , R. and Lindinger , W. 1995 . Acetonitrile and benzene in the breath of smokers and nonsmokers investigated by proton-transfer reaction mass spectrometry (Ptr-Ms) . International Journal of Mass Spectrometry and Ion Processes , 148 ( 1–2 ) : L1 – L3 .
  • Taucher , J. , Hansel , A. , Jordan , A. and Lindinger , W. 1996 . Analysis of compounds in human breath after ingestion of garlic using proton-transfer-reaction mass spectrometry . Journal of Agricultural and Food Chemistry , 44 ( 12 ) : 3778 – 3782 .
  • Warneke , C. , Kuczynski , J. , Hansel , A. , Jordan , A. , Vogel , W. and Lindinger , W. 1996 . Proton transfer reaction mass spectrometry (PTR-MS): Propanol in human breath . International Journal of Mass Spectrometry and Ion Processes , 154 ( 1–2 ) : 61 – 70 .
  • Lindinger , W. and Hansel , A. 1997 . Analysis of trace gases at ppb levels by proton transfer reaction mass spectrometry (PTR-MS) . Plasma Sources, Science and Technology , 6 ( 2 ) : 111 – 117 .
  • Lindinger , W. , Hansel , A. and Jordan , A. 1998 . Online monitoring of volatile organic compounds at pptv levels by means of proton-transfer-reaction mass spectrometry (PTR-MS) medical applications, food control and environmental research . International Journal of Mass Spectrometry and Ion Processes , 173 ( 3 ) : 191 – 241 .
  • Amann , A. , Poupart , G. , Telser , S. , Ledochowski , M. , Schmid , A. and Mechtcheriakov , S. 2004 . Applications of breath gas analysis in medicine . International Journal of Mass Spectrometry , 239 ( 2–3 ) : 227 – 233 .
  • Karl , T. , Prazeller , P. , Mayr , D. , Jordan , A. , Rieder , J. , Fall , R. and Lindinger , W. 2001 . Human breath isoprene and its relation to blood cholesterol levels: New measurements and modeling . Journal of Applied Physiology , 91 ( 2 ) : 762 – 770 .
  • Boschetti , A. , Biasioli , F. , van Opbergen , M. , Warneke , C. , Jordan , A. , Holzinger , R. , Prazeller , P. , Karl , T. , Hansel , A. Lindinger , W. 1999 . PTR-MS real time monitoring of the emission of volatile organic compounds during postharvest aging of berryfruit . Postharvest Biology And Technology , 17 ( 3 ) : 143 – 151 .
  • Mayr , D. , Mark , T. , Lindinger , W. , Brevard , H. and Yeretzian , C. 2003 . Breath-by-breath analysis of banana aroma by proton transfer reaction mass spectrometry . International Journal of Mass Spectrometry , 223–224 : 743 – 756 .
  • Moser , B. , Bodrogi , F. , Eibl , G. , Lechner , M. , Rieder , J. and Lirk , P. 2005 . Mass spectrometric profile of exhaled breath—Field study by PTR-MS . Respiratory Physiology and Neurobiology , 145 ( 2–3 ) : 295 – 300 .
  • Williams , J. , Poschl , U. , Crutzen , P. J. , Hansel , A. , Holzinger , R. , Warneke , C. , Lindinger , W. and Lelieveld , J. 2001 . An atmospheric chemistry interpretation of mass scans obtained from a proton transfer mass spectrometer flown over the tropical rainforest of Surinam . Journal of Atmospheric Chemistry , 38 ( 2 ) : 133 – 166 .
  • Karl , T. , Fall , R. , Crutzen , P. J. , Jordan , A. and Lindinger , W. 2001 . High concentrations of reactive biogenic VOCs at a high altitude site in late autumn . Geophysical Research Letters , 28 ( 3 ) : 507 – 510 .
  • de Gouw , J. , Warneke , C. , Karl , T. , Eerdekens , G. , van der Veen , C. and Fall , R. 2003 . Sensitivity and specificity of atmospheric trace gas detection by proton-transfer-reaction mass spectrometry . International Journal of Mass Spectrometry , 223–224 : 365 – 382 .
  • Warneke , C. , De Gouw , J. A. , Kuster , W. C. , Goldan , P. D. and Fall , R. 2003 . Validation of atmospheric VOC measurements by proton-transfer-reaction mass spectrometry using a gas-chromatographic preseparation method . Environmental Science and Technology , 37 ( 11 ) : 2494 – 2501 .
  • Smith , D. and Spanel , P. 1996 . Application of ion chemistry and the SIFT technique to the quantitative analysis of trace gases in air and on breath . International Reviews In Physical Chemistry , 15 ( 1 ) : 231 – 271 .
  • Spanel , P. and Smith , D. 1996 . Selected ion flow tube: A technique for quantitative trace gas analysis of air and breath . Medical and Biological Engineering and Computing , 34 ( 6 ) : 409 – 419 .
  • Smith , D. , Spanel , P. and Davies , S. 1999 . Trace gases in breath of healthy volunteers when fasting and after a protein-calorie meal: A preliminary study . Journal of Applied Physiology , 87 ( 5 ) : 1584 – 1588 .
  • Smith , D. and Spanel , P. 2005 . Selected ion flow tube mass spectrometry (SIFT-MS) for online trace gas analysis . Mass Spectrometry Reviews , 24 ( 5 ) : 661 – 700 .
  • Diskin , A. M. , Spanel , P. and Smith , D. 2003 . Time variation of ammonia, acetone, isoprene and ethanol in breath: A quantitative SIFT-MS study over 30 days . Physiological Measurement , 24 ( 1 ) : 107 – 119 .
  • Spanel , P. , Davies , S. and Smith , D. 1999 . Quantification of breath isoprene using the selected ion flow tube mass spectrometric analytical method . Rapid Communications in Mass Spectrometry , 13 ( 17 ) : 1733 – 1738 .
  • Abbott , S. M. , Elder , J. B. , Spanel , P. and Smith , D. 2003 . Quantification of acetonitrile in exhaled breath and urinary headspace using selected ion flow tube mass spectrometry . International Journal of Mass Spectrometry , 228 ( 2–3 ) : 655 – 665 .
  • Vaira , D. , Holton , J. , Ricci , C. , Basset , C. , Gatta , L. , Perna , F. , Tampieri , A. and Miglioli , M. 2002 . Helicobacter pylori infection from pathogenesis to treatment: A critical reappraisal . Alimentary Pharmacology and Therapeutics , 16 : 105 – 113 . (Supplement 4)
  • Smith , D. and Spanel , P. 1996 . The novel selected ion flow tube approach trace gas analysis of air and breath . Rapid Communications in Mass Spectrometry , 10 : 1183 – 1198 .
  • Gardner , J. W. and Bartlett , P. N. 1999 . Electronic Noses—Principles and Applications , 245 New York : Oxford University Press .
  • Lundstrom , I. , Armgarth , M. , Spetz , A. and Winquist , F. 1986 . Gas sensors based on catalytic metal-gate field-effect devices . Sensors and Actuators , 10 : 399 – 421 .
  • Persaud , K. C. , Khaffaf , S. M. , Payne , J. S. , Pisanelli , A. M. , Lee , D. H. and Byun , H. G. 1996 . Sensor array techniques for mimicking the mammalian olfactory system . Sensors and Actuators B , 35–36 : 267 – 273 .
  • Schaller , E. , Bosset , J. O. and Escher , F. 1998 . Electronic noses and their application to food . Lebensmittel-Wissenschaff and Technologie , 31 : 305 – 316 .
  • Natale , C. D. , Macagnano , A. , Martinelli , E. , Paolesse , R. , D'Arcangelo , G. , Roscioni , C. , Finazzi-Agro , A. and D'Amico , A. 2003 . Lung cancer identification by the analysis of breath by means of an array of nonselective gas sensors . Biosensors and Bioelectronics , 18 ( 10 ) : 1209 – 1218 .
  • Huang , H. H. , Zhou , J. , Chen , S. Y. , Zeng , L. and Huang , Y. P. 2004 . A highly sensitive QCM sensor coated with Ag+-ZSM-5 film for medical diagnosis . Sensors and Actuators B , 101 ( 3 ) : 316 – 321 .
  • Fleischer , M. , Simon , E. , Rumpel , E. , Ulmer , H. , Harbeck , M. , Wandel , M. , Fietzek , C. , Weimar , U. and Meixner , H. 2002 . Detection of volatile compounds correlated to human diseases through breath analysis with chemical sensors . Sensors and Actuators B , 83 ( 1–3 ) : 245 – 249 .
  • Silver , J. A. 1992 . Frequency modulation detection for trace species detection: Theory and comparison among experimental methods . Applied Optics , 31 : 707 – 717 .
  • Skeldon , K. D. , Patterson , C. , Wyse , C. A. , Gibson , G. M. , Padgett , M. J. , Longbottom , C. and McMillan , L. C. 2005 . The potential offered by real-time, high-sensitivity monitoring of ethane in breath and some pilot studies using optical spectroscopy . Journal of Optics A: Pure and Applied Optics , 7 ( 6 ) : S376 – S384 .
  • Roller , C. , Namjou , K. , Jeffers , J. , Potter , W. , McCann , P. J. and Grego , J. 2002 . Simultaneous NO and CO2 measurement in human breath with a single IV-VI mid-infrared laser . Optics Letters , 27 ( 2 ) : 107 – 109 .
  • Roller , C. , Namjou , K. , Jeffers , J. D. , Camp , M. , Mock , A. , McCann , P. J. and Grego , J. 2002 . Nitric oxide breath testing by tunable-diode laser absorption spectroscopy: Application in monitoring respiratory inflammation . Applied Optics , 41 ( 28 ) : 6018 – 6029 .
  • Braden , B. , Haisch , M. , Duan , L. P. , Lembcke , B. , Caspary , W. F. and Hering , P. 1994 . Clinically feasible stable-isotope technique at a reasonable price—Analysis of (CO2)-C-13 (CO2)-C-12-abundance in breath samples with a new isotope selective nondispersive infrared spectrometer . Zeitschrift Fur Gastroenterologie , 32 ( 12 ) : 675 – 678 .
  • Koletzko , S. , Haisch , M. , Seeboth , I. , Braden , B. , Hengels , K. , Koletzko , B. and Hering , P. 1995 . Isotope-selective nondispersive infrared spectrometry for detection of Helicobacter pylori infection with c-13-urea breath test . Lancet , 345 ( 8955 ) : 961 – 962 .
  • Mansfield , C. D. and Rutt , H. N. 1998 . The application of infrared spectroscopy to breath CO2 isotope ratio measurements and the risk of spurious results . Physics in Medicine and Biology , 43 ( 5 ) : 1225 – 1239 .
  • Mansfield , C. D. and Rutt , H. N. 1999 . Evaluation of spurious results in the infrared measurement of CO2 isotope ratios due to spectral effects: A computer simulation study . Physics in Medicine and Biology , 44 ( 5 ) : 1155 – 1167 .
  • Sandstrom , L. G. , Lundqvist , S. H. , Petterson , A. B. and Shumate , M. S. 1999 . Tunable diode laser spectroscopy at 1.6 and 2 μ m for detection of Helicobacter pylori infection using 13C-urea breath test . IEEE Journal of Selected Topics in Quantum Electronics , 5 ( 4 ) : 1040 – 1048 .
  • Savarino , V. , Mela , G. S. , Zentilin , P. , Bisso , G. , Pivari , M. , Mansi , C. , Mele , M. R. , Bilardi , C. , Vigneri , S. and Celle , G. 1999 . Comparison of isotope ratio mass spectrometry and nondispersive isotope-selective infrared spectroscopy for C-13-urea breath test . American Journal of Gastroenterology , 94 ( 5 ) : 1203 – 1208 .
  • Urea Breath Test http://www.medicinenet.com/urea_breath_test/ 〈article.htm〉
  • Genta , R. M. and Graham , D. Y. 1994 . Comparison of biopsy sites for the histopathologic diagnosis of Helicobacter pylori: A topographic study of H. pylori density and distribution . Gastrointest Endosc , 40 : 342 – 345 .
  • Baum , M. M. , Kumar , S. , Lappas , A. M. and Wagner , P. D. 2003 . Measurement of acetylene in breath by ultraviolet absorption spectroscopy: Potential for noninvasive cardiac output monitoring . Review of Scientific Instruments , 74 ( 6 ) : 3104 – 3110 .
  • Wang , C. J. , Scherrer , S. T. and Hossain , D. 2004 . Measurements of cavity ringdown spectroscopy of acetone in the ultraviolet and near-infrared spectral regions: Potential for development of a breath analyzer . Applied Spectroscopy , 58 ( 7 ) : 784 – 791 .
  • Lundquist , P. , Rosling , H. and Sorbo , B. 1988 . The origin of hydrogen cyanide in breath . Archives of Toxicology , 61 ( 4 ) : 270 – 274 .
  • Jin , Z. , Su , Y. X. and Duan , Y. X. 2001 . Low-power, atmospheric pressure, pulsed plasma source for molecular emission spectrometry . Analytical Chemistry , 73 ( 2 ) : 360 – 365 .
  • Duan , Y. X. , Su , Y. X. and Jin , Z. 2003 . Capillary-discharge-based portable detector for chemical vapor monitoring . Review of Scientific Instruments , 74 ( 5 ) : 2811 – 2816 .
  • Risby , T. H. and Sehnert , S. S. 1999 . Clinical application of breath biomarkers of oxidative stress status . Free Radical Biology and Medicine , 27 ( 11–12 ) : 1182 – 1192 .
  • Cope , K. A. , Watson , M. T. , Foster , W. M. , Sehnert , S. S. and Risby , T. H. 2004 . Effects of ventilation on the collection of exhaled breath in humans . Journal of Applied Physiology , 96 ( 4 ) : 1371 – 1379 .
  • Wagner , P. D. , Saltzman , H. A. and West , J. B. 1974 . Measurement of dontinuous distributions of ventilation perfusion ratios theory . Journal of Applied Physiology , 36 ( 5 ) : 588 – 599 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.