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Journal Abstract Search

193 related items for PubMed ID: 22759377

  • 1. An investigation of suitable bag materials for the collection and storage of breath samples containing hydrogen cyanide.
    Gilchrist FJ, Razavi C, Webb AK, Jones AM, Spaněl P, Smith D, Lenney W.
    J Breath Res; 2012 Sep; 6(3):036004. PubMed ID: 22759377
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  • 2. Hydrogen cyanide concentrations in the breath of adult cystic fibrosis patients with and without Pseudomonas aeruginosa infection.
    Gilchrist FJ, Bright-Thomas RJ, Jones AM, Smith D, Spaněl P, Webb AK, Lenney W.
    J Breath Res; 2013 Jun; 7(2):026010. PubMed ID: 23680696
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  • 3. Hydrogen cyanide as a biomarker for Pseudomonas aeruginosa in the breath of children with cystic fibrosis.
    Enderby B, Smith D, Carroll W, Lenney W.
    Pediatr Pulmonol; 2009 Feb; 44(2):142-7. PubMed ID: 19148935
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  • 4. Quantification of hydrogen cyanide (HCN) in breath using selected ion flow tube mass spectrometry--HCN is not a biomarker of Pseudomonas in chronic suppurative lung disease.
    Dummer J, Storer M, Sturney S, Scott-Thomas A, Chambers S, Swanney M, Epton M.
    J Breath Res; 2013 Mar; 7(1):017105. PubMed ID: 23445778
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  • 8. Background levels and diurnal variations of hydrogen cyanide in breath and emitted from skin.
    Schmidt FM, Metsälä M, Vaittinen O, Halonen L.
    J Breath Res; 2011 Dec; 5(4):046004. PubMed ID: 21808098
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  • 14. Breath concentration of acetic acid vapour is elevated in patients with cystic fibrosis.
    Smith D, Sovová K, Dryahina K, Doušová T, Dřevínek P, Španěl P.
    J Breath Res; 2016 May 17; 10(2):021002. PubMed ID: 27184114
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  • 15. In vitro SIFT-MS validation of a breath fractionating device using a model VOC and ventilation system.
    Seeley MJ, Hu WP, Scotter JM, Storer MK, Shaw GM.
    J Breath Res; 2009 Mar 17; 3(1):016001. PubMed ID: 21383449
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  • 16. Variation in hydrogen cyanide production between different strains of Pseudomonas aeruginosa.
    Gilchrist FJ, Alcock A, Belcher J, Brady M, Jones A, Smith D, Spanĕl P, Webb K, Lenney W.
    Eur Respir J; 2011 Aug 17; 38(2):409-14. PubMed ID: 21273393
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  • 17. Highly selective and sensitive online measurement of trace exhaled HCN by acetone-assisted negative photoionization time-of-flight mass spectrometry with in-source CID.
    Xie Y, Li Q, Hua L, Chen P, Hu F, Wan N, Li H.
    Anal Chim Acta; 2020 May 15; 1111():31-39. PubMed ID: 32312394
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  • 18. Real-time versus thermal desorption selected ion flow tube mass spectrometry for quantification of breath volatiles.
    Slingers G, Vanden Eede M, Lindekens J, Spruyt M, Goelen E, Raes M, Koppen G.
    Rapid Commun Mass Spectrom; 2021 Feb 28; 35(4):e8994. PubMed ID: 33125775
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  • 19. Systematic study of polymer gas sampling bags for offline analysis of exhaled breath.
    Fido M, Hersberger S, Güntner AT, Zenobi R, Giannoukos S.
    J Breath Res; 2024 Aug 13; 18(4):. PubMed ID: 39089291
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  • 20. Investigation of organic vapor losses to condensed water vapor in Tedlar bags used for exhaled-breath sampling.
    Groves WA, Zellers ET.
    Am Ind Hyg Assoc J; 1996 Mar 13; 57(3):257-63. PubMed ID: 8776196
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