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Items: 1 to 20 of 109

1.

Non-invasive diagnosis of liver diseases by breath analysis using an optimized ion-molecule reaction-mass spectrometry approach: a pilot study.

Millonig G, Praun S, Netzer M, Baumgartner C, Dornauer A, Mueller S, Villinger J, Vogel W.

Biomarkers. 2010 Jun;15(4):297-306. doi: 10.3109/13547501003624512.

PMID:
20151876
2.

A new ensemble-based algorithm for identifying breath gas marker candidates in liver disease using ion molecule reaction mass spectrometry.

Netzer M, Millonig G, Osl M, Pfeifer B, Praun S, Villinger J, Vogel W, Baumgartner C.

Bioinformatics. 2009 Apr 1;25(7):941-7. doi: 10.1093/bioinformatics/btp093. Epub 2009 Feb 17.

PMID:
19223453
3.
4.

Can volatile compounds in exhaled breath be used to monitor control in diabetes mellitus?

Smith D, Spaněl P, Fryer AA, Hanna F, Ferns GA.

J Breath Res. 2011 Jun;5(2):022001. doi: 10.1088/1752-7155/5/2/022001. Epub 2011 Apr 21. Review.

PMID:
21512208
5.

Breath biomarkers for detection of human liver diseases: preliminary study.

Sehnert SS, Jiang L, Burdick JF, Risby TH.

Biomarkers. 2002 Mar-Apr;7(2):174-87.

PMID:
12101636
6.

Experimental setup and analytical methods for the non-invasive determination of volatile organic compounds, formaldehyde and NOx in exhaled human breath.

Riess U, Tegtbur U, Fauck C, Fuhrmann F, Markewitz D, Salthammer T.

Anal Chim Acta. 2010 Jun 11;669(1-2):53-62. doi: 10.1016/j.aca.2010.04.049. Epub 2010 May 18.

PMID:
20510903
7.
8.

A longitudinal study of breath isoprene in healthy volunteers using selected ion flow tube mass spectrometry (SIFT-MS).

Turner C, Spanel P, Smith D.

Physiol Meas. 2006 Jan;27(1):13-22. Epub 2005 Nov 29.

PMID:
16365507
9.

Atmospheric pressure chemical ionization mass spectrometry of pyridine and isoprene: potential breath exposure and disease biomarkers.

Kapishon V, Koyanagi GK, Blagojevic V, Bohme DK.

J Breath Res. 2013 Jun;7(2):026005. doi: 10.1088/1752-7155/7/2/026005. Epub 2013 Apr 12.

PMID:
23579200
10.

Potential applications of breath isoprene as a biomarker in modern medicine: a concise overview.

Salerno-Kennedy R, Cashman KD.

Wien Klin Wochenschr. 2005 Mar;117(5-6):180-6. Review.

PMID:
15875756
12.

A new 'online' method to measure increased exhaled isoprene in end-stage renal failure.

Davies S, Spanel P, Smith D.

Nephrol Dial Transplant. 2001 Apr;16(4):836-9.

PMID:
11274283
13.

Development of a protocol to measure volatile organic compounds in human breath: a comparison of rebreathing and on-line single exhalations using proton transfer reaction mass spectrometry.

O'Hara ME, O'Hehir S, Green S, Mayhew CA.

Physiol Meas. 2008 Mar;29(3):309-30. doi: 10.1088/0967-3334/29/3/003. Epub 2008 Feb 11.

PMID:
18367807
14.
15.

Quantification of breath isoprene using the selected ion flow tube mass spectrometric analytical method.

Spanel P, Davies S, Smith D.

Rapid Commun Mass Spectrom. 1999;13(17):1733-8.

PMID:
10455242
16.

Impact of inspired substance concentrations on the results of breath analysis in mechanically ventilated patients.

Schubert JK, Miekisch W, Birken T, Geiger K, Nöldge-Schomburg GF.

Biomarkers. 2005 Mar-Jun;10(2-3):138-52.

PMID:
16076729
17.

[The trace element status in patients with chronic hepatic diseases].

Bakulin IG, Novozhenov VG, Degoeva BA.

Voen Med Zh. 2004 Aug;325(8):33-7, 79. Russian.

PMID:
15471413
18.

Diagnostic value of antithrombin III and aminopyrine breath test in liver disease.

Rodzynek JJ, Preux C, Leautaud P, Abramovici J, Di Paolo A, Delcourt AA.

Arch Intern Med. 1986 Apr;146(4):677-80.

PMID:
3963948
19.

Measuring isoprene in breath.

Mukhopadhyay R.

Anal Chem. 2007 Apr 1;79(7):2610. No abstract available.

PMID:
17476722
20.

Influence of respiratory variables on the on-line detection of exhaled trace gases by PTR-MS.

Boshier PR, Priest OH, Hanna GB, Marczin N.

Thorax. 2011 Oct;66(10):919-20. doi: 10.1136/thx.2011.161208. Epub 2011 Apr 7.

PMID:
21474496

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