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Journal Abstract Search

174 related items for PubMed ID: 17360481

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  • 3. The adenosine 2A receptor agonist GW328267C improves lung function after acute lung injury in rats.
    Folkesson HG, Kuzenko SR, Lipson DA, Matthay MA, Simmons MA.
    Am J Physiol Lung Cell Mol Physiol; 2012 Aug 01; 303(3):L259-71. PubMed ID: 22659881
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  • 4. Adenosine A2B receptor activation stimulates alveolar fluid clearance through alveolar epithelial sodium channel via cAMP pathway in endotoxin-induced lung injury.
    Wang M, Guo X, Zhao H, Lv J, Wang H, An Y.
    Am J Physiol Lung Cell Mol Physiol; 2020 Apr 01; 318(4):L787-L800. PubMed ID: 32129084
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  • 5. Upregulation of alveolar epithelial active Na+ transport is dependent on beta2-adrenergic receptor signaling.
    Mutlu GM, Dumasius V, Burhop J, McShane PJ, Meng FJ, Welch L, Dumasius A, Mohebahmadi N, Thakuria G, Hardiman K, Matalon S, Hollenberg S, Factor P.
    Circ Res; 2004 Apr 30; 94(8):1091-100. PubMed ID: 15016730
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  • 6. Chloride transport-driven alveolar fluid secretion is a major contributor to cardiogenic lung edema.
    Solymosi EA, Kaestle-Gembardt SM, Vadász I, Wang L, Neye N, Chupin CJ, Rozowsky S, Ruehl R, Tabuchi A, Schulz H, Kapus A, Morty RE, Kuebler WM.
    Proc Natl Acad Sci U S A; 2013 Jun 18; 110(25):E2308-16. PubMed ID: 23645634
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  • 7. Alveolar but not intravenous S-ketamine inhibits alveolar sodium transport and lung fluid clearance in rats.
    Berger MM, Pitzer B, Zügel S, Wieland CW, Vlaar AP, Schultz MJ, Dahan A, Bärtsch P, Hollmann MW, Mairbäurl H.
    Anesth Analg; 2010 Jul 18; 111(1):164-70. PubMed ID: 20519416
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  • 9. Resveratrol ameliorates abnormalities of fluid and electrolyte secretion in a hypoxia-Induced model of acquired CFTR deficiency.
    Woodworth BA.
    Laryngoscope; 2015 Oct 18; 125 Suppl 7(0 7):S1-S13. PubMed ID: 25946147
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  • 11. Expression of CFTR and a cAMP-stimulated chloride secretory current in cultured human fetal alveolar epithelial cells.
    McCray PB, Bettencourt JD, Bastacky J, Denning GM, Welsh MJ.
    Am J Respir Cell Mol Biol; 1993 Dec 18; 9(6):578-85. PubMed ID: 7504926
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  • 14. Liquid movement across the surface epithelium of large airways.
    Chambers LA, Rollins BM, Tarran R.
    Respir Physiol Neurobiol; 2007 Dec 15; 159(3):256-70. PubMed ID: 17692578
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  • 15. Transforming growth factor beta1 inhibits cystic fibrosis transmembrane conductance regulator-dependent cAMP-stimulated alveolar epithelial fluid transport via a phosphatidylinositol 3-kinase-dependent mechanism.
    Roux J, Carles M, Koh H, Goolaerts A, Ganter MT, Chesebro BB, Howard M, Houseman BT, Finkbeiner W, Shokat KM, Paquet AC, Matthay MA, Pittet JF.
    J Biol Chem; 2010 Feb 12; 285(7):4278-90. PubMed ID: 19996317
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  • 17. Knockout Mice Reveal a Major Role for Alveolar Epithelial Type I Cells in Alveolar Fluid Clearance.
    Flodby P, Kim YH, Beard LL, Gao D, Ji Y, Kage H, Liebler JM, Minoo P, Kim KJ, Borok Z, Crandall ED.
    Am J Respir Cell Mol Biol; 2016 Sep 12; 55(3):395-406. PubMed ID: 27064541
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  • 18. Sodium-coupled neutral amino acid transporter SNAT2 counteracts cardiogenic pulmonary edema by driving alveolar fluid clearance.
    Weidenfeld S, Chupin C, Langner DI, Zetoun T, Rozowsky S, Kuebler WM.
    Am J Physiol Lung Cell Mol Physiol; 2021 Apr 01; 320(4):L486-L497. PubMed ID: 33439101
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  • 19. Intravenous S-ketamine does not inhibit alveolar fluid clearance in a septic rat model.
    Fastner C, Mairbäurl H, Weber NC, van der Sluijs K, Hackl F, Hotz L, Dahan A, Hollmann MW, Berger MM.
    PLoS One; 2014 Apr 01; 9(11):e112622. PubMed ID: 25386677
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