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Journal Abstract Search


373 related items for PubMed ID: 18388247

  • 1. Effects of the laryngeal jet on nano- and microparticle transport and deposition in an approximate model of the upper tracheobronchial airways.
    Xi J, Longest PW, Martonen TB.
    J Appl Physiol (1985); 2008 Jun; 104(6):1761-77. PubMed ID: 18388247
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  • 2. Evaluation of a drift flux model for simulating submicrometer aerosol dynamics in human upper tracheobronchial airways.
    Xi J, Longest PW.
    Ann Biomed Eng; 2008 Oct; 36(10):1714-34. PubMed ID: 18712605
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  • 9. Development of characteristic upper tracheobronchial airway models for testing pharmaceutical aerosol delivery.
    Walenga RL, Tian G, Longest PW.
    J Biomech Eng; 2013 Sep; 135(9):91010. PubMed ID: 23722698
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  • 10. Breathing resistance and ultrafine particle deposition in nasal-laryngeal airways of a newborn, an infant, a child, and an adult.
    Xi J, Berlinski A, Zhou Y, Greenberg B, Ou X.
    Ann Biomed Eng; 2012 Dec; 40(12):2579-95. PubMed ID: 22660850
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  • 12. Effects of oral airway geometry characteristics on the diffusional deposition of inhaled nanoparticles.
    Xi J, Longest PW.
    J Biomech Eng; 2008 Feb; 130(1):011008. PubMed ID: 18298184
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  • 14. Quantification of particle deposition in asymmetrical tracheobronchial model geometry.
    Farkas A, Balásházy I.
    Comput Biol Med; 2008 Apr; 38(4):508-18. PubMed ID: 18336809
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  • 19. Postnatal enlargement of human tracheobronchial airways and implications for particle deposition.
    Phalen RF, Oldham MJ, Beaucage CB, Crocker TT, Mortensen JD.
    Anat Rec; 1985 Aug; 212(4):368-80. PubMed ID: 4073554
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  • 20. Dry powder inhaler aerosol deposition in a model of tracheobronchial airways: Validating CFD predictions with in vitro data.
    Ahookhosh K, Saidi M, Aminfar H, Mohammadpourfard M, Hamishehkar H, Yaqoubi S.
    Int J Pharm; 2020 Sep 25; 587():119599. PubMed ID: 32663586
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