| Modelling the inhalation of drug aerosols in a human nasal cavity |
| Kiao Inthavong,Jian Wen,Ji-Yuan Tu |
| Reference |
|
| [1] | Kimbell, J., Shroeter, J.D., Asgharian, B., Wong, B.A., Segal, R.A., Dickens, C.J., Southall, J.P. and Millerk F. J. (2004) Optimisation of nasal delivery devices using computational models. Res. Drug Del., 9 233-238. | | | [2] | Inthavong, K., Tian, Z.F., Tu, J.Y., Yang, W. and Xue, C. (2008) Optimising nasal spray parameters for efficient drug delivery using computational fluid dynamics. Computers in Biology and Medicine, 38(6), 713-726. | | | [3] | Inthavong, K., Tian, Z.F., Li, H. F., Tu, J.Y., Yang, W., Xue, C.L. and Li, C.G. (2006) A numerical study of spray particle deposition in a human nasal cavity. Aerosol Science Technology, 40, 1034-1045. | | | [4] | Cheng, Y.S., Holmes, T.D., Gao, J., Guilmette, R.A., Li, S., Surakitbanharn, Y. and Rowlings, C. (2001) Characterization of nasal spray pumps and deposition pattern in a replica of the human nasal airway. J. Aerosol Medicine, 14 (2), 267-280. | | | [5] | Edwards, D.A., Hanes, J., Caponetti, G., Hrkach, J., Ben-Jebria, A., Eskew, M.L., Mintzes, J., Deaver, D., Lotan, N. and Langer, R. (1997) Large porous particles for pulmonary drug delivery. Science, 276, 1868-1872. | | | [6] | Gupta, A.K. and Gupta, M. (2005) Synthesis and surface engineering of iron oxide nanoparticles forbiomedical applications. Biomaterials, 25(18), 3995. | | | [7] | McCarthy, J.R., Kelly, K.A., Sun, E.Y. and Weissleder, R. (2007) Targeted delivery of multifunctional magnetic nanoparticles. Nanomedicine, 2(2), 153-167. | | | [8] | Keyhani, K., Scherer, P.W. and Mozell, M.M. (1995) Numerical simulation of airflow in the human nasal cavity. J. Biomechanical Engineering, 117, 429-441. | | | [9] | Subramaniam, R.P., Richardson, R.B., Morgan, K.T., Kimbell, J.S. and Guilmette, R.A. (1998) Computational fluid dynamics simulations of inspiratory airflow in the human nose and nasopharynx. Inhalation Toxicology, 10, 91-120. | | | [10] | Finckl M.H. and Wlokas, D.I. (2006) Simulation of nasal flow by lattice Boltzmann methods. Computers Biology Medicine, 37(6), 739-749. | | | [11] | Hahn, I., Scherer, P.W. and Mozell, M.M. (1993) Velocity profiles measured for airflow through a large- scale model of the human nasal cavity. J Appl. Physiol., 75(5), 2273-2287. | | | [12] | Zamankhan, P., Ahmadi, G., Wang, Z., Hopke, P.H., Cheng,Y.S., Su, W.C. and Leonard, D. (2006) Airflow and deposition of nanoparticles in a human nasal cavity. Aerosol Science Technol., 40, 463-476. | | | [13] | Mumford, D. and Shah, J. (1989) Optimal approximations by piecewise smooth functions and associated variational problems. Commincations Pure and Applied Mathematics, XLII, 577-685. | | | [14] | Swift, D.L. and Proctor, D.F. (1977) Access of air to the respiratory tract., in Respiratory Defence Mechanisms., Brain, J.D., Proctor, D.F. and Reid, L.M. Editors, Marcel Dekker, New York, NY, 63-93. | | | [15] | Clift, R., Grace, J.R. and Weber, M.E. (1978) Bubbles, Drops, and Particles. London, Academic Press Inc, UK, London, Ltd. | | | [16] | Ounis, H., Ahmadi, G.M.J.B., (1991) Brownian diffusion of submicrometer particles in the viscous sub- layer. J. Colloid and Interface Science, 143(1), 266-277. | | | [17] | Li, A. and Ahmadi, G. (1992) Dispersion and deposition of spherical particles from point sources in a turbulent channel flow. Aerosol ScienceTechnology, 16, 209-226. | | | [18] | Saffman, P.G. (1965) The lift on a small sphere in a slow shear flow. J. Fluid Mechanics, 22, 385-400. | | | [19] | Talbot, L., Cheng, R.K., Schefer, R.W. and Willis, D. R. (1980) Thermophoresis of particles in a heated boundary layer. J. Fluid Mech, 101(4), 737-758. | | | [20] | Cheng, K.H., Cheng, Y.S., Yeh, H.C., Guilmette, A., Simpson, S.Q., Yang, Y.H. and Swift, D.L. (1996) In-vivo measurements of nasal airway dimensions and ultrafine aerosol deposition in the human nasal and oral airways. J. Aerosol Science, 27(5), 785-801. | |
|