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Inhalation Toxicology
International Forum for Respiratory Research
Volume 21, 2009 - Issue 6: Inhaled Iodomethane: A Focused Research Program & Health-Based Risk Assessment
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Research Article

Magnetic resonance imaging and computational fluid dynamics (CFD) simulations of rabbit nasal airflows for the development of hybrid CFD/PBPK models

R. A. CorleyBattelle, Pacific Northwest Division, Richland, WashingtonCorrespondence[email protected]
,
K. R. MinardBattelle, Pacific Northwest Division, Richland, Washington
,
S. KabilanBattelle, Pacific Northwest Division, Richland, Washington
,
D. R. EinsteinBattelle, Pacific Northwest Division, Richland, Washington
,
A. P. KupratBattelle, Pacific Northwest Division, Richland, Washington
,
J. R. HarkemaMichigan State University, East Lansing, Michigan
,
J. S. KimbellThe Hamner Institutes for Health Sciences, Research Triangle Park, North Carolina
,
M. L. GargasThe Sapphire Group, Inc., Beavercreek, Ohio
&
John H. KinzellArysta Life Sciences, North America, San Francisco, California, USA
 show all
Pages 512-518 | Received 15 Oct 2008, Accepted 05 Nov 2008, Published online: 01 Mar 2009

References

  • Andersen, M.E., Green, T., Frederick, C.B., and Bogdanffy, M.S. 2002. Physiologically based pharmacokinetic (PBPK) models for nasal tissue dosimetry of organic esters: Assessing the state-of-knowledge and risk assessment applications with methyl methacrylate and vinyl acetate. Regul. Toxicol. Pharmacol. 36:1–12.
  • Andersen, M.E., Sarangapani, R., Frederick, C.B., and Kimbell, J.S. 1999. Dosimetric adjustment factors for methyl methacrylate derived from a steady-state analysis of a physiologically based clearance-extraction model. Inhal. Toxicol. 11:899–926.
  • Andersen, M.E., Sarangapani, R., Gentry, R., Clewell, H., Covington, T., and Frederick, C.B. 2000. Application of a hybrid CFD-PBPK nasal dosimetry model in inhalation risk assessment: An example with acrylic acid. Toxicol. Sci. 57:312–325.
  • Bogdanffy, M.S., Sarangapani, R., Plowchalk, D.R., Jarabek, A., and Andersen, M.E. 1999. A biologically based risk assessment for vinyl acetate-induced cancer and noncancer inhalation toxicity. Toxicol. Sci. 51:19–35.
  • Bush, M.L., Frederick, C.B., Kimbell, J.S., and Ultman, J.S. 1998. A CFD-PBPK hybrid model for simulating gas and vapor uptake in the rat nose. Toxicol. Appl. Pharmacol. 150:133–145.
  • Chamberlain, M.P., Lock, E.A., and Reed, C.J. 1998. Investigations of the pathways of toxicity of methyl iodide in the rat nasal cavity. Toxicology 129:169–181.
  • Frederick, C., Bush, M.L., Lomax, L.G., Black, K.A., Finch, L., Kimbell, J.S., Morgan, K.T., Subramaniam, R.P., Morris, J.B., and Ultman, J.S. 1998. Application of a hybrid computational fluid dynamics and physiologically based inhalation model for interspecies dosimetry extrapolation of acidic vapors in the upper airways. Toxicol. Appl. Pharmacol. 152:211–231.
  • Frederick, C., Lomax, L.G., Black, K.A., Finch, L., Scribner, H.E., Kimbell, J.S., Morgan, K.T., Subramaniam, R.P., and Morris, J.B. 2002. Use of a hybrid computational fluid dynamics and physiologically based inhalation model for interspecies dosimetry comparisons of ester vapors. Toxicol. Appl. Pharmacol. 183:23–40.
  • Harkema, J.R. 1990. Comparative pathology of the nasal mucosa in laboratory animals exposed to inhaled irritants. Env. Health Perspect. 85:231–238.
  • Himmelstein, M.W., Kegelman, T.A., DeLorme, M.P., Everds, N.E., O’Connor, J.C., Kemper, R.A., Nabb, D.L., Mileson, B.E., and Bevan, C. 2009. Two-day inhalation toxicity study of methyl iodide in the rat. Inhal. Toxicol. 21: 480–487.
  • Kimbell, J.S., and Subramanian, R.P. 2001. Use of computational fluid dynamics models for dosimetry of inhaled gases in the nasal passages. Inhal. Toxicol. 13:325–334.
  • Kimbell, J.S., Godo, M.N., Gross, E.A., Joyner, D.R., Richardson, R.B., and Morgan, K.T. 1997. Computer simulation of inspiratory airflow in all regions of the F344 rat nasal passages. Toxicol. Appl. Pharmacol. 145:388–398.
  • Kimbell, J.S., Overton, J.H., Subramanian, R.P., Schlosser, P.M., Morgan, K.T., Conolly, R.B., and Miller, F.J. 2001. Dosimetry modeling of inhaled formaldehyde: Binning nasal flux predictions for quantitative risk assessment. Toxicol. Sci. 64:111–121.
  • Kimbell, J.S., Subramanian, R.P., Gross, E.A., Schlosser, P.M., and Morgan, K.T. 2001. Dosimetry modeling of inhaled formaldehyde: Comparisons of local flux predictions in the rat, monkey, and human nasal passages. Toxicol. Sci. 64:100–110.
  • Kirkpatrick, D.T. 2002. A 13-week inhalation toxicity study (with a 4-week interim necropsy) of iodomethane in albino rats. R&D Report WIL-418015. Ashland, OH: WIL Research Laboratories.
  • Kuprat, A. 1995. Adaptive smoothing techniques for 3-D unstructured meshes. Los Alamos National Lab Report LAUR-95-1116.
  • Kuprat, A., Khamayseh, A. et al. 2001. Volume conserving smoothing for piecewise linear curves, surfaces, and triple lines. J. Comp. Phys. 172:99–118.
  • Li, B., Christensen, G.E., Hoffman, E.A., McLennan, G., and Reinhardt, J.M. 2003. Establishing a normative atlas of the human lung: Intersubject warping and registration of the volumetric CT images. Acad. Radiol. 10:255–265.
  • Minard, K.R., Einstein, D.R., Jacob, R.E., Kabilan, S., Kuprat, A., Timchalk, C., Trease, L., and Corley, R.A. 2006. Application of magnetic resonance (MR) imaging for the development and validation of computational fluid dynamics (CFD) models of the rat respiratory system. Inhal. Toxicol. 18:787–794.
  • Morgan, K.T., and Monticello, T.M. 1990. Airflow, gas deposition, and lesion distribution in the nasal passages. Environ. Health. Perspect. 85:209–218.
  • Negus, V. 1958. The comparative anatomy and physiology of the nose and paranasal sinuses. London: Livingstone.
  • Nemec, M., Sloter, E., Stump, D., Holson, J., Kirkpatrick, D., and Kinzell, J. 2009. Prenatal developmental toxicity studies of inhaled methyl iodide vapor in rabbits reveal a susceptible window of exposure inducing late gestational fetotoxicity. Inhal. Toxicol. 21: 449–461.
  • Sethian, J.A. 1996. Level set methods and fast marching methods. Cambridge: Cambridge University Press.
  • Sloter, E., Nemec, M., Stump, D., Holson, J., Kirkpatrick, D., Gargas, M., and Kinzell, J. 2009. Methyl iodide-induced fetal hypothyroidism implicated in late-stage fetal death in rabbits. Inhal. Toxicol. 21: 462–479.
  • Subramaniam, R.P., Richardson, R.B., Morgan, K.T., and Kimbell, J.S. 1998. Computational fluid dynamics simulations of inspiratory airflow in the human nose and nasopharynx. Inhal. Toxicol. 10:91–120.
  • Sweeney, L.M., Andersen, M.E., and Gargas, M.L. 2004. Ethyl acrylate risk assessment with a hybrid computational fluid dynamics and physiologically based nasal dosimetry model. Toxicol. Sci. 79:394–403.
  • Sweeney, L.M., Kirman, C.R., Gannon, S.A., Thrall, K.D., Gargas, M.L., and Kinzell, J.H. 2009. Development of a physiologically based pharmacokinetic (PBPK) model for methyl iodide in rats, rabbits and humans. Inhal. Toxicol. 21: 552–582.
  • Thrall, K.D., Woodstock, A.D., Soelberg, J.J., Gargas, M.L., Kinzell, J.H., and Corley, R.A. 2009. A real-time methodology to evaluate the nasal absorption of volatile compounds in anesthetized animals. Inhal. Toxicol. 21: 531–536.
  • Timchalk, C., Trease, H.E., Trease, L.L., Minard, K.R., and Corley, R.A. 2001. Potential technology for studying dosimetry and response to airborne chemical and biological pollutants. J. Toxicol. Ind. Health 17:270–276.
  • Yoo, T.S. 2004. Segmentation basics. In Insight into images: Principles and practices for segmentation, registration, and image analysis, eds. Yoo, T.S. pp. A. K. Peters, Ltd.

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