Information Technology Reference
In-Depth Information
References
1. World Health Organization: Influenza. Fact Sheet 211, World Health Or-
ganization (Revised March 2003) Available online at:
http://www.who.int/
2. Webster, R.G., Peiris, M., Chen, H., Guan, Y.:
H5N1 outbreaks and enzootic
influenza. Emerg. Infect. Dis.
12
(1) (2006) 3-8
3. Tumpey, T.M., Basler, C.F., Aguilar, P.V., Zeng, H., Solorzano, A., Swayne, D.E.,
Cox, N.J., Katz, J.M., Taubenberger, J.K., Palese, P., Garcıa-Sastre, A.: Char-
acterization of the reconstructed 1918 Spanish influenza pandemic virus. Science
310
(5745) (2005) 77-80
4. Tumpey, T.M., Garcıa-Sastre, A., Taubenberger, J.K., Palese, P., Swayne, D.E.,
Pantin-Jackwood, M.J., Schultz-Cherry, S., Solorzano, A., Van Rooijen, N., Katz,
J.M., Basler, C.F.: Pathogenicity of influenza viruses with genes from the 1918 pan-
demic virus: Functional roles of alveolar macrophages and neutrophils in limiting
virus replication and mortality in mice. J Virol
79
(23) (2005) 14933-14944
5. Belz, G.T., Wodarz, D., Diaz, G., Nowak, M.A., Doherty, P.C.: Compromized
influenza virus-specific CD8
+
-T-cell memory in CD4
+
-T-cell-deficient mice.
J.
Virol.
76
(23) (2002) 12388-12393
6. Fritz, R.S., Hayden, F.G., Calfee, D.P., Cass, L.M.R., Peng, A.W., Alvord, W.G.,
Strober, W., Straus, S.E.: Nasal cytokine and chemokine response in experimental
influenza A virus infection: Results of a placebo-controlled trial of intravenous
zanamivir treatment. J. Infect. Dis.
180
(1999) 586-593
7. Kilbourne, E.D.: Influenza. Plenum Medical Book Company, New York (1987)
8. Larson, E., Dominik, J., Rowberg, A., Higbee, G.: Influenza virus population
dynamics in the respiratory tract of experimentally infected mice. Infect. Immun.
13
(2) (1976) 438-447
9. Bocharov, G.A., Romanyukha, A.A.: Mathematical model of antiviral immune
response III. Influenza A virus infection. J. Theor. Biol.
167
(4) (1994) 323-360
10. Baccam, P., Beauchemin, C., Macken, C.A., Hayden, F.G., Perelson, A.S.: Kinetics
of influenza A virus infection in humans. J. Virol.
80
(15) (2006)
11. Beauchemin, C., Samuel, J., Tuszynski, J.: A simple cellular automaton model for
influenza A viral infections. J. Theor. Biol.
232
(2) (2005) 223-234 Draft available
on arXiv:q-bio.CB/0402012.
12. Celada, F., Seiden, P.E.: A computer model of cellular interactions in the immune
system. Immunol. Today
13
(2) (February 1992) 56-62
13. Efroni, S., Harel, D., Cohen, I.R.: Toward rigorous comprehension of biological
complexity: Modeling, execution, and visualization of thymic T-cell maturation.
Genome Res.
13
(11) (2003) 2485-2497
14. Meier-Schellersheim, M., Mack, G.: SIMMUNE, a tool for simulating and analyzing
immune system behavior. arXiv:cs.MA/9903017 (1999)
15. Polys, N.F., Bowman, D.A., North, C., Laubenbacher, R.C., Duca, K.: PathSim
visualizer: An Information-Rich Virtual Environment framework for systems bi-
ology. In Brutzman, D.P., Chittaro, L., Puk, R., eds.: Proceeding of the Ninth
International Conference on 3D Web Technology, Web3D 2004, Monterey, Califor-
nia, USA, 5-8 April 2004, ACM (2004) 7-14
16. Warrender, C.E.: CyCells. Computer Software distributed on SourceForge under
the GNU GPL at:
http://sourceforge.net/projects/cycells
. (2005)
17. Segovia-Juarez, J.L., Ganguli, S., Kirschner, D.: Identifying control mechanisms of
granuloma formation during
M. tuberculosis
infection using an agent-based model.
J. Theor. Biol.
231
(3) (2004) 357-376
