Publications in area "Mathematical Biology"

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Title	Published	SHARCNET Authors	Area
1. Assessing the in vitro fitness of an oseltamivir-resistant seasonal A/H1N1 influenza strain using a mathematical model	2011	BP Holder, P Simon, L Liao, Y Abed, X Bouhy, CAA Beauchemin, and G Boivin	Mathematical Biology
2. Design considerations in building in silico equivalents of common experimental influenza virus assays and the benefits of such an approach	2011	BP Holder, L Liao, P Simon, G Boivin, CAA Beauchemin	Mathematical Biology
3. Implications of vaccination and waning immunity	2009	JM Heffernan, MJ Keeling	Mathematical Biology
4. Computing intensive simulations in biofilm modeling	2008	HJ Eberl, N Muhammad, R sudarsa	Mathematical Biology
5. Fixation probabilities for lytic viruses: the attachment-lysis model	2008	Z. Patwa, L.M. Wahl	Mathematical Biology
6. Existence and longtime behavior of a biofilm model	2008	M.A. Efendiev, H.J. Eberl, S.V. Zelik	Mathematical Biology
7. A computational study of external shear forces in biofilm clusters	2008	J. Xu, R. Sudarsan, G.A. Darlington, H.J. Eberl	Mathematical Biology
8. Predicting healthcare system saturation from imported infectious agents	2007	D. J. D. Earn, J. Ma, C. T. Bauch, M. B. Loeb, D. F. Fisman	Mathematical Biology
9. Fixation probabilities when generation times are variable: the burst-death model	2007	J. Hubbarde, G. Wild, L.M. Wahl	Mathematical Biology
10. Drug-sparing regimens for HIV combination therapy: benefits predicted for drug coasting	2007	O. Krakovska, L.M. Wahl	Mathematical Biology
11. Optimal drug treatment regimens for HIV depend on adherence	2007	O. Krakovska, L.M. Wahl	Mathematical Biology
12. Costs versus Benefits: Best possible and best practical treatment strategies for HIV	2007	O. Krakovska, L.M. Wahl	Mathematical Biology
13. Improving estimates of the basic reproductive ratio: Using both the mean and the dispersal of transition times	2006	J. Heffernan, L. Wahl	Mathematical Biology
14. Improving esitmates of the basic reproductive ratio: Using both the mean and the dispersal of transition times	2005	Jane M Heffernan, Lindi M Wahl	Mathematical Biology
15. Transition time distributions and stochaticity in immunological models of HIV infection	2005	Jane M Heffernan	Mathematical Biology
16. Natural variation in HIV infection: Monte Carlo estimates that include of CD8 effector cells	2005	Jane M Heffernan, Lindi M Wahl	Mathematical Biology
17. Best Possible and Best Practical Treatment Regimens for HIV	2005	Olga Krakovska, Lindi Wahl	Mathematical Biology
18. Monte Carlo Estimates of Natural Variation in HIV Infection	2005	J. Heffernan, L. Wahl	Mathematical Biology
19. Mechanisms of sperm competition: testing the fair raffle.	2004	Neff, B.D. and Wahl, L.M.	Behavioural and Evolutionary Ecology Mathematical Biology
20. Fixation probability favors increased fecundity over reduced generation time	2004	Wahl, L.M. and DeHaan, C.D.	Mathematical Biology

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