European Conference on Mathematical and Theoretical Biology (ECMTB 2026)

Mathematical Modeling of Biofilm Eradication Using Optimal Control of Antibiotic Treatment

16 Jul 2026, 11:00

20m

15.34 - SR (University of Graz)

Contributed Talk Multiscale and Multiphysics Modelling Contributed Talks

Speaker

Rehan Akber (Lahore University of Management Sciences (LUMS))

Description

We propose and analyze a model for antibiotic resistance transfer in a bacterial biofilm and examine antibiotic dosing strategies that are effective in bacterial elimination. In particular, we consider a 1-D model of a biofilm with susceptible, persistor and resistant bacteria. Resistance can be transferred to the susceptible bacteria via horizontal gene transfer (HGT), specifically via conjugation. We analyze some basic properties of the model, determine the conditions for existence of disinfection and coexistence states, including boundary equilibria and their stability. Numerical simulations are performed to explore different modeling scenarios and support our theoretical findings. Different antibiotic dosing strategies are then studied, starting with a continuous dosing; here we note that high doses of antibiotic are needed for bacterial elimination. We then consider periodic dosing, and again observe that insufficient levels of antibiotic per dose may lead to treatment failure. Finally, using an extended version of Pontryagin’s maximum principle we determine efficient antibiotic dosing protocols, which ensure bacterial elimination while keeping the total dosing low; we note that this involves a tapered dosing which reinforces results presented in other clinical and modeling studies. We study the optimal dosing for different parameter values and note that the optimal dosing schedule is qualitatively robust.

Bibliography

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year={2018}
}

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}

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year={2002}
}