Pharmacokinetic/Pharmacodynamic anesthesia model incorporating psi-Caputo fractional derivatives

We present a novel Pharmacokinetic/Pharmacodynamic (PK/PD) model for the induction phase of anesthesia, incorporating the Psi-Caputo fractional derivative. By employing the Picard iterative process, we derive a solution for a nonhomogeneous Psi-Caputo fractional system to characterize the dynamical behavior of the drugs distribution within a patient's body during the anesthesia process. To explore the dynamics of the fractional anesthesia model, we perform numerical analysis on solutions involving various functions of Psi and fractional orders. All numerical simulations are conducted using the MATLAB computing environment. Our results suggest that the Psi functions and the fractional order of differentiation have an important role in the modeling of individual-specific characteristics, taking into account the complex interplay between drug concentration and its effect on the human body. This innovative model serves to advance the understanding of personalized drug responses during anesthesia, paving the way for more precise and tailored approaches to anesthetic drug administration.