Instantaneous Interactions Between Nanoparticles and Tumors Dictated by Bayes Theorem

Abstract

This paper focuses on the process of internalization for nanoparticles that have been sent as part of a scheme of targeted drug delivery. In this manner, it is applied in a straightforward manner the Bayes’s theorem since the conditional probabilistic have been projected to the action of being accepted or rejected by tumor or target. Furthermore, it is proposed the idea that the interaction between nanoparticles and tumor might be dictated by instantaneous contact by which tumor cells allow or rejects the internalization of drug delivery. Thus, the Dirac-Delta function emerge as an artifact that is added to the electric formulation. Finally the Bayes probability is simulated as function of physical observables.