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A control‐based mathematical study on psoriasis dynamics with special emphasis on IL−21 and IFN−γ interaction network

Amit Kumar Roy, Mark Nelson, Priti Kumar Roy

2021Mathematical Methods in the Applied Sciences13 citationsDOI

Abstract

Psoriasis is characterized by the excessive growth of keratinocytes (skin cells), which is initiated by chaotic signaling within the immune system and irregular release of cytokines. Pro‐inflammatory cytokines: Interleukin 21 ( ) and Interferon gamma ( ), released by cell and activated natural killer cells (NK cells) respectively, play central role in the disease pathogenesis. In this work, we have constructed two sets of nonlinear differential equations. One is representing the growth of three vital immune cells (T helper cells (type I and II) and activated NK cells) along with keratinocyte and the other set is for cytokines' ( and ) dynamics. The hazardous effects of these cytokines, preconditions for disease persistence and validation of the stability criteria of endemic equilibrium have been studied analytically. We have also observed the effect of the combined biologic therapy (anti and inhibitor) by considering an optimal control problem. Analytical and numerical results reveal that the impact of activated NK cells on excessive formation of keratinocytes is mostly regulated by the effects of and .

Topics & Concepts

PsoriasisImmune systemImmunologyInterferonCell biologyBiologyMedicinePsoriasis: Treatment and PathogenesisDermatology and Skin DiseasesT-cell and B-cell Immunology
A control‐based mathematical study on psoriasis dynamics with special emphasis on IL−21 and IFN−γ interaction network | Litcius