ASSESSMENT AND CONTROL OF THE PENETRATION OF DRUGS INTO BIOLOGICAL TISSUES UNDER THE INFLUENCE OF A MAGNETIC FIELD

Abstract

The processes of assessment and control of the penetration of drugs into biological tissues under the influence of a magnetic field are investigated and systematically analysed.The aim of the work is to improve the methods for assessing magnetic field penetration and to develop new automated systems for optimising the penetration of drugs into tissues. The paper presents a mathematical model for estimating the depth of penetration of drugs into the biological environment and experimental studies of the influence of magnetic field parameters on the depth of penetration of drugs into biological tissues, followed by an analysis of the results. The features of the mathematical model of drug penetration through the cell membrane are considered in detail, and factorssuch as physical properties of the membrane, magnetic field parameters, temperature changes, and ion concentration are taken into account.The proposed model allows to effectively take into account the interaction of various factors with the value of magnetic induction. The influence of diffusion processes on the regulation of metabolism in cellular systems is highlighted and their role in the penetration of drugs through the skin is considered. A model describing the penetration of drugs into biological tissues through the parameters of magnetic induction is presented. It is noted that the study of the penetration of drugs into biological tissues is important for pharmaceutical research and the development of new methods of drug delivery.The model presented in this paper can serve as a powerful tool for optimising the parameters of magnetic therapy systems and improving the effectiveness of treatment. A methodology for studying the penetration of drugs and conducting experiments to assess and measure the depth of penetration is presented. The obtained research results can be used to further improve magnetic therapy methods and develop new treatment strategies.