Mathematical Methods for Cancer Evolution
рдЬреВрди реирежрезрен ┬╖ Springer
рдИ-рдкреБрд╕реНрддрдХ
144
рдкреЗрдЬ
reportрд░реЗрдЯрд┐рдВрдЧ рдЖрдгрд┐ рдкрд░реАрдХреНрд╖рдгреЗ рдпрд╛рдВрдЪреА рдкрдбрддрд╛рд│рдгреА рдХреЗрд▓реЗрд▓реА рдирд╛рд╣реА ┬ардЕрдзрд┐рдХ рдЬрд╛рдгреВрди рдШреНрдпрд╛
рдпрд╛ рдИ-рдкреБрд╕реНрддрдХрд╛рд╡рд┐рд╖рдпреА
The purpose of this monograph is to describe recent developments in mathematical modeling and mathematical analysis of certain problems arising from cell biology. Cancer cells and their growth via several stages are of particular interest. To describe these events, multi-scale models are applied, involving continuously distributed environment variables and several components related to particles. Hybrid simulations are also carried out, using discretization of environment variables and the Monte Carlo method for the principal particle variables. Rigorous mathematical foundations are the bases of these tools.The monograph is composed of four chapters. The first three chapters are concerned with modeling, while the last one is devoted to mathematical analysis. The first chapter deals with molecular dynamics occurring at the early stage of cancer invasion. A pathway network model based on a biological scenario is constructed, and then its mathematical structures are determined. In the second chapter mathematical modeling is introduced, overviewing several biological insights, using partial differential equations. Transport and gradient are the main factors, and several models are introduced including the KellerтАТSegel systems. The third chapter treats the method of averaging to model the movement of particles, based on mean field theories, employing deterministic and stochastic approaches. Then appropriate parameters for stochastic simulations are examined. The segment model is finally proposed as an application. In the fourth chapter, thermodynamic features of these models and how these structures are applied in mathematical analysis are examined, that is, negative chemotaxis, parabolic systems with non-local term accounting for chemical reactions, mass-conservative reaction-diffusion systems, and competitive systems of chemotaxis. The monograph concludes with the method of the weak scaling limit applied to the SmoluchowskiтАТPoisson equation.
рдпрд╛ рдИ-рдкреБрд╕реНрддрдХрд▓рд╛ рд░реЗрдЯрд┐рдВрдЧ рджреНрдпрд╛
рддреБрдореНрд╣рд╛рд▓рд╛ рдХрд╛рдп рд╡рд╛рдЯрддреЗ рддреЗ рдЖрдореНрд╣рд╛рд▓рд╛ рд╕рд╛рдВрдЧрд╛.
рд╡рд╛рдЪрди рдорд╛рд╣рд┐рддреА
рд╕реНрдорд╛рд░реНрдЯрдлреЛрди рдЖрдгрд┐ рдЯреЕрдмрд▓реЗрдЯ
Android рдЖрдгрд┐ iPad/iPhone рд╕рд╛рдареА Google Play рдмреБрдХ рдЕтАНреЕрдк рдЗрдВрд╕реНтАНрдЯреЙрд▓ рдХрд░рд╛. рд╣реЗ рддреБрдордЪреНтАНрдпрд╛ рдЦрд╛рддреНтАНрдпрд╛рдиреЗ рдЖрдкреЛрдЖрдк рд╕рд┐рдВрдХ рд╣реЛрддреЗ рдЖрдгрд┐ рддреБрдореНтАНрд╣реА рдЬреЗрдереЗ рдХреБрдареЗ рдЕрд╕рд╛рд▓ рддреЗрдереВрди рддреБрдореНтАНрд╣рд╛рд▓рд╛ рдСрдирд▓рд╛рдЗрди рдХрд┐рдВрд╡рд╛ рдСрдлрд▓рд╛рдЗрди рд╡рд╛рдЪрдгреНтАНрдпрд╛рдЪреА рдЕрдиреБрдорддреА рджреЗрддреЗ.
рд▓реЕрдкрдЯреЙрдк рдЖрдгрд┐ рдХреЙрдВрдкреНрдпреБрдЯрд░
рддреБрдореНрд╣реА рддреБрдордЪреНрдпрд╛ рдХрд╛рдБрдкреНрдпреБрдЯрд░рдЪрд╛ рд╡реЗрдм рдмреНрд░рд╛рдЙрдЭрд░ рд╡рд╛рдкрд░реВрди Google Play рд╡рд░ рдЦрд░реЗрджреА рдХреЗрд▓реЗрд▓реА рдСрдбрд┐рдУрдмреБрдХ рдРрдХреВ рд╢рдХрддрд╛.
рдИрд╡рд╛рдЪрдХ рдЖрдгрд┐ рдЗрддрд░ рдбрд┐рд╡реНрд╣рд╛рдЗрд╕реЗрд╕
Kobo eReaders рд╕рд╛рд░рдЦреНрдпрд╛ рдИ-рдЗрдВрдХ рдбрд┐рд╡реНтАНрд╣рд╛рдЗрд╕рд╡рд░ рд╡рд╛рдЪрдгреНтАНрдпрд╛рд╕рд╛рдареА, рддреБрдореНрд╣реА рдПрдЦрд╛рджреА рдлрд╛рдЗрд▓ рдбрд╛рдЙрдирд▓реЛрдб рдХрд░реВрди рддреА рддреБрдордЪреНтАНрдпрд╛ рдбрд┐рд╡реНтАНрд╣рд╛рдЗрд╕рд╡рд░ рдЯреНрд░рд╛рдиреНрд╕рдлрд░ рдХрд░рдгреЗ рдЖрд╡рд╢реНрдпрдХ рдЖрд╣реЗ. рд╕рдкреЛрд░реНрдЯ рдЕрд╕рд▓реЗрд▓реНрдпрд╛ eReaders рд╡рд░ рдлрд╛рдЗрд▓ рдЯреНрд░рд╛рдиреНрд╕рдлрд░ рдХрд░рдгреНрдпрд╛рд╕рд╛рдареА, рдорджрдд рдХреЗрдВрджреНрд░ рдордзреАрд▓ рддрдкрд╢реАрд▓рд╡рд╛рд░ рд╕реВрдЪрдирд╛ рдлреЙрд▓реЛ рдХрд░рд╛.
