In preparation for the hypothetical therapeutic effects described above, information about such effects can be prepared and stored in crystals in the form of stable deformations of the crystal lattice. Information is stored in crystals as a multi- and quasiparticle diffraction grating of "preserved" entangled states. This grating reproduces the necessary holographic picture in the form of an information matrix of the simulated process at the influence stage. The principles discussed in this article are similar to the processes that occur every second in nature. They are the basis of the bionic model under consideration in the framework of nano -, bio -, info -, and cogno-convergence (nbic-convergence). This model is similar to the processes of quantum teleportation that occur in natural biogeocenoses and ecosystems. The article also discusses ways to "preserve" entangled states in crystals as optically active nonlinear media. The following is a method of hypothetical physiotherapy for modeling persistent remissions of multiple sclerosis due to the remyelination process. This method creates some forced conditions for the execution of the macroscopic quantum teleportation Protocol. The considered hypothetical model can also be used for reconvalescence of a wide range of nosological forms.