In this article, the authors addressed the impact of non-drug methods
on neuroplasticity in the neurorehabilitation system. Multilevel
neuroplastic eff ects of electromagnetic fields caused by transcranial magnetic stimulation (TMS) are presented. The effects of TMS on neurotransmitters and synaptic plasticity, glial cells and the prevention of neuronal death are examined. The neurotrophic effects of TMS on the growth of dendrites, growth and neurotrophic factors are described. The eff ect of TMS on the genetic apparatus of neuronsis traced. It has been demonstrated that TMS has a proven ability to modulate the internal activity of the brain in a frequency-dependent manner, generate contralateral responses, provide, along with the neuromodulatory
and neurostimulating eff ect, influence the brain as a global dynamic system.
Key words: neuroplasticity, neurorehabilitation, synaptic plasticity,
transcranial magnetic stimulation