Analysis of ultrastructural synaptic apparatus in parietal neurocortical and midbrain neurons in animals with experimental mild craniocerebral injury prior to and following magneto-laser therapy

Background

Magnetic laser therapy is widely used in general medicine in a complex treatment of many diseases. This is due to its unique and versatile biological properties; it which activates intracellular metabolic processes and expedites the repair of damaged tissues. Magnetic laser therapy is an important area of modern theoretical and clinical physiotherapy; It is used in the treatment of dermatological, general surgical, endocrinological, and dental diseases; pain syndromes; and other conditions.

Objectives

Our objective is to assess the therapeutic efficacy of magnetic laser therapy in experimental mild traumatic brain injury in rabbits.

Material and Methods

We evaluated the therapeutic efficacy of magnetic laser therapy in experimental mild traumatic brain injury in 20 rabbits based on an analysis of ultrastructure of synaptic apparatus of neurons in the parietal and midbrain regions. Magnetic transcranial laser influence exercised by our developed method.

Results

The course of magnetic laser therapy led to statistically significant changes in quantitative characteristics of the ultrastructural components in the synaptic apparatus of neurons that express the activation of compensatory processes and restoration of structural and functional integrity of the synaptic apparatus of neurons in experimental mild traumatic brain injury.