Postural Equilibrium: Functional System and Its Stabilization by Means of Osteoreflexotherapy

Our investigations have confirmed that the osteorcccptive sensory system participates in the polysensoric regulation of animal and human posture. Experiments with animals have demonstrated that the irritation of osteoreceptors by electric pulses leads to osteorcccptive response potentials of die same parts of the brain (Deiter's nuclei, cerebellum, caudate nucleus, cortical motor centre etc.) which participate in the regulation of animal and human posture and other motion acts. Close functional relations have been established between the skin, bone, vestibular and muscle sensory systems in the brain structures where the osteoreceptive excitation converges. The studies of osteoreceptive sensory system have served as a theoretical base for new techniques of posture stabilization. These are based on osteoreceptive irritations caused by electrical pulses or by intraosseal pressure increase at injections of the physiological solution. It has been found that each bone has its own specific role in posture regulation. In all cases of bone irritation the posture stabilization of various degrees has been confirmed. However, it has been demonstrated that the most effective results have been obtained by affecting the processus spinosus of seventh cervical vertebra and the lower extremity bones, especially those of tibiae sad calcaneus.