The proposed apparatus and method relate to restorative sports medicine and patient rehabilitation with neurological motoric disorders. A patient is positioned in equilibrium by suspension devices for patients body parts. The suspension devices are moved by actuating mechanisms with an electro-pneumatic drive and actuating components, controlled by a programmed computer, motivating the patient by controlling an object in a virtual gaming environment, to restore movements when there is an initially minimal or a complete absence of physical activity. The effectiveness is judged according to the reduction of energy consumption of the drives. The apparatus includes a base composed of two parallel guides with movable crossbars, on which the actuating mechanisms are pairwise movably arranged, monitoring and control units, the computer, sensors detecting the state of the actuating mechanisms, and power sources. There are units for analyzing the energy consumption of each drive and for assessing the treatment results.
