The Artzt Demi-Camp Visuel neurological training eyewear set is a revolution in neural color therapy. This set, comprising 11 Artzt Vitality glasses, uses the robustness of acrylic to offer unrivalled durability. The uniqueness of these glasses lies in their reversible design, allowing users to easily change the orientation of the colors - for example, to move the blue field from the outer left to the outer right. The science behind these glasses is fascinating: each color captured by our eyes has a specific effect on the brain, directing visual information from each visual field to the opposite cerebral hemisphere. Blue and colorless colors stimulate nerve cells, while red and black relax and reduce brain activity. Thus, these glasses offer a precise method of activating or inhibiting the activity of one cerebral hemisphere, a technique particularly beneficial for patients whose cerebral hemispheres are affected by injury or disease. / / Product highlights: / - Dimensions (packed): 4x38x26 cm / - Material (lenses): Acryl / - Material (band): Elastic rubber, Polyester / - Diameter (lenses): Approx. 5.5 cm / - Total width: 15 cm / - Weight (packed): 550 g / - Color compositions included in set: / - Green-Blue / - Blue-Transparent / - Red-Transparent / - Red-Blue / - Red-Green / - Green-Transparent / - Yellow-Green / - Yellow-Transparent / - Red-Yellow / - Blue-Yellow / - Gray-Transparent / / This innovative methodology, combining therapy and technology, offers a unique opportunity for neurological treatment and rehabilitation. Artzt's half-field of vision goggles provide a personalized approach to stimulating or calming brain activity, tailored to the specific needs of each patient. It is an essential tool for healthcare professionals seeking to optimize brain rehabilitation strategies / / The integration of Artzt neurological training eyewear into therapeutic protocols represents a judicious choice for enhancing treatment efficacy. This product, combining technological finesse and an advanced therapeutic approach, represents a significant advance in the field of neuronal rehabilitation.