Blue mate: Electroporation.
Blue mate, thanks to Electroporation, facilitates the penetration and absorption of active ingredients, even of those with high molecular weight. It is a method that exploits electrical impulses to make cell membranes transiently permeable.
This technique can be divided into two phases: Electro permeation and Electro repulsion. During the first phase temporary electro pores are created in the cell membrane. These are hydrophilic macro pores that make it possible for hydrophilic substances –even with high molecular weight- to penetrate into the deeper layers of the skin.
During the second phase the active ingredients are actually channelled into the electro-pores.
Thanks to the Blue Mate’s special handpiece, with a ionization chamber and electrode columns in which the product can be inserted directly, it is possible to perform Electro permeation and Electro repulsion in one movement making the cosmetic penetrate the macropores before they close.
The treatment is completed with a pleasant and functional photo-stimulating and/or photo-draining massage. This favours capillarization and the diffusion of the absorbed active ingredients and, at the same time, facilitates the elimination of the toxins present in the lymphatic system.
Before starting electroporation, with Blue Mate it is possible to perform a deep cleansing action of the skin, thanks to a handpiece which emanates a slight but effective micro current, combined with a specific cleansing product.
The deep skin cleansing obtained this way has two positive effects: it reduces the resistance towards the superficial absorption of the active ingredients applied later and avoids channelling impurities in depth by exploiting the Blue Mate’s technology.
• Preparatory deep cleansing
• Filler, lifting, whitening actions
• Leg lipolytic action, abdomen lipolytic action
• Thigh, arm and buttocks toning action
• 40 x 40 cm
• Weight: about 3 Kg
• Emitted chromatic spectrum: red, yellow
To find out more, you can download the complete brochure (.pdf 1,5MB).