XELA REDERM 1.1% REDERMALIZATION
Product based on non-cross linked hyaluronic and succinic acid for achieving Redermalization
This product is intended to prevent skin aging and eliminate tired face syndrome. Xela Rederm imbues the skin with moisture, mechanically contributes to stimulate proliferation of fibroblasts, and improves skin elasticity and firmness.
- High molecular weight hyaluronic acid – 1.1%
- Succinic acid (sodium succinate) – 1.6%
- Dry skin
- Uneven skin texture
- Fine creases
- Signs of photoaging
- Reduces edematous component and promotes lymphatic drainage
- Improves microcirculation
- Detoxifies tissue
- Lightens skin by 1-2 tones
- Reduces under-eye circles
- Eliminates signs of fatigue
The result is individual and depends on the physiological characteristics of the organism of a particular person.
This unique two-component formula produces a pronounced and sustained effect. Even after the first redermalization procedure, there is an increase in the amount of fibroblasts responsible for the generation of elastin and collagen, and restoration of the microcirculation and matrix of the dermis.
Technique: papular technique.
An individual course with a 14-day interval
1 syringe of 2 ml
Xela Rederm is a unique anti-aging formula that combines hyaluronic acid and succinic acid.
Succinic acid blocks free radicals, has important reducing properties, has an antioxidant effect, stimulates tissue respiration and enhances the synthesis of skin structural proteins: collagen and elastin. Succinic acid helps to restore the physiological activity of the structural components of the skin, due to its ability to remove heavy metal ions accumulated in the inner layers of the skin, maintains skin elasticity and slows down the destruction of endogenous protein (including collagen, elastin and Entactin). Succinic acid whitens pigmented spots.
Hyaluronic acid helps counteract the first effect of aging: water loss. It fights against dehydration of the skin, deeply moisturizes and promotes the formation of intercellular substance.