Neauvia Organic Stimulate Man is a dermal filler particularly designed for men. It is great for filling in tissue deficits and enhancing facial features to provide the desired shape and volume.
Biostimulation and Lifting Effects for Long-Lasting Skin Rejuvenation
Neauvia Organic Stimulate Man can be used to gently sculpt certain facial areas that lack elasticity and density as well as add the required volume and reduce deep wrinkles. The product is based on exceptionally pure hyaluronic acid derived from Bacillus subtilis and crosslinked by a PEG polymer using the patented IPN technology. The formula is complete with small calcium hydroxyapatite particles that are slowly released over time to stimulate the production of collagen by activating fibroblasts.
Major Medical Solutions offers to buy Neauvia Organic Stimulate Man under the most favorable conditions. We can guarantee a reasonable Neauvia Organic Stimulate Man price and safe shipping to your location.
Ingredients, Concentration
28 mg/ml of hyaluronic acid, crosslinked with PEG + 1% of CaHA
Injection Area, Depth of Injection
The Neauvia Stimulate Man is ideally suited for subdermal and supraperiostal application. It may be used to address deep wrinkles, such as mentolabial and nasolabial folds or marionette lines, and to enhance volume in the cheeks, chin, and hands.
What’s in the Box?
- 1 x 1ml prefilled syringe
- 1 x 21G needle
- 1 x 22G cannula
- Package insert
Duration of Effects
Thanks to the unique formulation of the product, the effects normally last between 12 and 18 months. The duration is dependent on the patient’s age, lifestyle, and skin type, and may also be influenced by the technique used.
Method of Use
First, the area of treatment should be cleansed and disinfected. Inject small amounts of the gel into the dermis using a needle or cannula. The treatment can be repeated over time in order to maintain the desired results.
Benefits
- Eliminating skin depressions, including deep wrinkles and nasolabial folds;
- Restoring facial volumes;
- Stimulation of collagen production.