Give your complexion a deeply nourishing treat with our new Edelweiss Intense Smoothing Day Face Cream – it’s the ultimate hydration boost.
Made with ingredients of natural origin, it only takes a tiny dollop of our new Edelweiss Intense Smoothing Day Cream to leave skin looking smoother, fresher, stronger* and plumped with 48hr moisture – just ask the 109 women who tried (and loved!) our new moisturizer in an independent user trial**.
An intensely rich and nourishing cream, this non-greasy formula has a silky texture and melts into skin effortlessly, helping protect against indoor and outdoor pollution and leaves skin feeling deeply nourished, firmer and ultra-soft.
This ultra-smoothing concoction is enriched with edelweiss, which is naturally (and rather uniquely) strengthened with leontopodic acid known for its antioxidant properties. In fact, the tiny edelweiss plant is so resilient and powerful that its extract has 43% more antioxidant power than retinol.*** Pretty extraordinary, right? We’ve boosted our vegan cream with natural-origin peptides, too, just for good measure. It helps retain moisture and maintains the skin’s natural moisture barrier.
There’s one more surprise – our recyclable**** jar is now made with recycled glass too. What’s not to love?
Scoop out a pea-sized amount and smooth all over your complexion day and night. Enjoy that feeling of supple, silky-smooth skin.
- Intensely rich day cream
- Suitable for all skin types, including sensitive skin
- Leaves skin looking smoother and stronger
- Leaves skin feeling ultra-soft
- Helps maintain the skin’s natural moisture barrier
- Helps protect against indoor and outdoor pollution
- Made with ingredients of natural origin
- Enriched with edelweiss
- Certified by The Vegan Society
- Dermatologically tested
* Skin that looks plump with moisture, with a smooth surface. Skin looks re-energised and refreshed.
** User trial results over a 4-week period: 109 women aged 25-40.
***Retinol expressed as Retinol acetate. The radical protection factor (RPF) was measured in vitro by electron spin resonance.
**** Where local facilities allow.