Blueberry & White Tea Hydrating Mist

Description:

Hydrate and nourish while helping to protect skin with a complex of potent antioxidants.

Size:

4 fl oz (118ml)

Skin Type Indications:

All, particularly those in need of additional hydration

Feature Ingredients and their Known Benefits:

Blueberry Extract
Contains anthocyanin based, strong antioxidants

White Tea Extract
Contains powerful antioxidants

Chondrus Crispus extract (Marmoist)
Hyauronate and sea plant extract improve texture of skin and bind large quantities of water to instantly hydrate and soften dry skin

Sericin
An ingredient made from silk that increases moisturizing activity, decreases transepidermal water loss and leaves the skin silky. Derived from nature

Honey Extract
Provides a moisture-balancing effect that leaves the skin soft and supple

Licorice Root Extract
Known for its skin brightening effects

Linden Flowers Extract
Contains high levels of flavonoids that reduce inflammation

Slippery Elm Extract
Highly soothing with nourishing and protective properties

Blue Malva Flower Extract
Contains a complex polysaccharide with excellent hydration abilities

Benefits:

  • Hydrating and protective
  • Can be used throughout the day

Directions:

After cleansing, close eyes and lightly mist face. Can be used morning, night and throughout the day for an extra boost of moisture and antioxidants.

Ingredients

Aqua (Water), PEG/PPG-8/3 Laurate, Sericin, Condrus Crispus (carageenan), Hydrolyzed Chondrus Crispus Whole Plant Extract, Sodium Hyaluronate, bis-PEG/PPG-16/16 PEG/PPG 16/16 Dimethicone, Capric/Caprylic Triglyerides, Polysorbate 20, Panthenol, Allantoin, Glycyrrhizza Glabra (licorice) Root Extract, Ulmus Fulva (Slippery Elm) Bark Extract, Vaccinium Angustifolium (blueberry) Fruit Juice, Camellia Simensis (White Tea) Leaf Extract, Malva Sylvestris (Mallow) Flower Extract, Honey Extract, Tilia Americana (Linden) Flower Extract, Butylene Glycol, Sodium Acrylates Copolymer, Lecithin, Caprylyl Glycol, Phenoxyethanol, Hexylene Glycol, Disodium EDTA