Miacare CONFiDENCE Daily gives you long-lasting comfort coupled with natural Asian beauty rolled in one!
- Ultra-high oxygen transmissibility!
- Solvent-free formula!
- Smart peripheral edge design which helps to improve surface wettability, reducing irritation and providing extra comfort
- Lowest Modulus! Offering a softer & more comfortable wear
- UV protection against the harmful rays of the sun
- Dot-matrix colour printing technology with a sizeable unobscured area to allow for oxygen passage
- Unique colour blocking which provides fade resistance
- Smart peripheral edge design which helps to improve surface wettability, reducing irritation and providing extra comfort
EautraSil™ Hydrophilic Silicone Technology – A Revolutionary Breakthrough in Longer Wear Time
1. Six (6) Times more Oxygen than Conventional Hydrogel Lenses
Conventional silicone hydrogel lenses are hydrophobic and require the use of solvents to combine silicone with hydrogel. Miacare incorporates its world-leading EautraSil™ Hydrophilic Silicone Technology to modify silicone molecules with new hydrophilic properties so that the silicone and hydrogel combined without solvent treatment; in return, raise the standard of lens wear safety.
The world’s first solvent-free formula for silicone hydrogel lenses: no irritation, no allergic reactions, only six times more oxygen for maximised breathability and comfort for the eye!
With oxygen transmissibility reaching Dk/t 150, more oxygen is allowed to pass through the lenses quickly to the cornea. Thus effectively preventing hypoxia-related complications, such as redness, corneal neovascularisation and corneal epithelium-ageing.
2. Solvent-free Formula – Irritation-free, Allergic Reaction-free, Improved Safety
Thanks to Miacare’s EautraSil™ Hydrophilic Silicone Technology, silicone molecules can be combined with hydrogel perfectly without the use of solvents, which could potentially leave residues that irritate the eye and allergies.
3. Low Modulus – High Comfort
With hydrophilic silicone, less silicone is required to combine hydrogel. As a result, the low modulus affords softer, more comfortable wear.