IRRIDI ONE-MONTH 6 LENSES
Irridi® One Month is the most breathable and healthy partner, in the form of contact lenses, your eyes can get. The combination of our two most innovative lens technologies guarantee maximum hygiene, better oxygen transmissibility and smoother lens surface. Additionally, Irridi® unique harmonized balance of oxygen, water content, and modulus ensure all needs are met for a hustle free, long-lasting wear.
Description
Enjoy maximum hygiene, better oxygen transmissibility and smoother lens surface with the combination of our most innovative lens technologies.
HIGHEST O² TRANSMISSIBILITY
Menisilk™ technology delivers one of the highest levels of oxygen transmission of any commercially available disposable lens.
A totally breathable lens ensuring every part of the eye gets the air that it needs for healthy, happy, whiter eyes.
- Ultra high oxygen transmissibility, 161 Dk/t
- Exceptional Hydration
- Absolute Transparency
THICKNESS MATTERS
The thickness of a lens can significantly impact O² transmissibility. Irridi® One Month sphere, toric and multifocal designs optimise O2 transmissibility across the whole lens surface over the entire power range.
VELVET-SMOOTH LENS SURFACE
Nanogloss™ nanometer precision technology provides a super smooth surface reducing bacterial biofilm adhesion and lipid deposits¹ supporting clean, healthy lens wear.
Irridi® One Month demonstrates the lowest level of bacterial adhesion on worn lenses when compared to other silicone hydrogel lenses².
A super smooth surface for cleaner lenses and healthy eyes which feel great and see clearly.
Our eyelids work hard blinking up to 28,000 times a day.
Our lenses edge help them overperform effortlessly.
Whatever the power, the lens periphery and the edge thickness remain the same, eliminating comfort differences between eyes due to variation in edge thickness between lenses. This clever lens design allows lids to glide effortlessly over the lens for a more comfortable day.
A unique harmonized balance of oxygen, water content, and modulus.