Alternative product sizes
Item no. 8670
Options Supreme 1-Day 30-Pack
Item is available
29,95 €
Item no. 8670-2
Options Supreme 1-Day 2x30-Pack
Item is available
58,70 €
Item no. 8671
Options Supreme 1-Day 90-Pack
Item is available
79,95 €
Product features
Product type spherical daily lens |
BC value 8,4 |
DIA 14,2 |
Water content 54% |
Material Stenfilcon A |
Material type Silicone Hydrogel |
Power range +8.00 to -12.00 |
DK value DK/T=100 |
UV protection yes |
Gas flow very high (DK &, gt, 99) |
Lens type Spherical lenses |
Light tint yes |
Options Supreme 1-Day
The Options Supreme 1-Day is the third generation silicone hydrogel lens.
The unique material of the MyDay daily disposable allows for a network of silicone channels that transport oxygen much more efficiently than current silicone hydrogel contact lenses. Thanks to this process, less silicone material is needed. The reduced silicone hydrogel material allows for a higher percentage of hydrophilic material, such as you find in the comfortable hydrogel contact lenses.
The high water content of the Options Supreme 1-Day of 54 percent wets the contact lens surface continuously throughout the day without additional surface coating. The integrated UV filter provides additional protection for your eyes.
The unique material of the MyDay daily disposable allows for a network of silicone channels that transport oxygen much more efficiently than current silicone hydrogel contact lenses. Thanks to this process, less silicone material is needed. The reduced silicone hydrogel material allows for a higher percentage of hydrophilic material, such as you find in the comfortable hydrogel contact lenses.
The high water content of the Options Supreme 1-Day of 54 percent wets the contact lens surface continuously throughout the day without additional surface coating. The integrated UV filter provides additional protection for your eyes.
Options Supreme 1-Day Delivery Range:
Strength:
+8.00 to +5.50 in 0.50 gradation
+5.00 to -6.00 in 0.25 gradation
-6.50 to -12.00 in 0.50 gradation