TOTAL30™ Multifocal
*Based on 9/10 wearers agreeing with the statement 'while wearing my lenses, I sometimes forget I have them on'
**Based on in vitro studies of unworn sphere lenses.
***There is no demonstrated clinical benefit to a 34% reduction in visible light at wavelengths below 450 nm.
†Based on in vitro measurements of unworn lenses.
††Dk/t @-3.00D = 154
‡ UV absorbing contact lenses are NOT substitutes for protective UV absorbing eyewear, such as UV absorbing goggles or sunglasses because they do not completely cover the eye and surrounding area. The patient should continue to use UV absorbing eyewear as directed.

1. In a clinical study wherein patients used Clear Care® solution for nightly cleaning, disinfecting, and storing. Alcon data on file, 2021.
2. Alcon data on file, 2022.
3. Capote-Puente R, Bautista-Llamas MJ, Manzoni C, Sánchez-González JM. Pre-Lens Tear Meniscus Height, Lipid Layer Pattern and Non-Invasive Break-Up Time Short-Term Changes with a Water Gradient Silicone Hydrogel Contact Lens. Life (Basel). 2022;12(11):1710. Published 2022 Oct 26.
4. Surface property analysis of lehfilcon A lenses out of pack and after 30 days of wear. Alcon data on file, 2020.
5. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. Alcon data on file, 2020.
6. Capote-Puente R, Bautista-Llamas MJ, Manzoni C, Sánchez-González JM. Pre-Lens Tear Meniscus Height, Lipid Layer Pattern and Non-Invasive Break-Up Time Short-Term Changes with a Water Gradient Silicone Hydrogel Contact Lens. 
Life (Basel). 2022;12(11):1710. Published 2022 Oct 26.
7. Capote-Puente R, Bautista-Llamas MJ, Sánchez-González JM. Tear Film Dynamics between Low and High Contact Lens Dry Eye Disease Questionnaire (CLDEQ-8) Score with a Lehfilcon A Silicone Hydrogel Water Gradient Contact Lens: A Non-Invasive Methodology Approach. Diagnostics (Basel). 2023;13(5):939. Published 2023 Mar 1.
8. Laboratory measurement of oxygen permeability by polarographic method. Alcon data on file, 2019.
9. In vitro evaluation of bacterial adherence in commercial lenses. Alcon data on file, 2020.
10. In vitro evaluation of bacterial biofilm in commercial lenses. Alcon data on file, 2020.
11. Ishihara K, Fukazawa K, Sharma V, Liang S, et al. Antifouling silicone hydrogel contact lenses with a bioinspired 2‑methacryloyloxyethyl phosphorylcholine polymer surface. ACS Omega. 2021;6:7058-7067.
12. In vitro evaluation of lipid deposition for lehfilcon A and commercial lenses using 3D confocal imaging. Alcon data on file, 2021.
13. Shi X, Cantu-Crouch D, Sharma V, et al. Surface characterization of a silicone hydrogel contact lens having bioinspired 2-methacryloyloxyethyl phosphorylcholine polymer layer in hydrated state. Colloids Surf B: Biointerfaces. March 2021;199:111539.
14. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. Alcon data on file, 2020.
15. Laboratory assessment of ultraviolet and visible light transmission properties of lehfilcon A contact lenses using spectrophotometer. Alcon data on file, 2020.
16. Alcon data on file, 2016.
17. Baker K, Merchea M. Impact of pupil diameter on multifocal contact lens vision. Poster presented at: American Academy of Optometry Annual Conference; November 9, 2018; San Antonio, TX.

See product instructions for complete wear, care and safety information. © 2024 Alcon Inc. CA-T3M-2400105