Références

DAILIES™ AquaComfort™ PLUS (IMG-DAP-2400002)

1. Wolffsohn, J, Hunt, O, Chowdhury, A. Objective clinical performance of ‘comfort enhanced’ daily disposable soft contact lenses. Contact Lens & Anterior Eye. 2010;33:88-92.
2. Pruitt , Triple-action moisturisers for increased comfort in daily disposable lenses, Optician 2007; 16.11: 27-28.
3. Nichols JJ, Willcox MDP, Bron AJ, et al. The TFOS International Workshop on Contact Lens Discomfort: Executive Summary. Invest Ophthalmol Vis Sci. 2013;54:TFOS7–TFOS13. DOI:10.1167/iovs.13-13212
4. Bringing comfort to the masses: a novel evaluation of comfort agent solution properties. White CJ, Thomas CR, Byrne ME. Cont Lens Anterior Eye. 2014 Apr;37(2):81-91.


DAILIES™ AquaComfort™ PLUS Toric (IMG-DAT-2400001)

* Basé sur les lentilles de contact Focus™ DAILIES™ Toric. 
^ Basé sur les lentilles de contact sphériques DAILIES™ AquaComfort™ PLUS. 
† D’après l’évaluation par l’investigateur de la rotation de la lentille, à une semaine ; en utilisant des lentilles expérimentales avec des puissances cylindriques (D) de -0,75 à -1,5.


1. In a subject masked clinical trial (n=93). REF-14397. Alcon data on file, 2010. Available on request.
2. Wolffsohn, J, Hunt, O, Chowdhury, A. Objective clinical performance of ‘comfort enhanced’ daily disposable soft contact lenses. Contact Lens & Anterior Eye. 2010;33:88-92.
3. Pruitt , Triple-action moisturisers for increased comfort in daily disposable lenses, Optician 2007; 16.11: 27-28.
4. Nichols JJ, Willcox MDP, Bron AJ, et al. The TFOS International Workshop on Contact Lens Discomfort: Executive Summary. Invest Ophthalmol Vis Sci. 2013;54:TFOS7–TFOS13. DOI:10.1167/iovs.13-13212
5. Bringing comfort to the masses: a novel evaluation of comfort agent solution properties. White CJ, Thomas CR, Byrne ME. Cont Lens Anterior Eye. 2014 Apr;37(2):81-91.

 

DAILIES™ AquaComfort™ PLUS Multifocal (IMG-DAM-2400001)
^ Basé sur les lentilles de contact sphériques DAILIES™ AquaComfort™ PLUS.


1. Alcon's PPD Design smooth progression of powers (v0.1). CLM-DTM-GLB-0016. Alcon data on file, 2013. Available on request.
2. Wolffsohn, J, Hunt, O, Chowdhury, A. Objective clinical performance of ‘comfort enhanced’ daily disposable soft contact lenses. Contact Lens & Anterior Eye. 2010;33:88-92.
3. Pruitt , Triple-action moisturisers for increased comfort in daily disposable lenses, Optician 2007; 16.11: 27-28.
4. Nichols JJ, Willcox MDP, Bron AJ, et al. The TFOS International Workshop on Contact Lens Discomfort: Executive Summary. Invest Ophthalmol Vis Sci. 2013;54:TFOS7–TFOS13. DOI:10.1167/iovs.13-13212
5. Bringing comfort to the masses: a novel evaluation of comfort agent solution properties. White CJ, Thomas CR, Byrne ME. Cont Lens Anterior Eye. 2014 Apr;37(2):81-91.

PRECISION1™ (IMG-PR1-2400005)
*Basé sur des mesures in vitro de lentilles non portées.
‡AVERTISSEMENT : les lentilles de contact absorbant les UV ne remplacent pas les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Vous devez continuer à utiliser des lunettes absorbant les UV comme indiqué.
† Basé sur le mouvement, le centrage et la rotation de la lentille lors de l’ajustement initial.


1. A01660-REP-044605 v2 Precision1 Lens with Smart Surface. REF-10890. Alcon data on file, 2019. Available on request.
2. Cummings S, Giedd B, Pearson C. Clinical performance of a new daily disposable spherical contact lens. Optom Vis Sci. 2019;96:Eabstract 195375
3. Tucker B, Leveillee E, Bauman E, Subbaraman L. Characterization of the Surface Properties of a Novel Daily Disposable Silicone Hydrogel Contact Lens. Poster presented at the American Academy of Optometry Annual Conference, October 23-26; Orlando FL.
4. A04023-REP-176245 v2.2 IDDROP Comparative Study DACP and BioTrue. REF-04425. Alcon data on file, 2019. Available on request.
5. A01660-REP-180369-1 v1.2 iDDROP Comparative Study Oasys 1 Day and TruEye. REF-06062. Alcon data on file, 2019. Available on request.


PRECISION1™ for Astigmatism (IMG-PRA-2400002)
*Basé sur 98,7 % des yeux présentant une oscillation de la lentille avec un clignement de ≤ 5° lors du port de lentilles de contact PRECISION1™ for Astigmatism
**Basé sur des mesures in vitro de lentilles non portées.
‡AVERTISSEMENT : les lentilles de contact absorbant les UV ne remplacent pas les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Vous devez continuer à utiliser des lunettes absorbant les UV comme indiqué.

1. A01660-REP-044605 v2 Precision1 Lens with Smart Surface. REF-10890. Alcon data on file, 2019. Available on request.
2. CLA306-P001 Clinical Study Summary- Clinical Performance of Two Daily Disposable Toric. REF-14677. Available on request.
3. Clinical Performance of a Daily Disposable Toric Silicone Hydrogel Contact Lens [CLA306-C003] n=78 eyes. REF-10364. Alcon data on file, 2020. Available on request.
4. A01660-REP-044605 v2 Precision1 Lens with Smart Surface. REF-10890. Alcon data on file, 2019. Available on request.
5. Cummings S, Giedd B, Pearson C. Clinical performance of a new daily disposable spherical contact lens. Optom Vis Sci. 2019;96:Eabstract 195375.

DAILIES TOTAL1™ (IMG-DT1-2400014) 
*Basé sur le fait que 9 porteurs sur 10 sont d’accord avec l’énoncé « Lorsque je porte mes lentilles, il m’arrive d’oublier que je les porte. »
**Lentilles à haute teneur en oxygène, DK/T = 156 @ -3,00. D’après les valeurs Dk et d’épaisseur publiées par le fabricant dans : Tyler’s Quarterly Soft Contact Lens Parameter Guide. Décembre 2020.
†Comparé à 1-DAY ACUVUE TruEye et clariti 1-day.
#Basé sur des mesures in vitro de lentilles non portées.

1. Perez-Gomez I, Giles T. European survey of contact lens wearers and eye care professionals on satisfaction with a new water gradient disposable contact lens. Clin Optom. 2014;6:17-23.
2. Belda-Salmerón L, Ferrer-Blasco T, Albarrán-Diego C, Madrid-Costa D, Montés-Micó R. Diurnal variations in visual performance for disposable contact lenses. Optom Vis Sci. 2013;90(7):682-690.
3. Angelini TE, Nixon RM, Dunn AC, et al. Viscoelasticity and mesh-size at the surface of hydrogels characterized with microrheology. Invest Ophthalmol Vis Sci. 2013;54:E-abstract 500.
4. Thekveli S, Qui Y, Kapoor Y, et al. Structure-property relationship of delefilcon A lenses. Cont Lens Anterior Eye. 2012;35(suppl 1):e14.
5. Pitt WG, Jack DR, Zhao Y, Nelson JL, Pruitt JD. Loading and release of a phospholipid from contact lenses. Optom Vis Sci. 2011;88(4):502-506.

DAILIES TOTAL1™ for Astigmatism (IMG-DTA-2400003) 
*Basé sur des mesures in vitro de lentilles non portées.
**Basé sur le mouvement, le centrage et la rotation de la lentille lors de l’ajustement initial.
†Les lentilles de contact absorbant les UV ne remplacent PAS les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Le patient doit continuer à utiliser des lunettes absorbant les UV comme indiqué.

1. In a clinical trial to assess overall performance of DAILIES TOTAL1® for Astigmatism lenses where n=134 patients. REF-13451. Alcon data on file, 2021. Available on request.
2. In a clinical trial to evaluate stability of axis orientation of DAILIES TOTAL1® for Astigmatism lenses where n=47. REF-09861. Alcon data on file, 2020. Available on request.
3. Young G, Sulley A, Hunt C. Prevalence of astigmatism in relation to soft contact lens fitting. Eye Contact Lens. 2011;37:20-25. 
4. Thekveli S, Qui Y, Kapoor Y, et al. Structure-property relationship of delefilcon A lenses. Cont Lens Anterior Eye. 2012;35(Supp 1):e14. 
5. Angelini TE, Nixon RM, Dunn AC, et al. Viscoelasticity and mesh-size at the surface of hydrogels characterized with microrheology. Invest Ophthalmol Vis Sci. 2013;54:E-abstract 500. 
6. Pitt W, Jack D, Zhao Y, Nelson J, Pruitt J. Loading and release of a phospholipid from contact lenses. Optom Vis Sci. 2011; 88(4):502-506.
7. Laboratory assessment of ultraviolet and visible light transmission properties of lehfilcon A contact lenses using spectrophotometer. REF-10943. Alcon data on file, 2020. Available on request.

DAILIES TOTAL1™ Multifocal (IMG-DTM-2400003) 
*Basé sur des mesures in vitro de lentilles non portées.

1. Based on a survey of 544 presbyopic contact lens wearers. REF-05088. Alcon data on file, 2017. Available on request.
2. Perez-Gomez I, Giles T. European survey of contact lens wearers and eye care professionals on satisfaction with a new water gradient daily disposable contact lens. Clin Optom. 2014;6:17-23. 
3. MEMO - McKenney - 12-Apr-2016 Alcon Multifocal Precision Profile Contact Lens Design. REF-01717. Alcon data on file, 2016. Available on request.
4. Lemp J, Kern J. Alcon multifocal contact lenses for presbyopia correction. Paper presented at the Canadian Association of Optometrists Congress; June 28-30, 2017; Ottawa, ON
5. In a clinical study wherein patients used AOSEPT® solution for nightly cleaning, disinfecting, and storing. REF-11403. Alcon data on file, 2021. Available on request.
6. CLN705-C001 Clinical Study Summary - Clinical Performance Evaluation. REF-21154. Alcon data on file, 2022. Available on request.
7. 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.
8. Thekveli S, Qui Y, Kapoor Y, et al. Structure-property relationship of delefilcon A lenses. Cont Lens Anterior Eye. 2012;35(Supp 1):e14. 
9. Angelini TE, Nixon RM, Dunn AC, et al. Viscoelasticity and mesh-size at the surface of hydrogels characterized with microrheology. Invest Ophthalmol Vis Sci. 2013;54:E-abstract 500. 
10. Based on the ratio of lens oxygen transmissibilities among daily disposable lenses. REF-00160. Alcon data on file, 2010. Available on request.
11. Pitt W, Jack D, Zhao Y, Nelson J, Pruitt J. Loading and release of a phospholipid from contact lenses. Optom Vis Sci. 2011; 88(4):502-506. 
12. 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, Texas.
13. Bauman E, Lemp J, Kern J. Material effect on multifocal contact lens fitting of lenses of the same optical design with the same fitting guide. Poster presented at the British Contact Lens Association (BCLA) Clinical Conference and Exhibition, June 9-11, 2017. Liverpool, UK. 
14. Merchea M, Evans D, Kannarr S, et al. Assessing a modified fitting approach for improved multifocal contact lens fitting success. Presented at the American Optometric Association Annual Meeting, June 21-25, 2018. Denver, CO.

TOTAL30™ (IMG-T30-2400009) 
*Basé sur des mesures in vitro de lentilles non portées.
‡Les lentilles de contact absorbant les UV ne remplacent PAS les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Le patient doit continuer à utiliser des lunettes absorbant les UV comme indiqué.

1. In a clinical study wherein patients (n=66) used AOSEPT® solution for nightly cleaning, disinfecting, and storing. REF-11403. Alcon data on file, 2021. Available on request.
2. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. REF-11404. Alcon data on file, 2020. Available on request.
3. 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.
4. In vitro evaluation of bacterial adherence in commercial lenses. REF-10955. Alcon data on file, 2020. Available on request.
5. In vitro evaluation of bacterial biofilm in commercial lenses. REF-11760. Alcon data on file, 2020. Available on request. 
6. 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. 
7. In vitro evaluation of lipid deposition for lehfilcon A and commercial lenses using 3D confocal imaging. REF-11721. Alcon data on file, 2021. Available on request.
8. In vitro analysis of lens oxygen permeability, water content, and surface imaging. REF-11404. Alcon data on file, 2021. Available on request.
9. In vitro analysis of lehfilcon A contact lenses outermost surface softness and correlation with water content. REF-10933. Alcon data on file, 2021. Available on request.
10. Laboratory measurement of oxygen permeability by polarographic method. REF-11415. Alcon data on file, 2019. Available on request.
11. Laboratory assessment of ultraviolet and visible light transmission properties of lehfilcon A contact lenses using spectrophotometer. REF-10943. Alcon data on file, 2020. Available on request.

TOTAL30™ for Astigmatism (IMG-T3A-2400003) 
*Basé sur des mesures in vitro de lentilles non portées.
**Basé sur le mouvement, le centrage et la rotation de la lentille lors de l’ajustement initial.
†Les lentilles de contact absorbant les UV ne remplacent PAS les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Le patient doit continuer à utiliser des lunettes absorbant les UV comme indiqué.

1. In a clinical trial to evaluate on-eye performance of TOTAL30® for Astigmatism lenses where n=69. REF-15339. Alcon data on file, 2021. Available on request.
2. Based on a clinical trial where n=18. REF-15340. Alcon data on file, 2021. Available on request.
3. In vitro analysis of lens oxygen permeability, water content, and surface imaging. REF-11404. Alcon data on file, 2021. Available on request.
4. In vitro analysis of lehfilcon A contact lenses outermost surface softness and correlation with water content. REF-10933. Alcon data on file, 2021. Available on request.
5. Based on in vitro measurement of thickness profiles on unworn lenses. REF-14600. Alcon data on file, 2021. Available on request.
6. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. REF-11404. Alcon data on file, 2020. Available on request.
7. 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. 
8. In vitro evaluation of bacterial adherence in commercial lenses. REF-10955. Alcon data on file, 2020. Available on request.
9. In vitro evaluation of bacterial biofilm in commercial lenses. REF-11760. Alcon data on file, 2020. Available on request. 
10. 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. 
11. In vitro evaluation of lipid deposition for lehfilcon A and commercial lenses using 3D confocal imaging. REF-11721. Alcon data on file, 2021. Available on request.
12. Laboratory assessment of ultraviolet and visible light transmission properties of lehfilcon A contact lenses using spectrophotometer. REF-10943. Alcon data on file, 2020. Available on request.

TOTAL30™ Multifocal (IMG-T3M-2400005) 
*Basé sur le fait que 9 porteurs sur 10 sont d’accord avec l’énoncé « Lorsque je porte mes lentilles, il m’arrive d’oublier que je les porte. » 
**Basé sur des études in vitro sur des lentilles sphériques non portées.
†Basé sur des mesures in vitro de lentilles non portées.
††Dk/t @ -3,00 D = 154
‡ Les lentilles de contact absorbant les UV ne remplacent PAS les lunettes de protection absorbant les UV, telles que les lunettes de protection ou les lunettes de soleil absorbant les UV, car elles ne couvrent pas complètement l’œil et la zone environnante. Le patient doit continuer à utiliser des lunettes absorbant les UV comme indiqué.


1. In a clinical study wherein patients used AOSEPT® solution for nightly cleaning, disinfecting, and storing. REF-11403. Alcon data on file, 2021. Available on request.
2. CLN705-C001 Clinical Study Summary - Clinical Performance Evaluation. REF-21154. Alcon data on file, 2022. Available on request.
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. REF-10933. Alcon data on file, 2020. Available on request.
5. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. REF-11404. Alcon data on file, 2020. Available on request.
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. REF-11415. Alcon data on file, 2019. Available on request.
9. In vitro evaluation of bacterial adherence in commercial lenses. REF-10955. Alcon data on file, 2020. Available on request.
10. In vitro evaluation of bacterial biofilm in commercial lenses. REF-11760. Alcon data on file, 2020. Available on request.
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. REF-11721. Alcon data on file, 2021. Available on request.
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 property analysis of lehfilcon A lenses out of pack and after 30 days of wear. REF-11408. Alcon data on file, 2020. Available on request.
15. Surface observations of lehfilcon A contact lens and human cornea using scanning transmissions electron microscopy. REF-11416. Alcon data on file, 2020. Available on request.
16. Laboratory assessment of ultraviolet and visible light transmission properties of lehfilcon A contact lenses using spectrophotometer. REF-10943. Alcon data on file, 2020. Available on request.
17. MEMO - McKenney - 12-Apr-2016 - Alcon Multifocal Precision Profile Contact Lens Design. REF-00194. Alcon data on file, 2016. Available on request.
18. 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.

AIR OPTIX™ plus HydraGlyde™ (IMG-AHG-2400001) 
*Basé sur des études portant sur les lentilles de contact AIR OPTIX® AQUA.


1. Eiden SB, Davis RL, Bergenske PD. Prospective study of lotrafilcon B lenses comparing 2 versus 4 weeks of wear for objective and subjective measures of health, comfort, and vision. Eye & Contact Lens. 2013;39(4):290-294. 
2. Based on a 30-day clinical study of 75 habitual lotrafilcon B lens wearers. REF-06361. Alcon data on file, 2017. Available on request.
3. Lemp J, Kern J. A comparison of real time and recall comfort assessments. Optom Vis Sci. 2016;93:Eabstract 165256. 
4. In vitro study over 16 hours to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
5. Muya L, Lemp J, Kern JR, Sentell KB, Lane J, Perry SS. Impact of packaging saline wetting agents on wetting substantivity and lubricity. Invest Opthalmol Vis Sci. 2016;57:E- abstract 1463. 
6. Lemp J, Kern J. On-eye performance of lotrafilcon B lenses packaged with a substantive wetting agent. Poster presented at Optometry’s Meeting, the Annual Meeting of the American Optometric Association; June 21-25, 2017; Washington, D.C.
7. Nash W, Gabriel M, Movrewy Mckee M. A comparison of various silicone hydrogel lenses; lipid and protein deposition as a result of daily wear. Optom Vis Sci. 2010;87: E-abstract 105110. 
8. Nash W. Gabriel M. Ex vivo analysis of cholesterol deposition for commercially available silicone hydrogel contact lenses using a fluorometric enzymatic assay. Eye Contact Lens. 2014;40(5):277-282. 
9. CLA560-P001 TDOC-0051304 One month clinical comparison of lotrafilcon B and samfilcon A. REF-00754. Alcon data on file, 2016. Available on request.
10. MEMO - Pruitt - 17-Dec-2013 Surface mobility of silicone in Air Optix lenses. REF-01571. Alcon data on file, 2013. Available on request.
11. Rex J, Perry S, Lemp J. Concentrations of Silicon at Silicone Hydrogel Contact Lens Surfaces. Poster presented at BCLA Clinical Conference; May 29-31, 2015; Liverpool, England. 
12. Guillon M, Maissa C, Wong S, Patel K, Lemp J. Tear film dynamics over silicone hydrogel contact lenses with different lipid deposition profiles. Optom Vis Sci. 2014;91:E-abstract 145196.
13. In vitro study over 16 hours, to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
14. Muya L, Lemp J, Kern JR, Sentell KB, Lane J, Perry SS. Impact of packaging saline wetting agents on wetting substantivity and lubricity. Invest Opthalmol Vis Sci. 2016;57:E-abstract 1463.


AIR OPTIX™ plus HydraGlyde™ for Astigmatism (IMG-AHA-2400001) 
*Basé sur des études portant sur les lentilles de contact AIR OPTIX® AQUA.
*Basé sur des études cliniques portant sur les lentilles de contact AIR OPTIX™ for Astigmatism.

1. Eiden SB, Davis RL, Bergenske PD. Prospective study of lotrafilcon B lenses comparing 2 versus 4 weeks of wear for objective and subjective measures of health, comfort, and vision. Eye & Contact Lens. 2013;39(4):290-294. 
2. Based on a 30-day clinical study of 75 habitual lotrafilcon B lens wearers. REF-06361. Alcon data on file, 2017. Available on request.
3. Lemp J, Kern J. A comparison of real time and recall comfort assessments. Optom Vis Sci. 2016;93:Eabstract 165256. 
4. In vitro study over 16 hours to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
5. Muya L, Lemp J, Kern JR, Sentell KB, Lane J, Perry SS. Impact of packaging saline wetting agents on wetting substantivity and lubricity. Invest Opthalmol Vis Sci. 2016;57:E- abstract 1463. 
6. Lemp J, Kern J. On-eye performance of lotrafilcon B lenses packaged with a substantive wetting agent. Poster presented at Optometry’s Meeting, the Annual Meeting of the American Optometric Association; June 21-25, 2017; Washington, D.C.
7. Nash W, Gabriel M, Movrewy Mckee M. A comparison of various silicone hydrogel lenses; lipid and protein deposition as a result of daily wear. Optom Vis Sci. 2010;87: E-abstract 105110. 
8. Nash W. Gabriel M. Ex vivo analysis of cholesterol deposition for commercially available silicone hydrogel contact lenses using a fluorometric enzymatic assay. Eye Contact Lens. 2014;40(5):277-282. 
9. CLA560-P001 TDOC-0051304 One month clinical comparison of lotrafilcon B and samfilcon A. REF-00754. Alcon data on file, 2016. Available on request.
10. MEMO - Pruitt - 17-Dec-2013 Surface mobility of silicone in Air Optix lenses. REF-01571. Alcon data on file, 2013. Available on request.
11. Rex J, Perry S, Lemp J. Concentrations of Silicon at Silicone Hydrogel Contact Lens Surfaces. Poster presented at BCLA Clinical Conference; May 29-31, 2015; Liverpool, England. 
12. Guillon M, Maissa C, Wong S, Patel K, Lemp J. Tear film dynamics over silicone hydrogel contact lenses with different lipid deposition profiles. Optom Vis Sci. 2014;91:E-abstract 145196.
13. In vitro study over 16 hours, to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
14. Muya L, Lemp J, Kern JR, Sentell KB, Lane J, Perry SS. Impact of packaging saline wetting agents on wetting substantivity and lubricity. Invest Opthalmol Vis Sci. 2016;57:E-abstract 1463.
15. In a randomized, subject-masked, multi-site clinical study with over 150 patients; significance demonstrated at the 0.05 level. REF-05104. Alcon data on file, 2005. Available on request. 
16. R-242-C-007- Sub 1, 2, 3 O2 Optix-Biomedics, Soflens 66, Frequency 55 Toric Daily Wear US Trials. REF-03138. Alcon data on file, 2005. Available on request.


AIR OPTIX™ plus HydraGlyde™ Multifocal (IMG-AHM-2400001)

1. In vitro study over 16 hours, to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
2. Muya L, Lemp J, Kern JR, Sentell KB, Lane J, Perry SS. Impact of packaging saline wetting agents on wetting substantivity and lubricity. Invest Opthalmol Vis Sci. 2016;57:E- abstract 1463. 
3. MEMO - McKenney - 12-Apr-2016 Alcon Multifocal Precision Profile Contact Lens Design. REF-01717. Alcon data on file, 2013. Available on request.
4. Lemp J, Kern J. Alcon multifocal contact lenses for presbyopia correction. Paper presented at the Canadian Association of Optometrists Congress; June 28-30, 2017; Ottawa, ON. 
5. Eiden SB, Davis RL, Bergenske PD. Prospective study of lotrafilcon B lenses comparing 2 versus 4 weeks of wear for objective and subjective measures of health, comfort, and vision. Eye Contact Lens. 2013;39(4):290-294. 
6. Based on a 30-day clinical study of 75 habitual lotrafilcon B lens wearers. REF-06361. Alcon data on file, 2017. Available on request.
7. Lemp J, Kern J. A comparison of real time and recall comfort assessments. Optom Vis Sci. 2016;93:E-abstract 165256.
8. Lemp J, Kern J. On-eye performance of lotrafilcon B lenses packaged with a substantive wetting agent. Poster presented at Optometry’s Meeting, the Annual Meeting of the American Optometric Association; June 21-25, 2017; Washington, D.C.
9. Nash W, Gabriel M, Movrewy Mckee M. A comparison of various silicone hydrogel lenses; lipid and protein deposition as a result of daily wear. Optom Vis Sci. 2010;87: E-abstract 105110. 
10. Nash W. Gabriel M. Ex vivo analysis of cholesterol deposition for commercially available silicone hydrogel contact lenses using a fluorometric enzymatic assay. Eye Contact Lens. 2014;40(5):277-282. 
11. CLA560-P001 TDOC-0051304 One month clinical comparison of lotrafilcon B and samfilcon A. REF-00754. Alcon data on file, 2016. Available on request.
12. MEMO - Pruitt - 17-Dec-2013 Surface mobility of silicone in Air Optix lenses. REF-01571. Alcon data on file, 2013. Available on request.
13. Rex J, Perry S, Lemp J. Concentrations of Silicon at Silicone Hydrogel Contact Lens Surfaces. Poster presented at BCLA Clinical Conference; May 29-31, 2015; Liverpool, England. 
14. Guillon M, Maissa C, Wong S, Patel K, Lemp J. Tear film dynamics over silicone hydrogel contact lenses with different lipid deposition profiles. Optom Vis Sci. 2014;91:E-abstract 145196.
15. In vitro study over 16 hours, to measure wetting substantivity. REF-00036. Alcon data on file, 2015. Available on request.
16. 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, Texas.

AIR OPTIX™ NIGHT&DAY™ AQUA (IMG-AON-2400001)
†Port prolongé jusqu’à 30 nuits consécutives, tel que prescrit par un ophtalmologiste.
*Dk/t = 175 à -3,00 D. D’autres facteurs peuvent avoir un impact sur la santé oculaire.


1. AIR OPTIX™ NIGHT & DAY™ AQUA package insert.
2. Based on the ratio of lens oxygen transmissibilities. REF-00022. Alcon data on file, 2009, 2010. Available on request.
3. Lemp J, Kern J. On-eye performance of lotrafilcon B lenses packaged with a substantive wetting agent. Poster presented at Optometry's Meeting, the Annual Meeting of the American Optometric Association; June 21-25, 2017; Washington, D.C. 
4. Nash W, Gabriel M, Mowrey-McKee M. A comparison of various silicone hydrogel lenses; lipid and protein deposition as a result of daily wear. Optom Vis Sci. 2010;87: E-abstract 105110. 
5. Nash WL, Gabriel MM. Ex vivo analysis of cholesterol deposition for commercially available silicone hydrogel contact lenses using a fluorometric enzymatic assay. Eye Contact Lens. 2014;40(5):277-282.


AIR OPTIX™ COLORS (IMG-AOC-2400003)
*Dk/t = 138 @ -3,00 D. D’autres facteurs peuvent avoir un impact sur la santé oculaire

 

1.AIR OPTIX COLORS contact lenses: Comfort and breathability. CLM-AOC-US-0001. Alcon data on file, 2013. Available on request.
2. In vitro study over 16 hours to measure wetting substantivity. REF-14662. Alcon data on file, 2015. Available on request.
3. Eiden SB, Davis, R, Bergenske P. Prospective study of lotrafilcon B lenses comparing 2 versus 4 weeks of wear for objective and subjective measures of health, comfort and vision. Eye Contact Lens. 2013;39(4):290-294. 
4. Lemp J. Kern J. A comparison of real time and recall comfort assessments. Optom Vis Sci. 2016;93E-abstract 165256. 
5. Smartshield Technology shields from irritating deposits for consistent comfort all month long. CLM-AOA-GLB-0009. Alcon data on file, 2014. Available on request.

OPTI-FREE® Puremoist® (IMG-OFM-2400001) 

 

1. OPTI-FREE® Puremoist® Directions for Use.
2. Lally J, Ketelson H, Borazjani R, et al. A new lens care solution provides moisture and comfort with today’s CLs. Optician 4/1/2011, Vol 241 Issue 6296, 42-46.
3. Davis J, Ketelson HA, Shows A, Meadows DL. A lens care solution designed for wetting silicone hydrogel materials. Poster presented at ARVO; May 2010; Fort Lauderdale, FL.
4. Campbell R, Kame G, et al. Clinical benefits of a new multi-purpose disinfecting solution in silicone hydrogel and soft contact lens users. Eye & Contact Lens 2012:38(2);93-101. 
5. Shannon P, McAnally C, Walter R, et al. Antimicrobial Efficacy of Contact Lens Solutions Assessed by ISO Standards. Poster presented at the Annual Meeting of the American Academey of Optometry, Orlando, FL, October 23-27, 2019.
6. Rosenthal R, Sutton S, Schlech B. Review of standards for evaluating the effectiveness of contact lens disinfectants. PDA J Pharm Sci And Tech. 2002;56(1):37-50.
7. Santos L, Oliveira R, Oliveira ME, Azeredo J. Lens material and formulation of multipurpose solutions affects contact lens disinfection. Cont Lens Anterior Eye. 2011;34(4):179-182.
8. Senchyna M, et al. Characterization of a Multi-Purpose Lens Solution Designed for Silicone Hydrogel Materials. Poster presented at: ARVO; May 2010; Fort Lauderdale, FL.

OPTI-FREE® Express® (IMG-OFX-2400001)

 

1. Stiegemeier MJ, Cedrone R, Evans D, et al. Clinical performance of 'no rub' multi-purpose solutions. Cont Lens Anterior Eye. 2004;27(2):65-74.
2. OPTI-FREE® Express Directions for Use. 
3. Rosenthal RA, Buck S, McAnally C, Abshire R, Schlech B. Antimicrobial comparison of a new multi-purpose disinfecting solution to a 3% hydrogen peroxide system. CLAO J. 1999;25(4):213-217. 
4. Santos L, Oliveira R, Oliveira ME, Azeredo J. Lens material and formulation of multipurpose solutions affects contact lens disinfection. Cont Lens Anterior Eye. 2011;34(4):179-182.

AOSEPT™ PLUS met HydraGlyde™ (IMG-ASH-2400001) 

 

1. Clear Care Customer Survey 2017. REF-01606. Alcon data on file, 2017. Available on request.
2. Muya L, Scott A, Alvord L, Nelson J, Lemp J. Wetting substantivity of a new hydrogen peroxide disinfecting solution on silicone hydrogel contact lenses. Poster presented at the British Contact Lens Association 39th Clinical Conference & Exhibition, Liverpool, UK, May 29-31, 2015.
3. LCD913 - P001 - TDOC-0051197 Comparison of two one-step hydrogen peroxide lens care solutions. REF-04351. Alcon data on file, 2016. Available on request.
4. TDOC-0017891 - Regimen Test for Hydrogen Peroxide nEOBO Solution (FID 120947A) Against Acanthamoeba. REF-06787. Alcon data on file, 2017.
5. AOSEPT™ PLUS Directions for Use.


AOSEPT™ PLUS (IMG-ASP-2400001)

1. Clear Care Customer Survey 2017. REF-01606. Alcon data on file, 2017. Available on request.
2. CIBA Clear Care survey. REF-04822. Alcon data on file, 2007. Available on request.
3.LCD913 - P001 - TDOC-0051197 Comparison of two one-step hydrogen peroxide lens care solutions. REF-04351. Alcon data on file, 2016. Available on request.
4. AOSEPT™ PLUS Directions for Use.

Systane® COMPLETE(IMG-SYC-2400001) 
*Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**Veuillez vous reporter au mode d’emploi
^ Par rapport à Systane® BALANCE

1. Silverstein S, Yeu E, Tauber J, et al. Symptom Relief Following a Single Dose of Propylene Glycol-Hydroxypropyl Guar Nanoemulsion in Patients with Dry Eye Disease: A Phase IV, Multicenter Trial. Clin Ophthalmol. 2020;14:3167-3177. 
2. Ketelson H, Rangarajan R. Pre-clinical evaluation of a novel phospholipid nanoemulsion based lubricant eye drops. Poster presented at ARVO 2017, Baltimore, MD. 
3. Rangarajan R, Ketelson H. Preclinical evaluation of a new hydroxypropyl-guar phospholipid nanoemulsion-based artificial tear formulation in models of corneal epithelium. J Ocul Pharmacol Ther. 2019;35(1):32-37. 
4. TDOC-0051863 v3.0 Research Summary for Formulation ID 119305, Nanoemulsion. REF-01748. Alcon data on file, 2017. Available on request.

Systane® COMPLETE SANS CONSERVATEUR (IMG-SYX-2400008)
* Également disponible en version avec conservateur
** Par rapport à Systane® BALANCE
*** Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**** Veuillez vous reporter au mode d’emploi


1. Silverstein S. et al. Symptom Relief Following a Single Dose of Propylene Glycol-Hydroxypropyl Guar Nanoemulsion in Patients with Dry Eye Disease: A Phase IV, Multicenter Trial. Clinical Ophthalmology 2020:14 3167–3177

 

Systane® ULTRA SANS CONSERVATEUR (IMG-SYZ-2400001)

* Également disponible en version avec conservateur
** Par rapport à Systane® BALANCE
*** Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**** Veuillez vous reporter au mode d’emploi


1. Davitt WF, Bloomenstein M, Christensen M, Martin AE. Efficacy in patients with dry eye after treatment with a new lubricant eye drop formulation. J Ocul Pharmacol Ther. 2010;26(4):347-353. .
2. Christensen MT, Martin AE, Bloomenstein M. A comparison of efficacy between Systane Ultra and Optive lubricant eye drops when tested with dry eye patients. Optometry. 2009;80(6):315.


Systane® HYDRATION SANS CONSERVATEUR (IMG-SYY-2400006)
* Données in vitro
**Également disponible en version avec conservateur
***Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
****Veuillez vous reporter au mode d’emploi


1. Rangarajan R, Kraybill B, Ogundele A, Ketelson H. Effects of a Hyaluronic Acid/Hydroxypropyl Guar Artificial Tear Solution on Protection, Recovery, and Lubricity in Models of Corneal Epithelium. J. Ocul. Pharmacol. Ther. 2015;31(8):491-497. 
2. Davitt, WF, Bloomenstein M, Christensen M, Martin AE. Efficacy in patients with dry eye after treatment with a new lubricant eye drop formulation. J Ocul Pharmacol Ther. 2010;26(4):347-353. 
3. Rolando M, Autori S, Badino F, Barabino S. Protecting the ocular surface and improving the quality of life of dry eye patients: a study of the efficacy of an HP-guar containing ocular lubricant in a population of dry eye patients. J Ocul Pharmacol Ther. 2009;25(3):271-278.

Systane® ULTRA (IMG-SYU-2400001)
*Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**Veuillez vous reporter au mode d’emploi

1. Davitt WF, Bloomenstein M, Christensen M, Martin AE. Efficacy in patients with dry eye after treatment with a new lubricant eye drop formulation. J Ocul Pharmacol Ther. 2010;26(4):347-353. .
2. Christensen MT, Martin AE, Bloomenstein M. A comparison of efficacy between Systane Ultra and Optive lubricant eye drops when tested with dry eye patients. Optometry. 2009;80(6):315.


Systane® HYDRATION (IMG-SYH-2400001)
* Données in vitro
**Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
***Veuillez vous reporter au mode d’emploi



1. Rangarajan R, Kraybill B, Ogundele A, Ketelson H. Effects of a Hyaluronic Acid/Hydroxypropyl Guar Artificial Tear Solution on Protection, Recovery, and Lubricity in Models of Corneal Epithelium. J. Ocul. Pharmacol. Ther. 2015;31(8):491-497. 
2. Davitt, WF, Bloomenstein M, Christensen M, Martin AE. Efficacy in patients with dry eye after treatment with a new lubricant eye drop formulation. J Ocul Pharmacol Ther. 2010;26(4):347-353. 
3. Rolando M, Autori S, Badino F, Barabino S. Protecting the ocular surface and improving the quality of life of dry eye patients: a study of the efficacy of an HP-guar containing ocular lubricant in a population of dry eye patients. J Ocul Pharmacol Ther. 2009;25(3):271-278.

Systane® BALANCE (IMG-SYB-2400001)
*Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**Veuillez vous reporter au mode d’emploi

1. Benelli U. Systane lubricant eye drops in the management of ocular dryness. Clin Ophthalmol. 2011:5;783-790.
2. Korb DR, Blackie CA, Meadows DL, Christensen M, Tudor M. Evaluation of extended tear stability by two emulsion based artificial tears. Poster presented at: 6th International Conference on the Tear Film and Ocular Surface: Basic Science and Clinical Relevance; September 22-25, 2010; Florence, Italy.

Systane® GEL DROPS (IMG-SGD-2400001)
*Sur la base d’une évaluation interne et d’une segmentation des porteurs de lentilles
**Veuillez vous référer au mode d’emploi

1. Cohen S, et al. Evaluation of clinical outcomes in patients with dry eye disease using lubricant eye drops containing polyethylene glycol or carboxymethylcellulose. Clin Ophtalmology. 2014;8:157-164.
2. Christensen M, Martin A, Meadows D. An evaluation of the efficacy and patient acceptance of a new lubricant eye gel. The American Academy of Optometry Annual Meeting; 2011; E-Abstract 115013.
3. Davitt WF, Bloomenstein M, Christensen M, Martin AE. Efficacy in patients with dry eye after treatment with a new lubricant eye drop formulation. J Ocul Pharmacol Ther. 2010;26(4):347-353. 

Systane® LID WIPES (IMG-SYW-2400001)

1. National Center for Biotechnology Information. U.S. National Library of Medicine. Available at https://pubchem.ncbi.nlm.nih.gov/source/hsdb/46#section=Overview. Accessed April 2020.



Pour les lentilles de contact : consulter le mode d’emploi pour le port, l’entretien, les précautions, les avertissements, les contre-indications et les effets indésirables.
Pour les gouttes pour les yeux secs : consulter le mode d’emploi, les précautions, les avertissements et les contre-indications 
Pour l’entretien des lentilles de contact : consulter le mode d’emploi pour l’entretien, les précautions, les avertissements, les contre-indications et les effets indésirables.

Key
pdp
Country
Luxembourg
User Type
All
Application
MyAlconStore