Corneal Cross-Linking: The Science Beyond the Myths and Misconceptions

Rubinfeld, Roy S.; Caruso, Ciro; Ostacolo, Carmine

doi:10.1097/ico.0000000000001912

Cited by 49 publications

(45 citation statements)

References 158 publications

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“…Vizzari et al showed that topical application of the antioxidant and shielding solution significantly counteracted the UV-induced oxidative stress in both the aqueous humor and lens of exposed rabbits [40]. Furthermore, riboflavin shows an indirect antioxidant capacity because it has a shielding action (limits the damage caused by UV-A irradiation), as demonstrated in our studies on cross linking [44][45][46].…”

Section: Discussionsupporting

confidence: 71%

Corneal UV Protective Effects of a Topical Antioxidant Formulation: A Pilot Study on In Vivo Rabbits

Palazzo

Vizzarri

Ondruška

et al. 2020

IJMS

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This study aimed to evaluate the protective effect of a topical antioxidant and ultraviolet (UV) shielding action formulation containing riboflavin and D-α-tocopherol polyethylene glycol succinate (TPGS) vitamin E against corneal UV-induced damage in vivo rabbit eyes. In vivo experiments were performed using male albino rabbits, which were divided into four groups. The control group (CG) did not receive any UV irradiation; the first group (IG) was irradiated with a UV-B−UV-A lamp for 30 min; the second (G30) and third (G60) groups received UV irradiation for 30 and 60 min, respectively, and were topically treated with one drop of the antioxidant and shielding formulation every 15 min, starting one hour before irradiation, until the end of UV exposure. The cornea of the IG group showed irregular thickening, detachment of residual fragments of the Descemet membrane, stromal fluid swelling with consequent collagen fiber disorganization and disruption, and inflammation. The cornea of the G30 group showed edema, a mild thickening of the Descemet membrane without fibrillar collagen disruption and focal discoloration, or inflammation. In the G60 group, the cornea showed a more severe thickening, a more abundant fluid accumulation underneath the Descemet membrane with focal detachment, and no signs of severe tissue alterations, as were recorded in the IG group. Our results demonstrate that topical application of eye drops containing riboflavin and TPGS vitamin E counteracts UV corneal injury in exposed rabbits.

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Section: Discussionsupporting

confidence: 71%

Corneal UV Protective Effects of a Topical Antioxidant Formulation: A Pilot Study on In Vivo Rabbits

Palazzo

Vizzarri

Ondruška

et al. 2020

IJMS

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show abstract

“…Vizzari et al showed that topical application of the antioxidant and shielding solution significantly counteracts the UV-induced oxidative stress in both aqueous humor and lens of exposed rabbits [40]. Furthermore, riboflavin shows an indirect antioxidant capacity because it has a shielding action (limits the damage caused by the UV-A irradiation) as demonstrated in our studies on cross linking [52][53][54]. The existence of ocular biochemical damages due to acute and chronic exposure to UV-B and UV-A has been widely demonstrated.…”

Section: Discussionsupporting

confidence: 65%

Corneal UV Protective Effects Of A Topical Antioxidant Formulation: A Pilot Study On In Vivo Rabbits

Bartollino

Vizzarri

Palazzo

et al. 2019

Preprint

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Background The purpose of this study has been to evaluate the protective effect of a topical antioxidant and UV schielding action formulation containing riboflavin, d-α-tocopheryl polyethylene glycol (TPGS vitamin E), against corneal UV-induced damage in vivo rabbit eyes. Methods For the evaluation, in vivo experiments were performed using twelve male albino rabbits. Animals were divided into 4 groups of 3 animals each: control group (CG) didn’t receive any UV irradiation; the first group (IG) was irradiated with an UV-B - UV-A lamp for 30 min; the second (IG30) and the third (IG60) groups received UV irradiation for 30 and 60 minutes, respectively, and were topically treated with 1 drop (approximately 50 µl) of the antioxidant and shielding formulation every 15 minutes, starting one hour before irradiation, until the end of UV exposure. Results The cornea of IG group showed irregular thickening, detachment of residual fragments of the Descemet membrane, stromal fluid swelling with consequent collagen fibers disorganization and disruption, and inflammation. The cornea of G30 group showed edema, a mild thickening of Descemet membrane without fibrillar collagen disruption and focal discoloration, nor inflammation. In the G60 group cornea showed a more severe thickening of the cornea, a more abundant fluid accumulation underneath the Descemet membrane, with focal detachment of the same, and no signs of severe tissue alterations, as those recorded in the IG group. Conclusion Our results demonstrate that a topical application of eye drops containing riboflavin, d-α-tocopheryl polyethylene glycol (TPGS vitamin E) counteracts UV corneal injury in exposed rabbits.

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“…If riboflavin degradation is inhibited in the corneal stroma during a clinically relevant time window, ie, over 20–30 min of UVA exposure, 51 then NaI may be helpful to in vivo crosslinking. The data in the present study do not reach statistical significance in showing this independent effect in terms of a decay slope, but do show significantly higher riboflavin grades at 15, 20, and 25 minutes after onset of UVA exposure during crosslinking.…”

Section: Discussionmentioning

confidence: 99%

“…After sufficient riboflavin loading, oxygen is the limiting reagent in CXL. [49][50][51] However, with insufficient oxygen UVA radiation photodegrades riboflavin, reducing CXL efficiency 52 and increasing UVA radiation exposure to corneal endothelium. In conventional CXL procedures, effective CXL and endothelial protection is achieved by repeated intraoperative application of riboflavin onto a deepithelialized stromal surface.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Sodium Iodide on Stromal Loading, Distribution and Degradation of Riboflavin in a Rabbit Model of Transepithelial Corneal Crosslinking

Rubinfeld¹,

Gum²,

Talamo³

et al. 2021

OPTH

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Purpose: To evaluate effects of sodium iodide (NaI) on riboflavin concentration in corneal stroma before and during ultraviolet A (UVA) light exposure using a novel transepithelial corneal collagen crosslinking (CXL) procedure (EpiSmart CXL system, CXL Ophthalmics, Encinitas CA). Methods: Riboflavin solutions with NaI (Ribostat, CXL Ophthalmics, Encinitas CA) and without NaI were used for CXL in rabbits using EpiSmart. A pilot study determined sufficient riboflavin loading time. Four rabbits were dosed and monitored. Riboflavin fluorescence intensity was assessed from masked slit-lamp photos. A 12 min loading time was selected. Sixteen additional rabbits received the two formulae in contralateral eyes for CXL. Riboflavin uptake was assessed at 0, 10, 15, 20, 25, and 30 min of UVA exposure using a scale for riboflavin fluorescence previously validated against stromal concentration. Post sacrifice, corneal stromal samples were analyzed for concentrations of riboflavin and riboflavin 5ʹ-phosphate. Results: Eyes dosed with NaI riboflavin had higher riboflavin grades compared to eyes dosed with the NaI-free riboflavin formulation immediately after riboflavin loading and persisting throughout UVA exposure, with significantly higher (P < 0.01 to < 0.05) riboflavin grades from 15 through 25 min of UVA exposure. Riboflavin grades decreased more slowly in eyes dosed with NaI riboflavin through 25 minutes of UVA exposure. Minor conjunctival irritation was noted with or without NaI. Conclusion:The addition of NaI to riboflavin solution is associated with increased riboflavin concentration in corneal stroma throughout a clinically relevant time course of UVA exposure. This effect may be a combination of enhanced epithelial penetration and reduced riboflavin photodegradation and should enhance intrastromal crosslinking.

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Corneal Cross-Linking: The Science Beyond the Myths and Misconceptions

Cited by 49 publications

References 158 publications

Corneal UV Protective Effects of a Topical Antioxidant Formulation: A Pilot Study on In Vivo Rabbits

Corneal UV Protective Effects of a Topical Antioxidant Formulation: A Pilot Study on In Vivo Rabbits

Corneal UV Protective Effects Of A Topical Antioxidant Formulation: A Pilot Study On In Vivo Rabbits

The Effect of Sodium Iodide on Stromal Loading, Distribution and Degradation of Riboflavin in a Rabbit Model of Transepithelial Corneal Crosslinking

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