Collagen cross-linking impact on keratoconus extracellular matrix

Sharif, Rabab; Fowler, Ben; Karamichos, Dimitrios

doi:10.1371/journal.pone.0200704

Cited by 38 publications

(21 citation statements)

References 51 publications

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“…When it is combined with ultraviolet A (UV-A) of 365-nm wavelength, oxygen radicals are produced via photochemical reaction. Oxygen radicals can introduce interfibrillar and intrafibrillar covalent bonds among collagen fibrils [ 2 , 3 ]. Such chemical bonds can increase the corneal rigidity and its resistance to enzymatic degradation of keratoconic cornea [ 4 ], thereby restoring the stability of the cornea and halting the progression of keratoconus.…”

Section: Introductionmentioning

confidence: 99%

Effect of the retention ring-assisted continuous application of riboflavin in pulsed-light accelerated corneal collagen cross-linking on the progression of keratoconus

Kim

2019

BMC Ophthalmol

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BackgroundTo investigate the efficacy and safety of the retention ring-assisted continuous application of 0.1% riboflavin in pulsed-light accelerated corneal collagen cross-linking on the progression of keratoconus.MethodsThe medical records of 20 eyes of 18 patients with progressive keratoconus who received collagen cross-linking at Seoul National University Hospital were retrospectively reviewed. Isotonic 0.1% riboflavin was continuously applied for 10 min using an 8.0-mm retention ring before the irradiation and accelerated cross-linking was applied with 30-mW pulsed-ultraviolet light at a wavelength 365 nm for eight minutes (1 s on/1 s off; 30 mW/cm2, cumulative dose of 7 .2J/cm2) without further intermittent application of riboflavin. Visual acuity, refractive error, topographic index, corneal thickness, and endothelial cell density were evaluated before the operation and at 1, 3, 6, and 12 months.ResultsThe best corrected visual acuity in logMAR improved from preoperative 0.43 to 0.17 in 12 months (p = 0.050). Maximum keratometry decreased from 51.8 D to 50.4 D at 6 months (p = 0.015) and 50.1 D at 12 months (p = 0.0003). Astigmatism decreased from preoperative 5.5 D to 4.1 D at 12 months (p < 0.0001). Thinnest corneal thickness decreased at three and 6 months but recovered in 12 months (p > 0.05). Endothelial cell density decreased at postoperative 1 month (p = 0.02) but gradually recovered in 12 months (p > 0.05).ConclusionsRetention ring-assisted continuous application of riboflavin for 10 minutes in pulsed-light accelerated cross-linking is a comparably safe and effective treatment for halting the progression of keratoconus in 12 months when compared to outcomes of the standard Dresden protocol shown in previous reports.Electronic supplementary materialThe online version of this article (10.1186/s12886-019-1085-2) contains supplementary material, which is available to authorized users.

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Section: Introductionmentioning

confidence: 99%

Effect of the retention ring-assisted continuous application of riboflavin in pulsed-light accelerated corneal collagen cross-linking on the progression of keratoconus

Kim

2019

BMC Ophthalmol

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“…The dermatological reports reveal that UV-induced changes in the skin tissue structure may be reversible if excessive sun exposure is limited, whereas iterative exposure to UV light promotes accumulative defects [ 22 ]. The observed transient growth of CUVAF area after aCXL surgery can be facilitated by remodeling of collagen and changes in the intracellular content of proteins including cytokines and matrix metalloproteinases [ 21 , 27 ].…”

Section: Discussionmentioning

confidence: 99%

Conjunctival Ultraviolet Autofluorescence as a Measure of Riboflavin and Ultraviolet and Accelerated Cross-Linking Exposure in Keratoconic Patients

Waszczykowska

Bartosiewicz

Podgórski

et al. 2020

JCM

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Purpose: The study was performed to analyze the prevalence of the conjunctival ultraviolet autofluorescence (CUVAF) area in keratoconic eyes and changes caused by UVA-irradiation as a component of accelerated corneal cross-linking (aCXL). Methods: The study group involved 20 keratoconic patients subjected to aCXL surgery in one eye. The comparative group consisted of 111 age- and sex-matched patients with healthy corneas. The images of the anterior segment in both patient groups were taken using a Coroneo camera. In the study group the photos were taken before and immediately after the surgery, and 7 and 30 days following the procedure. Results: Nasal and temporal autofluorescence area (AN+T) were significantly smaller in a keratoconic patients group compared to control group (p = 0.0001). Patients with the third stage of keratoconus had significantly higher AN+T (p = 0.0277) compared with individuals with lower stage keratoconus. No statistically significant CUVAF changes were observed after the aCXL procedure. In keratoconic patients with primary CUVAF undergoing aCXL, a temporary fast enlargement of the autofluorescence area was observed. Conclusions: The eyes undergoing the aCXL procedure showed no difference in the size of the CUVAF area but such patients should be in strict follow-up in order to reveal UV-related ocular surface diseases.

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“…In terms of downstream effectors modulated by CXL, in vitro studies evaluating the effects of CXL on primary corneal stromal fibroblasts isolated from KC patients have shown that CXL downregulates canonical TGF-β signaling based on lower pSMAD2/3 expression post-CXL in KC [199]. A normalization of lysyl oxidase abundance [199], increased proteoglycan expression (e.g., lumican, mimecan, and decorin) [200], and a reduction in lactate levels in KC-derived corneal fibroblasts following CXL have been reported [200] suggesting that riboflavin/UV-A CXL may modulate ECM deposition and collagen crosslinking at the cellular level in addition to the direct structural modifications to collagen. Given a prominent role for oxidative stress in corneal dystrophies including KC [201], further studies are warranted to distinguish the potent antioxidant properties of riboflavin [202] on the KC phenotype independent of UV-A irradiation.…”

Section: Effects Of Crosslinking On Corneal Structurementioning

confidence: 99%

Mechanisms of Collagen Crosslinking in Diabetes and Keratoconus

McKay

Priyadarsini

Karamichos

2019

Cells

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Collagen crosslinking provides the mechanical strength required for physiological maintenance of the extracellular matrix in most tissues in the human body, including the cornea. Aging and diabetes mellitus (DM) are processes that are both associated with increased collagen crosslinking that leads to increased corneal rigidity. By contrast, keratoconus (KC) is a corneal thinning disease associated with decreased mechanical stiffness leading to ectasia of the central cornea. Studies have suggested that crosslinking mediated by reactive advanced glycation end products during DM may protect the cornea from KC development. Parallel to this hypothesis, riboflavin-mediated photoreactive corneal crosslinking has been proposed as a therapeutic option to halt the progression of corneal thinning by inducing intra- and intermolecular crosslink formation within the collagen fibrils of the stroma, leading to stabilization of the disease. Here, we review the pathobiology of DM and KC in the context of corneal structure, the epidemiology behind the inverse correlation of DM and KC development, and the chemical mechanisms of lysyl oxidase-mediated crosslinking, advanced glycation end product-mediated crosslinking, and photoreactive riboflavin-mediated corneal crosslinking. The goal of this review is to define the biological and chemical pathways important in physiological and pathological processes related to collagen crosslinking in DM and KC.

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Collagen cross-linking impact on keratoconus extracellular matrix

Cited by 38 publications

References 51 publications

Effect of the retention ring-assisted continuous application of riboflavin in pulsed-light accelerated corneal collagen cross-linking on the progression of keratoconus

Effect of the retention ring-assisted continuous application of riboflavin in pulsed-light accelerated corneal collagen cross-linking on the progression of keratoconus

Conjunctival Ultraviolet Autofluorescence as a Measure of Riboflavin and Ultraviolet and Accelerated Cross-Linking Exposure in Keratoconic Patients

Mechanisms of Collagen Crosslinking in Diabetes and Keratoconus

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