Collagen crosslinking without cornealde-epithelialization

M. FILIPPELLO, E. STAGNI

Casa di Cura Di Stefano Velona, Catania, ItalyAim. The aim of this paper was to evaluate theeffectiveness of transepithelial crosslinking(TE CXL) in patients with bilateral progressivekeratoconus.Methods. The study population was patientswith a history of bilateral progressive kerato-conus. The worse eye was treated; the untreat-ed fellow eye served as control. TE CXL wasperformed stepwise in six steps of irradiationdelivered by a laser source (CBM X-linkerVEGA) and application of Ricrolin TE (0.1%riboflavin, dextrane T500, and enhancers tofacilitate passage of the solution through thecorneal epithelium) every 5 minutes, 2 hoursbefore imbibtion with Ricrolin TE in the worseeye. Results. A gradual improvement in topographicand abberometric values, without postoperativecorneal haze or other side effects, was noted inthe TE-CXL-treated eyes. Confocal microscopydemonstrated corneal crosslinks starting 5months after treatment; all indices deteriorat-ed in the control eyes.Conclusion. TE CXL treatment was found to beeffective in slowing keratoconus progression,with a statistically significant improvement inparameters. Thanks to transepithelial treat-ment and absence of side effects, TE CXL per-mits treatment of keratoconus in cases ofcorneal thickness

FILIPPELLO COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION

needs to be deepithelialized to a depth of atleast 8 mm in diameter for imbibtion of thestroma to be effective.5

The early postoperative period after CXLwith deepithelialization is extremely painful,at least as painful as photorefractive kerato-tectomy (PRK). In the first months followingtreatment, corneal reepithelization leads toan apparent deterioration of topographicindices and of visual acuity in some cases.6 Inaddition, a light corneal haze during the firstpostoperative weeks reduces topographicand initial aberrometric values.6 Studies havedemonstrated that starting from around 6months posttreatment visual acuity and topo-graphic and aberrometric indices graduallybegin to improve.7, 8

With the use of transepithelial CXL (TECXL), however, the occurrence of a painfulpostoperative course and impaired visionduring the first 2 months could be prevented.In addition, patients ineligible for conven-tional CXL with deepithelialization (i.e., thosewith low compliance and keratoconus witha corneal thickness 2% and an increasein central corneal astigmatism of 1 D in thelast 6 months.

Assessment was performed before treat-ment (baseline), then at 7 days, 15 days, 1month, 3, 6 and 9 months after treatment.

Visual acuity

Visual acuity was measured under condi-tions of natural miosis by means of earlytreatment diabetic retinopathy study charts(logMar/ETDRS). The letter charts and theprocedure are described in detail in Ferris etal.10, 11 Uncorrected visual acuity (UCVA) andbest-corrected visual acuity (BCVA) weremeasured at baseline and at control visits inboth eyes at a distance of 4 meters.

Diagnostic tests

The cornea in both eyes was evaluated byspilt lamp examination, ultrasound and opticpachymetry, topography and corneal aber-

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COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION FILIPPELLO

mm in diameter, 3 mm in height; flange base2 mm in width, 0.3 mm in thickness) wasdeveloped. When the flange is applied to theeyelid rim, it stabilizes the device over thecornea, thus obviating the need for a ble-pharostat. The device is elastic yet rigidenough to withstand eyelid pressure, whilepermitting eyelid movement. The externaledge of the corneal ring and the flange pro-tect the limbus corneae from inadvertent UVirradiation, thus protecting the stem cells ofthe limbus (Figure 1, 2). The source of UVAlight was a UV light single-LED emitter forkeratoconus treatment (UV-A Vega, CSO,Florence).

Surgical technique

Three days before surgery, norfloxacin(Naflox, Farmigea, Pisa, Italy) was adminis-tered at a dose of 1 drop four times a day.Ricrolin TE (1 drop every 10 minutes) wasapplied 2 hours before treatment. Twentyminutes before the beginning of treatment,the cornea was anesthetized using an anes-thetic eyewash (oxybuprocaine hydrochlo-ride 0.2%) at a dose of 1 drop every 5 minutesfour times. To reduce the risk of UV exposureto the ocular structures behind the iris, ser-rated miosis was induced with pilocarpine1% (Allergan, Rome, Italy) 30 minutes beforetreatment.

The UVA light emitter was switched on 2hours before the start of treatment. All treat-ments were performed at a power of 2.9-3

Vol. 52, No. MINERVA OFTALMOLOGICA 3

rometry (Optikon topographer, KeratronScout software version 4.2, produttrice, citt).

Keratoconus progression in the CXL-treat-ed eye and the untreated fellow eye wasmonitored using axial, curvature, and refrac-tive topographic mapping, and evaluatedusing software-generated cone location andmagnitude indices (CMLI).12

Abberometric analysis of the corneal sur-face was done using a refractive map fromwhich the comatic aberrations, spherical aber-rations, root mean square (RMS), and cornealrefraction were calculated. All pre- and post-CXL topographic and abberometric tests wereperformed on a simulated pupil diameter of8 mm.

Pachymetry was done using an ultrasoundpachymeter (Mizar biometer, Optikon 2000,Rome, Italy) and with optical coherencetomography (OCT) of the cornea (SpectralSLO System, OPKO, Miami, FL, USA). Thecorneal module of the OCT-SKO system wasuseful for studying stromal variations and thecorneal profile.

Endothelial cell count was performed atbaseline and at 9 months follow-up using anendothelial microscope (CSO, Florence, Italy).

The study was conducted according to theethical principles set out in the 2000 Decla-ration of Helsinki. All patients gave their writ-ten informed consent to treatment.

Crosslinking

To facilitate CXL and to improve penetra-tion of the product, a silicone corneal ring (12

Figure 1.Silicon corneal ring.Figure 2.Corneal ring positioned on the cornea and heldin place by the ring flange (arrow) inserted under the eye-lid rim.

FILIPPELLO COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION

mW/cm2, as measured with a UV meteronboard the machine. The cornea was irra-diated at a point measuring 8 mm in diame-ter.

Treatment was performed in an eye clinic.The patient was seated in a reclining chairand the periocular skin was disinfected with10% iodioprovidone (Betadine ophthalmicsolution, Med Pharma, Milan, Italy). Surgicaldrapes were not used.

The corneal ring was positioned over thecornea, kept in place by eyelid pressure onthe flange and filled with 2 drops of RicrolinTE directly in contact with the cornealepithelium until the entire corneal apex wascovered. If eye blinking caused some of theproduct to spill out, it was re-administered toensure that the corneal epithelium was uni-formly covered with riboflavin.

To ensure good saturation of the cornealstroma through the intact cornea, the cornealring was left in direct contact with the corneafor 15 minutes.

Following these preparations, CXL was per-formed with irradiation for 30 minutes, accord-ing to the treatment protocol designed by Prof.Caporossi et al.13 During irradiation, the level ofRicrolin TE was kept uniform, adding a dropevery 3-5 minutes on average (Figures 1-3). Asimple sterile adhesive bandage was appliedalongside the eye to absorb any Ricrolin TEthat spilled out during treatment.

At the end of the procedure, the siliconedevice was removed and the eye was irri-gated with BSS to rinse away any residualRicrolin TE.

The eye was then treated with 1 drop ofnorfloxacin and eye drops (0.15% hyaluron-ic acid plus amino acids [BLUyal A, SooftItalia, Montegiorgio [AP], Italy). The patientfelt only a mild foreign body sensation thatwas easily managed with eye drops.

Assessment was performed using split lampexamination to assess epithelial integrity(Figure 4, 5), and the patient was dischargedwith a prescribed therapy of norfloxacin (1drop/3 times daily), 0.15% sodium hyalronateplus amino acids (1 drop, 3 times a day for 20days), and a liposome-based spray contain-ing vitamins A and C (Lacrisek spray, Bioos,

4 MINERVA OFTALMOLOGICA Mese 2010

Figure 3.Treatment with Ricrolin TE.

Figure 4.Corneal epithelium at completion of treatment.Note the slight epithelial fissures without signs of cornealabrasion.

Figure 5.The same patient on postoperative day 2. Notethe perfectly transparent epithelium and the completeabsence of corneal damage.

TABLE II.Changes in central keratometric values (3 mm).

Pre CXL 1 month 3 months 6 months 9 months

CXL Controls CXL Controls CXL Controls CXL Controls CXL Controls

SimkS 51,021.10 51,121.02 49,050.92 51,101.04 48,650,89 51,420,96 47,820,78 51,400,92 47,850,71 51,321.13

Sim kF 45,130.97 46,120.99 44,461.03 46,120.65 44,130.89 46,520.91 44,571,11 46,740.71 47,850.84 46,230.50

SimkS denotes steeper meridian keratometry; SimkF flatter meridian keratometry; Sim cyl corneal cylinder (K1 K2); P

FILIPPELLO COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION

Table III reports changes in keratoconusapical keratometry (KcAK) and CMLI datagenerated by the software for studying ker-atoconus progression.

Table IV reports changes in corneal aber-ration. The root mean square (RMS) togeth-er with the corneal and spherical aberrationsgradually improved starting from month 1 tomonth 6, after which they appear to havestabilized. In the untreated eyes, aberromet-ric values continued to deteriorate over theentire follow-up period.

Corneal OCT

Comparison of corneal OCT values beforeand after treatment showed a linear thicken-ing of the corneal stroma at approximately100 micron from the corneal epithelium(Figure 6).

This alteration in the corneal structure afterTE CXL treatment was visible at about 1month post-treatment. Thickening wasobserved just under Bowmans membrane(Figure 7).

Pachymetry

The minimal corneal thickness of the treat-ed eye at baseline was 412.921.5 mm and423.312.2 mm in the untreated eye. At the

end of follow-up, the minimal corneal thick-ness was 410.315.3 mm in the treated eyeand 40916.5 mm in the untreated eye. Thedifference was not statistically significant(P

COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION FILIPPELLO

Corneal stroma analysis by OCT showed alinear formation of stroma thickening approx-imately 80-100 microns from the epithelialsurface. This change in corneal stroma differsfrom outcomes after CXL with deepithelial-ization. Anatomically, the two types of CXLtreatment do not produce the same resultsbut may be considered complementary toone another.

With this innovative technique, crosslinksare induced in the upper third of the cornealstroma, 20-30 microns below Bowmansmembrane, whereas the crosslinking effect ofthe technique with deepithelialization occursat approximately 240 microns.

Our results require further study; even so,they open a new perspective in the treat-ment of keratoconus insofar as the aim of TECXL is not to replace the conventional tech-nique but rather to complement it. Thanks tothe possibility to treat without deepitheliza-tion, and without related postoperative seque-

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Postoperative complications

No treatment-related complications wereobserved during the entire follow-up period.

Conclusions

Within the limitations of this small patientsample, it can be stated that TE CXL withRicrolin TE proved effective in slowing ker-atoconus progression over the mid-term. Noside effects occurred during the interventionor the follow-up period.

Treatment without deepithelilization andwith the use of a silicon corneal ring wasextremely simple to perform, offering dis-tinct advantages for both patient and surgeonalike:

Corneal crosslinking with Ricrolin TEneed not be performed in an operating room.

Cases of keratoconus with a minimumcorneal thickness of 380 micron, and proba-bly even less, may be treated. Pre-operativevisual acuity is maintained. Patients underage 10 years may be treated.

No pain during the posttreatment peri-od. No deepithelialization-related complica-tions.

The silicon corneal ring obviates theneed for a blepharostat and improves patientcompliance owing to minimal eyelid blinking.

The corneal ring holds the Ricrolin TEand increases the contact time with thecorneal epithelium. The corneal ring protectsthe limbus corneae and stem cells againstexposure to UVA radiation.

Optimal patient compliance. Treatmentwith an intact epithelium prevents postop-erative pain due to reepithelialization.

Our patients were able to return to work orschool the same day several hours after theprocedure. Analysis of results at one monthfollow-up showed a net improvement intopographic indices, which was statisticallysignificant with respect to the control eye.Improvement continued, though to a lesserextent, from months 3 to 6. A reduction inkeratoconus apical keratometry (KcAK) anda general improvement in the other topo-graphic indices, particularly in CLMI wereobserved (Figures 8, 9).

Figure 8.Corneal topography before TE CXL treatment.

Figure 9.The same patient at 9 month-follow-up asses-sment. Note the net reduction in keratoconus apical kera-tometry (KaCK) from 59.19 to 57.33 D and the reductionin the MA index from 12.01 to 10.21 D.

FILIPPELLO COLLAGEN CROSSLINKING WITHOUT CORNEAL DE-EPITHELIALIZATION

lae, the effect of conventional CXL can bestrengthened in cases in which progression ofkeratoconus cannot be completely halted.

Furthermore, treatment eligibility may beextended with TE CXL as it allows greaterpatient compliance, even in younger chil-dren (our series included 2 patients aged 12years), so as to intervene at an earlier stageof the disease, slowing its progression in ado-lescence (14-15 years of age), when CXL withdeepithelialization may be contemplated inthe attempt to definitively halt keratoconusprogression.

Of special note is that one of our patientswas a young Down patient (trisomy 21 syn-drome), demonstrating that TE CXL may alsobe performed in complicated patients whowould be otherwise ineligible for a moreinvasive technique like that of CXL with deep-ithelialization.

Riassunto

Cross-Linking del collagene corneale senza disepite-lizzazione

Obiettivo. Obiettivo del presente lavor stato quel-lo di studiare lefficacia del Cross Linking TransEpiteliale in pazienti con cheratocono evolutivo.

Metodi. Sono stati arruolati pazienti con storiadocumentata di cheratocono evolutivo; stato trattatolocchio peggiore, mentre locchio adelfo stato uti-lizzato come controllo. Lintervento di Cross-linkingtransepiteliale (CXL TE) stato effettuato attraverso 6steps di irraggiamento mediante sorgente laser CBMX-linker VEGA e instillazione di Ricrolin TE(Riboflavina 0.1%, destrano T500 ed enhancer peraumentare il passaggio del composto attraverso le-pitelio corneale) ogni 5 minuti, previa due ore diimbibizione con Ricrolin TE dellocchio da trattare.

Risultati. Nel gruppo trattato con CXL TE, si evi-denziato un miglioramento progressivo dei valoritopografici ed aberrometrici senza haze ne altri effet-ti collaterali. I ponti di cross-linking visibili con lamicroscopia confocale a partire da cinque mesi dopoil trattamento. Viceversa, nel gruppo di controllo si evidenziato un peggioramento di tutti gli indici.

Conclusioni. Il CXL Trans Epiteliale si dimostra-to pienamente efficace nel rallentare levoluzione delcheratocono, migliorando in modo statisticamentesignificativo levoluzione della malattia. Grazie al trat-tamento trans epiteliale e allassenza di effetti colla-terali, il CXL TE permette il trattamento di cheratoconicon spessore corneale inferiore a 400 micron, pazien-ti sotto i 12 anni e complicati (es. Trisomia 21), sog-

getti con pi di 35 anni o con un K medio superiorea 55. A differenza del CXL tradizionale, grazie allaconservazione dellepitelio, il CXL TE garantisce unamiglior compliance del paziente con assenza di dolo-re post-trattamento e senza peggioramento del visusne haze post operatorio. In conclusione il CXL TE un nuovo tipo di trattamento che agisce sul terzoanteriore della cornea e che grazie allassenza di effet-ti collaterali e alla facilit di esecuzione si affianca altrattamento di CXL tradizionale che, viceversa, agiscenel terzo posteriore della cornea.

Parole chiave: Collagene - Reagenti per crosslinking- Cornea.

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