Abstracts

INTRODUCTION

The modern era of refractive surgery began in 1983 with the introduction of excimer laser to modify the structure of the cornea⁽¹1 Trokel SL, Srinivasan R, Braren B. Excimer laser surgery of the cornea. Am J Ophthalmol. 1983;96(6):710-5.⁾. Photorefractive keratectomy (PRK), one of the most popular and effective techniques to correct refractive errors, consists of laser surface ablation of the anterior corneal stroma after carefully removing the epithelium⁽²2 Carones F, Fiore T, Brancato R. Mechanical vs. alcohol epithelial removal during photorefractive keratectomy. J Refract Surg. 1999;15(5):556-62.⁾. One disadvantage of this technique is the postoperative ocular discomfort associated with de-epithelialisation and consequent exposure of corneal nerve fibres⁽³3 Blake CR, Cervantes-Castañeda RA, Macias-Rodríguez Y, Anzoulatous G, Anderson R, Chayet AS. Comparison of postoperative pain in patients following photorefractive keratectomy versus advanced surface ablation. J Cataract Refract Surg. 2005;31(7):1314-9.⁾, as well as the release of inflammatory factors. Initial pain usually lasts 12 to 24 hours, followed by irritation and epiphora until the epithelium is completely healed⁽⁴4 Fagerholm P. Wound healing after photorefractive keratectomy. J Cataract Refract Surg. 2000;26(3):432-47. Review.⁾.

Candidates to refractive surgery are becoming more demanding not only with respect to the visual outcome, but also regarding comfort during the procedure and the length of postoperative recovery. Even though many ophthalmologists believe that PRK is a safer method, laser in situ keratomileusis (LASIK) is still the most commonly performed refractive surgery worldwide⁽⁵5 Ghadhfan F, Al-Rajhi A, Wagoner MD. Laser in situ keratomileusis versus surface ablation: visual outcomes and complications. J Cataract Refract Surg. 2007;33(12):2041-8.⁾. The ocular discomfort reported by patients after PRK, despite the availability of various analgesic options, and the longer time for visual recovery remain a challenge for surgeons, who often opt for LASIK in order to avoid these drawbacks⁽⁶6 Taneri S, Weisberg M, Azar DT. Surface ablation techniques. J Cataract Refract Surg. 2011;37(2):392-408. Review.⁾.

Several modifications to the conventional manual technique have been introduced in an attempt to decrease pain and accelerate epithelial postoperative recovery. Most of them consist of different methods to remove the epithelium⁽⁷7 Lee HK, Lee KS, Kim JK, Kim HC, Seo KR, Kim EK. Epithelial healing and clinical outcomes in excimer laser photorefractive surgery following three epithelial removal techniques: mechanical, alcohol, and excimer laser. Am J Ophthalmol. 2005;139(1):56-63.⁾: deepithelialisation with a rotating brush⁽⁸8 Amoils SP. Using a Nidek excimer laser with a rotary epithelial brush and corneal chilling: clinical results. J Cataract Refract Surg. 1999;25(10):1321-6.^,99 Amoils SP. Photorefractive keratectomy using a scanning-slit laser, rotary epithelial brush, and chilled balanced salt solution. J Cataract Refract Surg. 2000;26(11):1596-604.⁾, laser transepithelial ablation⁽⁶6 Taneri S, Weisberg M, Azar DT. Surface ablation techniques. J Cataract Refract Surg. 2011;37(2):392-408. Review.^,1010 Gimbel HV, DeBroff BM, Beldavs RA, van Westenbrugge JA, Ferensowicz M. Comparison of laser and manual removal of corneal epithelium for photorefractive keratectomy. J Refract Surg. 1995;11(1):36-41.⁾ and alcohol de-epithelialisation⁽¹¹11 Zhao LQ, Wei RL, Cheng JW, Li Y, Cai JP, Ma XY. Meta-analysis: clinical outcomes of laser-assisted subepithelial keratectomy and photorefractive keratectomy in myopia. Ophthalmology. 2010;117(10):1912-22.

12 Ghoreishi M, Attarzadeh H, Tavakoli M, Moini HA, Zandi A, Masjedi A, Rismanchian A. Alcohol-assisted versus Mechanical Epithelium Removal in Photorefractive Keratectomy. J Ophthalmic Vis Res. 2010;5(4):223-7.^-1313 Corpa JH, Martinelli EJ, Tarcha FA, Vitiello Neto V, Ribeiro LG, Rede JR. [Comparison between mechanical and chemical epithelial removal on photorrefractive keratectomy - symptoms and postoperative epithelial healing]. Rev Bras Oftalmol. 2010;69(1):23-6. Portuguese.⁾.

This study aimed to evaluate two de-epithelialisation techniques (the manual technique with a blunt spatula and the rotating brush) at different moments of the PRK procedure. This is one of the few studies in the literature that compared the two techniques regarding not only the time for re-epithelialisation and postoperative comfort, but also intraoperative discomfort.

METHODS

This prospective randomised study included patients from the Refractive Surgery Unit of the Ophthalmology Department, ABC Medical School (FMABC), who underwent surgery at the ABC Ocular Laser Ophthalmic Centre in Santo André/SP, Brazil. The inclusion criteria were: patients of both genders, aged 21-45 years, with indications for PRK, and with identical or very similar refractive errors in both eyes. The exclusion criteria were: a preoperative difference in refractive error >1.5 spherical equivalent dioptres between both eyes, patients who did not attend follow-up visits, and patients with intra- or postoperative complications. Immediately prior to surgery, the first eye to be operated and the technique to be used in each eye were chosen randomly. Since technique comparison relied on subjective symptom assessment by patients, they were blinded to the type of de-epithelialisation performed in each eye.

The study was approved by the Research Ethics Committee of FMABC and all procedures followed the provisions of the Declaration of Helsinki. Participation was voluntary and all patients provided their informed consent after receiving detailed information about the study.

Preoperative evaluation included the following tests: visual acuity, static and dynamic refraction, slit lamp biomicroscopy, applanation tonometry, ultrasound pachymetry, corneal tomography, and retinal mapping. All assessments were done by the authors of the study.

Surgical procedure

The procedures were performed under topical anaesthesia with two drops of proxymetacaine hydrochloride 0.5% (Anestalcon^TM, Alcon). A 9 mm optical zone marker was used to demarcate the area to be de-epithelialised. Each patient had both eyes sequentially subjected to PRK surgery using the 400-Hz WaveLight Allegretto Eye-Q excimer laser. In the first eye, deepithelialisation was performed manually with a straight, roundtip crescent knife (Alcon, Brazil) (Figure 1); in the other, a 9 mm rotating brush (Amoils Rotary Epithelial Scrubber, Innovative Excimer Solutions, Inc., Toronto, Canada) (Figure 2) was employed, following the manufacturer's instructions. All procedures were performed by the same surgeon, who was very experienced in this type of procedure.

Mitomycin C 0.02% was applied for 30 seconds on all eyes after ablation using a high-profile 6 mm optical zone marker.

A balanced salt solution frozen in polyvinyl alcohol (PVA) sponge surgical spears was used to improve analgesia, being applied for 10 seconds before and after photoablation.

At the end of the procedure, all eyes received one drop of moxifloxacin 0.5% (Vigamox^TM, Alcon) and prednisolone acetate 1% (Falcon Genéricos, Alcon), and hydrophilic bandage contact lenses were applied.

Postoperative treatment

Patients were instructed to apply the following eye drops in both eyes postoperatively: moxifloxacin 0.5%, one drop three times daily for seven days; nepafenac 0.1% (Nevanac^TM, Alcon), one drop three times daily for four days; fluorometholone acetate 0.001 g (Florate^TM, Alcon), one drop four times daily for three weeks; and carmellose sodium 0.5% (Fresh Tears^TM, Allergan), one drop six times daily for two months.

Patients were examined on postoperative days 1 and 5.

Evaluation of surgical times for each technique

All surgical steps for each de-epithelialisation technique were timed. Time was only measured in seconds during de-epithelialisation.

Evaluation of intraoperative discomfort

During surgery, immediately after de-epithelialising the second eye, patients were asked to score their discomfort during surgery from 0 to 10 in each eye, with 0 for no discomfort and 10 for maximum discomfort.

Questionnaire for postoperative symptoms

On the first day after PRK patients were questioned about their most significant symptom in each eye. Symptom severity was measured using a visual analogue scale (Figure 3) consisting of a 10-cm line with a mobile marker that quantifies symptoms from 0 to 10⁽¹⁴14 Souza FF, Silva JA. A métrica da dor (dormetria): problemas teóricos e metodológicos. Rev Dor. 2005;6(1):469-513.⁾, with 0 for no symptoms and 10 for maximum severity. Patients were asked to slide the marker until the point that represented the severity of their symptoms in each eye.

At the end of postoperative days 2 and 3, always at the same time, patients recorded the severity of their symptoms in each eye on the leaflet they received on their first postoperative visit. On the fifth day after PRK patients returned for evaluation of corneal healing and to present the information they recorded at home.

Statistical analysis

The IBM SPSS 19 software was used for data analysis. Quantitative statistical analysis was performed to verify whether the data were parametric (homogeneity of variance, normality, and absence of outliers), followed by appropriate analysis of variance (ANOVA) and a post-test (post hoc). The chi-squared test was used to compare symptom frequency.

RESULTS

Thirty-three patients met the inclusion criteria and four were excluded from the study, leaving a total of 58 eyes in 29 patients for data analysis. Three of the exclusions were because of bandage contact lenses falling out before postoperative day 5, and one was because the patient did not attend the scheduled visit within the stipulated period.

Intraoperative analysis

The fastest technique was the rotating brush, with a minimum surgical time of 9 seconds and a maximum of 38 seconds (16.4±6.3). The manual technique required 17-51 seconds (35.7±7.6). The difference between techniques was statistically significant (t[46]=-9.5; p=0.00).

There was no statistically significant difference between groups for the discomfort reported by patients during surgery (t[56]=0.9; p=0.37).

Postoperative analysis

The most significant symptom reported on the first day after PRK was always identical in both eyes, except for two patients who reported no symptoms in the eye operated with the manual technique (Table 1). No patients reported pain. Foreign body sensation and burning were the most common symptoms in both groups and were significantly more frequent than other symptoms (p<0.05). There was no difference between methods regarding the types of postoperative symptoms (p>0.05).

Figure 4 shows the symptom scores obtained using the subjective visual analogue scale. ANOVA showed greater symptom severity with the brush method compared to the manual technique (f[8.104]=1.5; p<0.05]. The post hoc test showed that this difference was only significant (p<0.05) on the second postoperative day (Table 2).

All eyes in both groups presented complete corneal epithelialisation on postoperative day 5, at which time the bandage contact lenses were removed.

DISCUSSION

This study compared two de-epithelialisation techniques used in PRK: manual de-epithelialisation with a spatula and the rotating brush technique. This is one of the few studies that compared not only the time required for re-epithelialisation and postoperative comfort, but also intraoperative discomfort.

In 1994, Pallikaris et al.⁽¹⁵15 Pallikaris IG, Karoutis AD, Lydataki SE, Siganos DS. Rotating brush for fast removal of corneal epithelium. J Refract Corneal Surg. 1994;10(4):439-42.⁾ showed that the rotating brush technique was faster than the manual approach. Subsequent studies proved that this is a safe and effective method⁽⁸8 Amoils SP. Using a Nidek excimer laser with a rotary epithelial brush and corneal chilling: clinical results. J Cataract Refract Surg. 1999;25(10):1321-6.^,99 Amoils SP. Photorefractive keratectomy using a scanning-slit laser, rotary epithelial brush, and chilled balanced salt solution. J Cataract Refract Surg. 2000;26(11):1596-604.^,1616 Griffith M, Jackson WB, Lafontaine MD, Mintsioulis G, Agapitos P, Hodge W. Evaluation of current techniques of corneal epithelial removal in hyperopic photorefractive keratectomy. J Cataract Refract Surg. 1998;24(8):1070-8.⁾. In the present study, the rotating brush technique was faster, and the level of intraoperative discomfort was similar for both techniques.

In a study comparing manual de-epithelialisation with and without diluted alcohol, Corpa et al.⁽¹³13 Corpa JH, Martinelli EJ, Tarcha FA, Vitiello Neto V, Ribeiro LG, Rede JR. [Comparison between mechanical and chemical epithelial removal on photorrefractive keratectomy - symptoms and postoperative epithelial healing]. Rev Bras Oftalmol. 2010;69(1):23-6. Portuguese.⁾ reported that the most frequent postoperative symptoms in both groups were foreign body sensation and burning. The present study found very similar results.

In PRK, photoablation reaches the sub-basal nerve plexus and the anterior corneal stroma, leaving abruptly-cut nerve fibres at the wound base and edges⁽¹⁷17 Erie JC. Corneal wound healing after photorefractive keratectomy: a 3-year confocal microscopy study. Trans Am Ophthalmol Soc. 2003;101:293-333.⁾. Cytokines and nerve growth factor (NGF) released after injury can also produce nerve sensitisation, lowering the excitation threshold⁽⁴4 Fagerholm P. Wound healing after photorefractive keratectomy. J Cataract Refract Surg. 2000;26(3):432-47. Review.^,1818 Kanaan SA, Saadé NE, Karam M, Khansa H, Jabbur SJ, Jurjus AR. Hyperalgesia and upregulation of cytokines and nerve growth factor by cutaneous leishmaniasis in mice. Pain. 2000;85(3):477-82.⁾. Several modifications to the conventional manual technique have been introduced in an attempt to decrease pain and accelerate epithelial recovery, mostly by changing the de-epithelialisation method⁽⁷7 Lee HK, Lee KS, Kim JK, Kim HC, Seo KR, Kim EK. Epithelial healing and clinical outcomes in excimer laser photorefractive surgery following three epithelial removal techniques: mechanical, alcohol, and excimer laser. Am J Ophthalmol. 2005;139(1):56-63.⁾. Chang et al.⁽¹⁹19 Chang SW, Chou SF, Chuang JL. Mechanical corneal epithelium scraping and ethanol treatment up-regulate cytokine gene expression differently in rabbit cornea. J Refract Surg. 2008;24(2):150-9.⁾ found that mechanical deepithelialisation increased the response to inflammatory cytokines and the expression of the TGF-beta 1 gene to a greater degree than the alcohol technique. However, recent studies have demonstrated that alcohol produces more postoperative symptoms than the manual technique, probably due to alcohol toxicity⁽³3 Blake CR, Cervantes-Castañeda RA, Macias-Rodríguez Y, Anzoulatous G, Anderson R, Chayet AS. Comparison of postoperative pain in patients following photorefractive keratectomy versus advanced surface ablation. J Cataract Refract Surg. 2005;31(7):1314-9.^,1313 Corpa JH, Martinelli EJ, Tarcha FA, Vitiello Neto V, Ribeiro LG, Rede JR. [Comparison between mechanical and chemical epithelial removal on photorrefractive keratectomy - symptoms and postoperative epithelial healing]. Rev Bras Oftalmol. 2010;69(1):23-6. Portuguese.⁾. A 2012 study showed that the rotating brush produces significantly more postoperative pain in PRK than epithelial-laser in situ keratomileusis (epi-LASIK) with flap removal⁽²⁰20 Magone MT, Engle AT, Easter TH, Stanley PF, Howells J, Pasternak JF. Flap-off epi-LASIK versus automated epithelial brush in PRK: a prospective comparison study of pain and reepithelialization times. J Refract Surg. 2012;28(10):682-9.⁾. It has been suggested that the rotating brush crushes epithelial cells, thus releasing more proinflammatory cytokines in the surgical site⁽²¹21 McDonald M. The ABCs of PRK - Fixing residual ametropia. Cataract Refractive Surgery Today. [Periódico na internet]. 2010 [cited 2013 Jan 15];June 2010. Available from: http://bmctoday.net/crstoday/2010/06/article.asp?f=the-abcs-of-prk
http://bmctoday.net/crstoday/2010/06/art... ⁾. In the present study, symptoms were more severe in eyes de-epithelialised with a rotating brush.

Weiss et al.⁽²²22 Weiss RA, Liaw LH, Berns M, Amoils SP. Scanning electron microscopy comparison of corneal epithelial removal techniques before photorefractive keratectomy. J Cataract Refract Surg. 1999;25(8):1093-6.⁾ analysed electron microscopy images of rabbit corneas subjected to different de-epithelialisation methods and concluded that the alcohol, rotating brush, and laser methods were superior to the blunt spatula method, as they produced a smoother surface in the anterior corneal stroma. Manual deepithelialisation with a spatula creates a more irregular surface, which hinders epithelial healing. In a comparative study of different de-epithelialisation techniques in PRK, Griffith et al.⁽¹⁶16 Griffith M, Jackson WB, Lafontaine MD, Mintsioulis G, Agapitos P, Hodge W. Evaluation of current techniques of corneal epithelial removal in hyperopic photorefractive keratectomy. J Cataract Refract Surg. 1998;24(8):1070-8.⁾ concluded that the rotating brush resulted in faster epithelial regeneration than the manual technique. In our study, eye examination was done only on postoperative day 5, by which time all eyes showed complete epithelialisation.

A limitation of this study was that we did not conduct a daily review of the healing process of the epithelium, which would have been more appropriate to assess the potential influence of a slower re-epithelialisation process on postoperative symptoms.

In further studies it would be interesting to compare the inflammatory response after different types of epithelial removal in PRK in order to determine the level and causes of postoperative discomfort for each method, which would assist surgeons in choosing the most comfortable technique.

CONCLUSION

In this study, de-epithelialisation with a rotating brush was superior to the manual technique only in terms of surgical time. The rotating brush method was associated with more severe postoperative symptoms, while intraoperative discomfort was similar for both techniques.

REFERÊNCIAS

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