Diffuse lamellar keratitis in the femtosecond-assisted LASIK flap tunnel.

Here we report a case of a 29-year-old myopic female who underwent femtosecond laser-assisted in situ keratomileusis (LASIK) and, on the first postoperative day slit-lamp examination revealed a dense, white, granular reaction with the presence of some blood droplets (stage I diffuse lamellar keratitis [DLK]) in her left eye, specifically localized into the femtosecond LASIK flap tunnel (not extended to the flap interface). The patient received intensive treatment with topical corticosteroids and 5 days later the granular reaction had completely resolved. A new site of DLK, ie, the flap tunnel, in femtosecond-assisted LASIK is presented. DLK into the flap tunnel could be managed with corticosteroids if detected early, without affecting the flap interface.

Introduction

An opaque bubble layer is a rare complication of femtosecond laser-assisted in situ keratomileusis (LASIK), which occurs during intracorneal femtosecond laser ablation when gas bubbles are produced and trapped in the corneal interface.1 Although intraoperative complications concerning the opaque bubble layer are not yet elucidated, femtosecond laser manufacturers have designed specific modifications for LASIK flap creation in order to minimize the opaque bubble layer effect.1 FS200 Wavelight® (Alcon Laboratories Inc., Fort Worth, TX, USA) provides a venting dissection tunnel-like “chimney” modification through which the gas bubbles escape from the interface to the hinge side of the limbus.1

Diffuse lamellar keratitis (DLK) is an early post-LASIK sterile complication located mainly in the flap periphery and sometimes extending to the central area of the flap in more aggressive stages, and could lead to decreased vision.2 Risk factors have already been described, ie, epithelial defects, endotoxins released from sterilizer reservoir biofilms, traumatic flap dislocation, atopy, and other external agents (eg, instrument cleaning solutions, povidone-iodine).3 In this case report, we present a patient with DLK located in the femtosecond LASIK flap “chimney” tunnel.

Case report

A 29-year-old woman was referred to our institution for a refractive consultation. Uncorrected distance visual acuity was counting fingers in both eyes. Corrected distance visual acuity was 20/20 in both eyes, with a manifest refraction of −7.00 to 1.25×10 in the right eye and −7.00 to 0.50×180 in the left eye. Keratometric readings (Galilei™ dual scheimpflug analyzer; Ziemer Ophthalmology, Biel, Switzerland) were 41.58/40.77 diopters and 42.30/40.48 diopters in the right and left eyes, respectively. Central corneal thickness was 563 μm and 568 μm for the right and left eyes, respectively. Ophthalmic examination showed clear corneas with mild vascularization in the corneal periphery, especially in the superior part of the cornea; no other anterior or posterior segment abnormality was detected. LASIK using the Wavelight® FS200 femtosecond laser and the Allegretto® Wave Eye-Q 400 Hz excimer laser (Wavelight GmbH, Erlangen, Germany) was performed; flap tunnels were created with the same settings in both eyes and orientated superiorly extending from the flap hinge to the limbus. The surgical procedure was conducted uneventfully in both eyes as described in our previous report.4

At the end of the procedure, a drop of ofloxacin 0.3% (Exocin®; Allergan, Irvine, CA, USA) was instilled. The patient was examined 60 minutes postoperatively on a slit-lamp (Haag Streit 900; Haag Streit AG, Bern, Switzerland) for flap alignment and adherence. Postoperative treatment consisted of nepafenac 0.1% drops (Nevanac®; Alcon Laboratories) four times daily, dexamethasone 1% (Maxidex®; Alcon Laboratories) four times daily, ofloxacin 0.3% drops four times daily, and sodium hyaluronate drops hourly. The patient was advised to wear a plastic shield during sleep.

On the first postoperative day, uncorrected distance visual acuity was 20/25 in both eyes. However, slit-lamp examination revealed a dense, white, granular reaction combined with some blood droplets (stage I DLK) in the flap “chimney” tunnel of the left eye (Figure 1A); the flap was well positioned and the interface was clear. The remainder of the slit-lamp examination was within normal limits for both eyes. An intensive course (every second hour) of Maxidex together with ofloxacin 0.3% was prescribed for both eyes.

Figure 1

Slit-lamp photograph on the first postoperative day (A) showing white granular reaction with the presence of blood droplets, resembling diffuse lamellar keratitis into the flap tunnel. On the fifth postoperative day, diffuse lamellar keratitis was completely resolved after corticosteroid treatment (B).

On the second postoperative day, uncorrected distance visual acuity was 20/20 in the right and 20/25 in the left eye; there was an improvement in DLK of the left eye. During the following days, DLK responded rapidly to the treatment and by the fifth day it was completely resolved (Figure 1B); uncorrected distance visual acuity was 20/20 for both eyes. Corticosteroids were tapered over the next 5 weeks without evidence of DLK recurrence.

Discussion

The first published report of post-LASIK DLK with microkeratome was from Smith and Maloney in 1998.5 MacRae et al reported that post-LASIK DLK is associated with leakage of red blood cells and other intravascular contents from blood vessels into the interface in the early postoperative period.6

Corneal vascularization occurs when blood vessels grow into the cornea between the epithelium and Bowman’s layer. Chronic contact lens wear is the most frequent etiology; corneal infections and allergy, limbal stem cell dysfunction, blepharitis, and uveitis also induce corneal vascularization.7 Wallin et al proposed that, in refractive candidates with superior corneal vascularization, it is preferred that the hinge of the mechanical microkeratome flap should be placed superiorly in order to avoid the DLK complication through bleeding in the cut.7

Femtosecond laser in the flap creation step of LASIK raised the incidence of DLK due to higher energy delivery to the corneal stroma compared with flap creation with microkeratome.8 Moreover, DLK after femtosecond-assisted LASIK was unrelated to hemorrhage or blood vessel leakage, and it has been hypothesized that increased energy and gas bubble formation in the interface may correlate with this granular reaction.8–10

In this report, we present a case of DLK that occurred in the LASIK flap like-chimney tunnel, which is created with the femtosecond laser and facilitates the exit of gas bubbles from the interface to the hinge side of the limbus. The patient had binocular peripheral corneal vascularization due to possible chronic contact lens use and intolerance. Thus, we believe that, during flap tunnel creation, blood vessels from corneal vascularization were damaged in the left eye, leaving blood cells and intravascular contents inside this venting chimney causing postoperative DLK. However, the right eye was unaffected; a possible explanation is that during the cutting process of the femtosecond laser in the right eye, blood vessels were absent or remained intact at the flap tunnel site.

Moreover, epithelial ingrowth, infectious keratitis, and interface foreign bodies were excluded from the differential diagnosis as the reaction occurred immediately after surgery (first postoperative day) into a confined sterile corneal cavity (the LASIK flap tunnel). DLK inflammation was restricted to the tunnel and no reaction was noted in the flap interface; visual acuity remained stable at 20/20. In addition, DLK was easily managed with corticosteroid treatment and 5 days later was completely resolved.

To the best of our knowledge, this is the first report of DLK into the femtosecond LASIK flap tunnel. Damage of the blood vessels during underlying corneal vascularization may trigger this inflammatory reaction. Refractive candidates with chronic contact lens use and evident corneal vascularization should be carefully examined immediately after a LASIK procedure and the first postoperative day for possible DLK in the periphery. Creation of the femtosecond-assisted LASIK flap tunnel could be avoided in these patients; the flap tunnel could be placed with a different orientation if corneal vascularization is not extended into the entire corneal periphery (eg, superior corneal vascularization). In patients with more severe corneal vascularization (pannus), additional considerations should be given to treating with other refractive modalities, such as photorefractive keratectomy instead of LASIK.