Abstract
Purpose
To report an uncommon case of hyperopic shift and corneal haze, flattening and thinning following a single session of selective laser trabeculoplasty (SLT), and provide longitudinal clinical data and serial analyses of corneal profile through Scheimpflug imaging. Furthermore, a careful literature review was undertaken to determine possible risk factors for this complication.
Observations
A 47-year-old woman presented with blurred vision and mild corneal edema and haze three days following routine SLT. Ten days later, corneal edema resolved, but she was still symptomatic. Refraction exam revealed a significant hyperopic shift and high astigmatism (+4.00–6.00 x 80° versus −11.50 -0.75 x 170° at baseline). Scheimpflug imaging revealed a partial collapse of the corneal architecture, with an expressive central cornea flattening (>10 diopters) and thinning (>190μm). Over six months, refractometric and corneal parameters gradually (but not completely) returned to their pre-operative values.
Conclusions and Importance
This tetrad of clinical findings – hyperopic shift, corneal haze, flattening and thinning – following SLT is referred herein by the authors as selective trabeculoplasty-induced keratopathy (STIK), which is a rare but serious complication. A critical analysis based on this case findings and on the few others reported so far suggests high-myopic patients to be more predisposed to this complication, as all reported cases had −5.0 diopters or more. Future studies are warranted to determine whether this complication can be prevented.
1
Introduction
Glaucoma is a chronic and progressive optic neuropathy, characterized by progressive retinal ganglion cells loss, changes in the appearance of the optic disc and visual field damage. Elevated intraocular pressure (IOP) remains as the most important known risk factor for disease development and progression and until now the only modifiable one. , Many large randomized clinical trials (RCTs) underscored the importance of an adequate IOP control to slow the rates of disease progression and avoid functional impairment.
Treatment options for IOP reduction in glaucoma are usually categorized into three main groups: topical medications, laser surgery, and incisional surgery. Even though topical hypotensive medications have been often used as the first-line treatment option, the indication of laser trabeculoplasty as an alternative for primary treatment of open-angle glaucoma (OAG) has increased significantly in the past decades, especially after the advent of selective laser trabeculoplasty (SLT) in 1995. SLT lowers IOP by inducing biological changes in the trabecular meshwork resulting in increased aqueous outflow. It is performed with a Q-switched Nd: yttrium-aluminum-garnet (YAG) laser (λ = 532 nm), that delivers short burst of low-fluence laser energy to selected melanin-containing cells in the trabecular meshwork, causing intracellular targeting of the pigmented trabecular meshwork cells without damage to adjacent non-pigmented cells or structures. This trend towards laser treatment for initial management in cases of OAG can be explained in part by the numerous studies (including RCTs) reporting primary SLT to be at least as effective as topical hypotensive medication. In addition, when adopted as initial therapeutic alternative, SLT could minimize ocular side effects and compliance issues related to clinical treatment with eye drops.
When it comes to its safety profile, side effects related to SLT treatment are uncommon, and when documented, are usually transitory. , Most commonly post-operative side effects include IOP spikes (that can be minimized by adequate laser power settings and pre-operative hypotensive medication) and prolonged ocular inflammation. , Serious corneal complications after SLT are rare. In fact, as a non-invasive and safe procedure, only a few sight-threatening complications have been reported. In the present case report, we provide longitudinal clinical data and serial analyses of anterior axial curvature, posterior axial curvature, posterior elevation Best Fit Toric Aspheric (BFTA) and pachymetry maps (through Scheimpflug imaging) of a case of hyperopic shift, haze, flattening and thinning of the cornea following a single session of SLT treatment. This tetrad of signs and symptoms related to significant corneal changes after SLT, which have been documented in part in few cases in the literature, is referred herein by the authors as selective trabeculoplasty-induced keratopathy (STIK). In this article, we present the results of 6 months follow-up from the laser procedure until partial corneal recovery, and discuss the possible underlying mechanisms related to this rare SLT complication.
2
Case report
A 47-year-old white woman was referred to our service with a previous (recent) diagnosis of open-angle glaucoma. She was under topical therapy with a prostaglandin analogue (bimatoprost 0.01%) in both eyes for almost 3 months. At presentation, she complained of redness and ocular discomfort. These symptoms were compatible with her clinical examination (slit-lamp biomicroscopy), which revealed significant conjunctival hyperemia and diffuse punctate keratitis. Corrected distance visual acuity (CDVA) was 20/25 in both eyes (OU), and refraction was −11.50 -0.75 x 170° (OD) and −11.00 -2.00 x 180° (OS). Treated IOP (Goldmann applanation tonometry) was 12 mmHg OD and 11 mmHg OS at 10am, and central corneal thickness (CCT) was approximately 490μm OU. Fundoscopic exam revealed a cup-to-disc ratio of approximately 0.8 OU. Regarding functional loss, patient was classified as stage 2 according to the Glaucoma Staging System (visual field mean deviation index was −7.1dB OD and −6.7dB OS). After a six-week wash-out period, ocular side effects improved significantly, and untreated IOP was 16 mmHg OD and 15 mmHg OS at 9am. Considering patient’s age, disease stage and untreated IOP values, SLT treatment was indicated for OU (one eye at a time). The patient underwent routine SLT application (Lightlas SLT Deux; Lightmed Corporation, San Clemente, CA) in the right eye, in which 120 shots (0.8 mJ per pulse) were applied to 360° of the trabecular meshwork.
Three days after the procedure, the patient complained of ocular discomfort and blurred vision in the treated eye. CDVA was 20/80 and IOP was 10 mmHg at 2pm. Biomicroscopy exam showed mild central corneal edema and haze, associated with diffuse keratitis (fluorescein positive) and epithelial irregularity. There was a mild anterior chamber reaction, without any signs of inflammatory process in the posterior pole. Therapeutic contact lens, artificial tears and topical loteprednol 0.5% 4 times daily (q.i.d) were prescribed. Corneal edema and keratitis resolved along the next 10 days, remaining solely a discrete corneal haze in the paracentral area. However, the patient still complained of blurred vision. Additionally, she referred that visual acuity in the lasered eye was better without her glasses than with her usual myopic correction. In fact, refraction exam revealed an extensive hyperopic shift along with the presence of high astigmatism (+4.00–6.00 x 80°). Corneal profile analysis through Scheimpflug imaging technique (Galilei; Ziemer Ophthalmic Systems, Switzerland) detected a significant flattening and thinning of the central cornea (column A of Fig. 1 ). Topical treatment with loteprednol was maintained q.i.d. Over the following weeks, changes in refraction, corneal curvature and thickness were documented in every visit. Refractometric and corneal parameters gradually (but not completely) returned to their pre-operative values ( Table 1 and Fig. 1 ). These changes were non-linear, being more pronounced in the first two months, compared to the last 4 months of follow-up. In fact, there were almost no perceptible changes between months 4–6. At the last follow-up visit (6 months post-operatively), CDVA was 20/30 (refraction of −6.00 – 4.50 x 60), the cornea kept a discreet haze, untreated IOP was 12 mmHg and CCT was 443μm in the SLT-treated eye. Even though CCT measurements through ultrasound pachymetry would likely provide more precise measurements in this case, we opted for a non-contact method due to patient’s initial discomfort and keratitis. Therefore all follow-up CCT values were obtained through Scheimpflug technique. Endothelial cell count (specular microscopy) dropped from 2681 cells/mm 2 to 2278 cells/mm.
