Nd:YAG Laser for Ahmed Tube Shunt Blockage in Patients Implanted with Boston Type I Keratoprosthesis.

INTRODUCTION: The purpose of this study was to describe the results using the Nd:YAG laser to reopen blocked glaucoma tube shunts in three ocular chemical burn patients with Boston keratoprostesis type I (KPro) implantation.
METHODS: The medical records of the three patients at Zhongshan Ophthalmic Centre were reviewed.
RESULTS: Patient 1, who had glaucoma secondary to KPro implantation, had undergone Ahmed glaucoma valve (AGV) implantation to control an elevated intraocular pressure (IOP). One day after surgery, the tube was observed to be embedded in the residual lens capsule. The capsule was opened by one 1.5 mJ laser pulse, with a subsequent drop in the IOP. In patient 2, the AGV and KPro had been implanted simultaneously. One month after surgery, the IOP increased to 35 mmHg, estimated by palpation, and a vitreous gel was seen blocking the tube. A Nd:YAG laser pulse was used to open the occluded tube. In patient 3, the tube was blocked by iris tissue; Nd:YAG laser treatment opened the tube.
CONCLUSIONS: The cases described here indicate that Nd:YAG laser treatment seems to be a valuable option for opening an occluded AGV tube in patients with KPro implantation. The correct location of the tube tip, visualized through the KPro optic, is essential for laser treatment.

Introduction

Boston type I keratoprosthesis (KPro; Massachusetts Eye and Ear Infirmary, Boston, MA, USA) is considered to be a viable treatment for various corneal diseases, including repeated graft failure, ocular chemical burns and stem cell deficiency. However, sustained intraocular pressure (IOP) elevation after KPro implantation places visual function in jeopardy due to the potential for optic nerve damage. An additional concern associated with high IOP after KPro implantation is the mechanical stress placed on the corneal carrier, which may result in ectasia. The major risk factors for the development of post-KPro glaucoma are pre-existing glaucoma, aphakia and anterior synechiae. Chronic inflammation is also associated with a high IOP. Glaucoma drainage device (GDD) surgery is an effective option to treat medically uncontrollable glaucoma after KPro implantation, although various complications are associated with this surgery, including tube exposure, tube occlusion and plate exposure and encapsulation [1]. Here, we describe the use of the neodymium (Nd):YAG laser to open occluded Ahmed glaucoma valve (AGV; New World Medical, Inc., Rancho Cucamonga, CA, USA) tubes to restore aqueous flow and control IOP in three patients with severe ocular chemical burns who had undergone KPro implantation.

Methods

Design

This was a retrospective case series. The files of three patients (three eyes) with KPro implantation were reviewed. All patients had suffered severe ocular chemical burns and had been treated with Nd:YAG laser pulse(s) to open occluded AGV tubes.

This retrospective analysis was approved by the institutional ethical committee of Zhongshan Ophthalmic Centre. All procedures followed were in accordance with the Declaration of Helsinki of 1964, as revised in 2013. All patients provided written informed consent for publication of clinical data.

Case report

Case 1

A 52-year-old man presented to our hospital with decreased vision in both eyes due to ocular chemical burns (lime) in 2018. He had undergone lamellar keratoplasty in the left eye 2 years prior. On examination, his visual acuity (VA) in both eyes was hand motions with accurate light perception. Slit-lamp examination revealed total corneal opacification with pannus in the right eye. The left eye showed a failed large lamellar corneal button with 360° corneal vascularization. No underlying anterior chamber details were visualized. Anterior segment ultrasound (ultrasound biomicroscopy, UBM) revealed an eye with a shallow anterior chamber depth and 180° peripheral anterior synechiae. IOP estimated by digital palpation was in the normal range. Ultrasound imaging showed no obvious optic nerve cupping. After discussion with the patient, it was decided to proceed with KPro placement in the left eye in March 2018. His cataract was removed at the time of surgery by anterior vitrectomy, and an aphakic KPro was placed. At postoperative week 4, he had 10/100 vision with a cup disc ratio of 0.5 (Fig. 1a). At month 2, he started to develop glaucoma de novo, with a decrease in vision to counting fingers (FC) at 2 m. His IOP was uncontrolled with topical and systemic anti-glaucoma medication, and he therefore had an AGV placement approximately 3 months after the KPro implantation. The shunt tube was introduced into the anterior chamber through a tract created by a 23-gauge syringe needle. The tip of the tube is long enough to be seen through the KPro optic. At postoperative day 1, the patient’s IOP was 35 mmHg, estimated by digital palpation, and the tip of the tube was found to be embedded in the residual lens capsule (Fig. 1b). This situation was managed with one Nd:YAG laser pulse of 1.5 mJ to the membrane at the tube tip, which ruptured the membrane (Fig. 1c). The membrane retracted posteriorly, and the IOP dropped to 15 mmHg, estimated by palpation. Topical steroids were used to control the mild postoperative inflammation. To date, the IOP has remained low for 7 months. At the last follow-up, his visual acuity was FC at 1 inch with a cup disc ratio of 0.9 (Fig. 1d).

Fig. 1

a One month after Boston keratoprosthesis (KPro) implantation, laser retina scan image (Optomap®, Optomap 200Tx™, Optos®, Marlborough, MA, USA) of the left eye revealed a cup disc ratio of 0.5. b Slit-lamp photograph of the left eye showing the tube was covered with a residual lens capsule. c The occluding capsule was perforated by a Nd:YAG laser pulse of 1.5 mJ. d Optomap® image demonstrating glaucoma drainage implant tube in the left eye with a cup disc ratio of 0.9

Case 2

A 51-year-old man who presented to our hospital with a diagnosis of ocular chemical burns had been injured by exposure to sodium hydroxide 13 months prior. He was examined at the Zhongshan Ophthalmic Centre Corneal Service in July 2018. He had a VA of hand motions in the right eye, and no light perception in the left eye. The IOP of the right eye, with maximal anti-glaucoma drugs, was 30 mmHg, estimated by digital palpation. Ocular examination revealed 360° corneal vascularization and total corneal opacification (Fig. 2a). UBM showed 360° peripheral anterior synechiae and iris-cornea touch. B-scan ultrasonography revealed the patient was phakic with attached retina, vitreous debris and glaucomatous cupping of the optic disc. The left eye was phthisical and remarkable for extensive symblephara. As penetrating keratoplasty was doomed to fail, it was decided to implant a KPro. KPro placement with combined extracapsular cataract extraction, open-sky anterior vitrectomy and AGV implantation was performed in September 2018. By postoperative day 7, the patient’s VA was FC. His IOP was approximately 15 mmHg, estimated by palpation. One month after surgery, he presented to us with a 3-day history of increasing pain in the right eye. His IOP was approximately 35 mmHg, estimated by palpation. Slit-lamp examination revealed the internal tube ostium was blocked by vitreous with pigment deposited in it (Fig. 2b). The patient was treated with four Nd:YAG laser pulses of 1.8 mJ at the tube tip, creating a full-thickness hole in the vitreous and posterior retraction of the vitreous. Fluid turbulence followed immediately, and a piston-like movement of the micro air bubble in the tube was observed (Fig. 2c; see also video in the Electronic Supplementary Material). The IOP dropped to 15 mmHg, and the ocular pain was relieved. To date, the IOP has remained low for 3 months, and B-scan ultrasound demonstrated a fluid-filled reservoir surrounding the GDD plate (Fig. 2d).

Fig. 2

a Slit-lamp image showing total limbal stem cell deficiency and opaque cornea of the right eye before surgery. b The tube orifice was blocked with translucent vitreous gel with pigment deposited in it. c The tube was opened by the Nd:YAG laser; a micro air bubble was created by the laser beam within the tube. d B-scan ultrasound showing echolucent fluid areas around the glaucoma drainage device plate (arrow)

Case 2 video: piston-like movement of the micro air bubble in the tube was observed. (MP4 47373 kb)

Case 3

A 49-year-old man presented with total limbal stem cell deficiency and opaque cornea (Fig. 3a) following a chemical burn (cement) 3 years prior. UBM showed 270° peripheral anterior synechiae and iris-cornea touch. He was managed with glaucoma drainage implant surgery combined with pars plana vitrectomy and KPro implantation [2]. At postoperative day 1, the tip of the tube was found to be obstructed with iris tissue (Fig. 3b). He was managed with two Nd:YAG laser two pulses of 1.5 mJ each to the iris at the tube tip. After surgery, the IOP remained low, and the tube stayed patent (Fig. 3c, d).

Fig. 3

a Slit-lamp image showing total limbal stem cell deficiency and an opaque cornea of the left eye before surgery. b The tube orifice was blocked with an iris tissue. c The tube was opened by treatment with a Nd:YAG laser pulse. d Optomap® image showing a patent tube

Discussion

Glaucoma is the single most important factor limiting patients’ visual outcomes after ocular chemical burns [3]. Eyes with severe chemical burns are more likely to have glaucoma and require surgery to treat this condition [4]. Glaucoma is not uncommon after KPro surgery [5]. Treatment of post-KPro glaucoma involves the use of topical and systemic glaucoma medication. The disadvantage of topical therapy is inadequate drug penetrance through the central anterior optic plate. Chronic use of systemic medicine, such as oral carbonic anhydrase inhibitors, is associated with potential systemic effects, including metabolic acidosis and urolithiasis. GDD surgery has been recommended by the manufacturer of the KPro in eyes with pre-existing glaucoma [6].

The most common complication after GDD surgery is obstruction of the tube [7]. The tube may be blocked by inflammatory tissue, vitreous gel and/or iris tissue [1]. Given the disadvantages of time-domain anterior segment optical coherence tomography (AS-OCT), including lower image definition and no transmission through metal (titanium) or the iris, we found it difficult to visualize the membrane or vitreous gel on the tip of the tube using AS-OCT. The early diagnosis and treatment of these three patients relied on adequate visualization of the sufficiently long tube through the KPro optic by slit-lamp examination, the tube tip being cut bevelled up, good optical clarity of the anterior plate and less formation of a retroprosthetic membrane with titanium backplate. Severe ocular chemical burns are characterized by protracted and relentless inflammation, and chronic and subacute inflammation contribute to an accumulation of inflammatory debris in the eye, leading to the occurrence of tube blockage during the early or late postoperative course. When the tube tip was positioned behind the backplate (Fig. 4), it was difficult to observe tube obstruction or perform Nd:YAG laser treatment. Therefore, we recommend that the tube be cut so that it is long enough to be seen through the KPro optic. However, it was difficult to place the tube tip just at the edge of the 3.0-mm optic of the KPro during anterior vitrectomy surgery when the IOP was not stable. In case 3, using the 3-port pars plana vitrectomy and stabilized IOP, the tube tip was much easier to place at the posterior edge of the optic.

Fig. 4

Placement of tube tip behind the backplate of the keratoprosthesis

In conclusion, blockage of tube orifices may occur in patients with KPro and GDD implantation. Treatment with Nd:YAG laser pulses could be a useful option to reopen the blocked tube in such patients. Placement of the tube tip at the edge of the optic enables laser intervention.

Below is the link to the electronic supplementary material.

Supplementary material 1 (MP4 47372 kb)