Glaucoma continues to exert a heavy disability and economic burden and is the most frequent cause of irreversible blindness worldwide. In 2015, 57.5 million people globally were affected by open-angle glaucoma and this is predicted to increase to 65.5 million by 2020. The prevalence of glaucoma increases with age in all populations and generally more men and people of Hispanic and Black race are affected. Effective treatments to lower and maintain intraocular pressure (IOP) and convenient means of continuously monitoring it remain substantial unmet medical needs. In this expert interview K Sheng Lim, Guy’s and St Thomas’ Hospitals, London, discusses the new developments to improve this situation therefore are of great interest to ophthalmologists and to the wider population who are at risk from glaucoma.
Glaucoma, IOP, rho kinase inhibitors, MIGS
Kin Sheng Lim has consultancy agreements with Alcon, Allergan, Santen and Ivantis, and currently receives research funding from New World Medical, Iridex, Thea, Alcon and EyeTechCare to declare in relation to this article. This is an expert interview and as such, has not undergone the journal’s standard peer review process.
This article is published under the Creative Commons Attribution Noncommercial License, which permits any non-commercial use, distribution, adaptation and reproduction provided the original author(s) and source are given appropriate credit.
December 14, 2017
December 22, 2017
K Sheng Lim, Guy’s and St Thomas’ Hospitals Westminster Bridge Road, London, SE1 7EH, UK. E: firstname.lastname@example.org
This expert interview was not supported by any external funding.
Glaucoma continues to exert a heavy disability and economic burden and is the most frequent cause of irreversible blindness worldwide.1 In 2015, 57.5 million people globally were affected by open-angle glaucoma and this is predicted to increase to 65.5 million by 2020.2 The prevalence of glaucoma increases with age in all populations and generally more men and people of Hispanic and Black race are affected. Effective treatments to lower and maintain intraocular pressure (IOP) and convenient means of continuously monitoring it remain substantial unmet medical needs. In this expert interview Kin Sheng Lim from Guy’s and St Thomas’ Hospitals, London, UK, discusses the new developments to improve this situation and are therefore of great interest to ophthalmologists and to the wider population who are at risk from glaucoma.
Q: What have been the major developments in pharmacotherapy for glaucoma in 2017?
One of the most exciting developments in glaucoma pharmacotherapy over the past 12 months has been the progress in the development of rho kinase inhibitors. The mechanism of action of these treatments has not been fully elucidated but it is entirely different to those of existing medications for glaucoma such as prostaglandins and beta-blockers. Rho kinases are serine/threonine kinases that have multiple functions within various different cell types throughout the body and are key components in regulating cell shape, motility, proliferation and apoptosis.3–5 Rho kinases achieve these effects by regulating smooth muscle contraction, which results from their interaction with multiple actin cytoskeletal-related targets. Various studies have shown that loss of rho kinase activity is associated with micromechanical relaxation of cells and disassembly of stress fibres and focal adhesion complexes.6,7 In the eye, rho kinase increases the contractile properties of trabecular meshwork (TM) outflow tissue. Inhibition of rho kinase activity therefore allows increased aqueous outflow via the TM and decreased intraocular pressure.5
A variety of different rho kinase inhibitors are in development for use in glaucoma of which, ripasudil and netarsudil are at the most advanced stage.5 In a one-year open-label study (n=354), ripasudil also produced notable reductions in IOP when given as monotherapy, as adjunctive therapy with prostaglandins, beta-blockers or with fixed combination drugs, and was well tolerated.8 In two phase III studies (n=1,167), treatment with netarsudil 0.2% once daily, produced significant reductions from baseline IOP (p<0.001) and was non-inferior to timolol twice daily.9 This treatment was well tolerated, with transient conjunctival hyperaemia being the most frequent adverse event. Based on this evidence, the US Food and Drug Administration (FDA) has recently approved Rhopressa® (netarsudil) for the treatment of glaucoma in the US.10
A further exciting development is the appearance of slow-release formulations and methods for less frequent dosing of prostaglandins. Examples include ENV515, which is travoprost in a biodegradable polymer for intracameral injection.11 A recent phase II study showed that one injected dose of ENV515 maintained an IOP reduction of 26% for up to 9 months with no serious adverse events or corneal effects. Another development is an ocular ring insert containing bimatoprost, which is placed on the eye to release the drug over extended durations. Its efficacy was demonstrated in a phase II study in which the insert produced similar IOP-lowering performance over 6 months to that of a placebo insert and twice daily 0.5% timolol twice daily, and was well tolerated.12
The iDose® (Glaukos, San Clemente, CA, US) delivery system is another device that is being evaluated in glaucoma. This is an intraocular implant that is injected during a micro-invasive procedure after which it elutes 0.5% travoprost over extended periods. The iDose is currently being compared with topical timolol maleate 0.5% in the treatment of glaucoma in a randomized double-blind, phase II trial (n=154).13 Recruitment was completed in May 2017. The trial was expected to conclude by the end 2017 and phase III trials will commence in early 2018. A bimatoprost slow-release (SR) formulation (Allergan, Dublin, Ireland) for intracameral administration is also in development for glaucoma. A recent phase I/II study (n=75) compared 6, 10, 15 or 20 µg versions of this SR implant in one eye of each patient with topical bitamoprost 0.03% in the fellow eye over a 24-month period. Six-month results show that bimatoprost-SR reduced IOP by 7.2, 7.4, 8.1 and 9.5 mmHg, respectively, compared with 8.4 mmHg for topical bimatoprost.14,15 Conjunctival hyperaemia within 2 days of administration was the most common adverse event occurring in 6.7% of SR-treated eyes and 17.3% of topically treated eyes. Overall, the SR treatment showed favourable efficacy over 6 months.
In addition to reducing treatment burden, these new implantable SR and wearable devices have the potential to improve patient adherence and enable better continuous control of IOP.
Q: How has our understanding of glaucoma advanced in 2017?
A recent change in perception concerns the practice or iridotomy for glaucoma treatment. In 2014, a study by Vera et al. (n=208),16 showed that temporal placement of laser peripheral iridotomy was safe and less likely to result in linear dysphotopsia than superior placement (10.7% versus 2.4%). This finding influenced many ophthalmic surgeons to switch from superior to temporal placement. More recently, however, a larger study by Srinivasan et al. in India (n=559)17 showed that dysphotopsia incidence was similar regardless of iridotomy location (8.4% for superior versus 9.5% for temporal; p=0.7). This finding may persuade ophthalmic surgeons to revert back to using superior iridotomy for glaucoma treatment, as was their previous practice.
A further interesting development comes from the Primary Tube versus Trabeculectomy (PTVT) study (n=117).18–20 One-year results showed that for patients with uncontrolled glaucoma, who did not have any previous intraocular surgery, trabeculectomy with Mitomycin-C had a higher success rate and lower IOPs compared with those receiving tube shunt placement. Furthermore, the greater IOP reduction was achieved with fewer glaucoma medications (p<0.001 at 1 week, 1 month, 3 months, 6 months and 1 year for both IOP and medications). In this study, there were no significant differences in the rates of intraoperative complications, late postoperative complications or serious complications between the two groups, and most were transient and self limited.
Other changes in understanding come from the EAGLE study (n=419).21 Although the study findings were published in 2016, its implications are only now becoming fully appreciated. The results showed that in patients with primary angle closure glaucoma, clear-lens extraction produced greater reductions in IOP (p=0.004), higher scores for quality of life measures (p=0.005) and was more cost effective than laser peripheral iridotomy (incremental cost effectiveness ratio was £14,284 for initial lens extraction versus standard care). Based on this, the authors suggested that clear-lens extraction should be considered as an option for first-line treatment for better outcome and cost effectiveness in this subgroup of patients.
For many ophthalmologists the central 24-2 threshold test has become the standard method for investigating visual field defects in glaucoma. However, in a recent study in the US22 in patients with suspected glaucoma, 79 of the 200 eyes (39.5%) classified as normal on the 24-2 test were classified as abnormal on 10-2 visual fields. In ocular hypertensive eyes, 28 of the 79 eyes (35.4%) classified as normal on the 24-2 test were classified as abnormal on the 10-2 test. These findings suggest that it may be necessary to switch from the 24-2 to the 10-2 test in the next few years to more reliably detect visual defects in some patients.
Q: What advances have there been in minimally invasive glaucoma surgery (MIGS) in 2017 and which approaches appear most promising?
The recent FDA approval of the CyPass® trabecular micro-stent (Alcon/Novartis, Fort Worth, TX, US) is a key development that is likely to change practice in glaucoma surgery.23 This was supported by the 2-year results from the pivotal COMPASS trial on patients (n=505) with unmedicated IOPs in the range 21–33 mmHg and receiving pharmacoemulsification cataract surgery.24 Study findings showed an early and sustained reduction in IOP in 77% of microstent subjects achieving ≥20% unmedicated IOP lowering versus baseline at 24 months compared with 60% of controls (p=0.001). In addition, mean 24-month medication was 67% lower in patients receiving CyPass (p<0.001) and there were no CyPass-related adverse events. No vision-threatening CyPass-related adverse events occurred; long-term safety data from the COMPASS trial will become available during 2018. The availability of CyPass may therefore encourage greater adoption of MIGS techniques for glaucoma treatment.
A further development in MIGS is the HydrusTM Schlemm canal microstent (Ivantis, Dublin, Ireland) for which FDA licensing application for use in glaucoma is ongoing. In the HORIZON study 556 patients with cataract and mild to moderate glaucoma were randomly assigned to cataract surgery with the Hydrus or to cataract surgery alone.25 Two-year results show that 77.2% of patients who received the Hydrus microstent achieved a 20% reduction in IOP versus 57.8% who received cataract surgery alone. The SUMMIT trial has been recently approved by the FDA and will evaluate Hydrus Microstent in refractory glaucoma which will add to the data gained from mild-to-moderate glaucoma cases in previous studies.26
These new devices may have great potential in glaucoma treatment, but they are limited by a lack of head-to-head studies comparing their performance. It will take some years before their relative merits are fully appreciated and those that provide optimal patient outcomes emerge.
Q: What other emerging technologies have interested you this year?
One other emerging technology is the MicroShunt® (Innfocus, Miami, FL, US).27 This device is the first ‘minimally invasive’ standalone procedure introduced in recent years for open angle glaucoma of any stage or severity. Data from a 3-year long-term study showed that after the MicroShunt procedure, mean IOP was reduced by 55% to 10.7 mmHg and more than 80% of the 22 patients had an IOP below 14 mmHg.28 In addition, 64% of patients did not require any glaucoma medication during the third year of the study. A phase II/III study with a planned population of 857 patients is currently ongoing (NCT01881425). This will compare the safety and efficacy of MicroShunt to standard trabeculectomy in subjects with primary open angle glaucoma and the data are intended to support an FDA filing for use of the device in glaucoma.
Q: What future developments can we look forward to in 2018?
In most patients with glaucoma, IOP monitoring is usually conducted irregularly at clinic visits and consequently cannot capture diurnal variations and spikes that can be damaging to the eye and need to be eliminated through increased treatment and/or altered dosing regimens.29 Various invasive and non-invasive systems have been investigated to continuously monitor IOP but to date none have proven entirely satisfactory. These systems are of three main types: self-monitoring, temporary continuous monitoring and permanent continuous monitoring.30 An example of a wearable device is the Triggerfish® contact lens sensor (SENSIMED, Lausanne, Switzerland). This device can only measure relative changes rather than determine absolute pressure.31 There are currently many new intraocular sensor devices in development32–34 and if any of these are proven to be accurate and safe, reliable continuous IOP monitoring for many patients may soon become a reality.