Minimally invasive glaucoma surgery


Micro-invasive glaucoma surgery is the latest advance in surgical treatment for glaucoma, which aims to reduce intraocular pressure by either increasing outflow of aqueous humor or reducing its production. MIGS comprises a group of surgical procedures which share common features. MIGS procedures involve a minimally invasive approach, often with small cuts or micro-incisions through the cornea that causes the least amount of trauma to surrounding scleral and conjunctival tissues. The techniques minimize tissue scarring, allowing for the possibility of traditional glaucoma procedures such as trabeculectomy or glaucoma valve implantation to be performed in the future if needed.
Traditional glaucoma surgery generally involves an external approach through the conjunctiva and sclera; however, MIGS procedures reach their surgical target from an internal route, typically through a self-sealing corneal incision. By performing the procedure from an internal approach, MIGS procedures often reduce discomfort and lead to more rapid recovery periods. While MIGS procedures offer fewer side effects, the procedures tend to result in less intraocular pressure lowering than with trabeculectomy or glaucoma tube shunt implantation.

Medical uses

Glaucoma is a group of eye disorders in which there is a chronic and progressive damage of the optic nerve. Increased intraocular pressure is the main and only modifiable risk factor, attributed to the progression of the disease. During the last 25 years, glaucoma management has been based in the use of pharmaceutical therapies and incisional surgery. MIGS procedures can provide the patient sustained IOP reduction while minimizing the risk and complications associated with glaucoma interventions and decrease the dependence of glaucoma medications.

Adverse events

MIGS procedures offer an excellent safety profile, with minimal incidence of complications, especially when compared with other forms of glaucoma surgery.

Procedures

MIGS objective, like all glaucoma surgeries, is to achieve lowering of IOP by either increasing aqueous humour outflow, the fluid that is produced by the eye and fills the space between the cornea and the lens, or decreasing the production of aqueous humour. MIGS can be divided in procedures that lower IOP by using micro-stents and minimally invasive procedures.

Micro-stent/shunt devices

iStent

The iStent Trabecular Micro-Bypass Stent, or simply iStent, is the smallest implantable medical device, designed to lower intraocular pressure by facilitating trabecular outflow of aqueous fluid. The trabecular outflow is one of the major outflow pathways for aqueous humor in the eye and has been the target of both pharmaceutical and surgical therapeutic approaches in glaucoma.
The 1-millimeter long iStent is a titanium device inserted via an internal approach through the trabecular meshwork into Schlemm’s Canal, bypassing the trabecular meshwork and facilitating flow of aqueous from the eye. Studies have shown that the iStent is an effective procedure, typically lowering intraocular pressure to the mid-teens.
The iStent is the first MIGS device to get FDA approval for implantation in combination with cataract surgery. The device has also been shown to offer better IOP control than cataract surgery alone up to one year of follow-up in a large randomized controlled FDA study, although the effectiveness was significantly reduced by 2 years. Safety of the iStent was comparable to cataract surgery alone which is much better than conventional trabeculectomy. Common complications include failure to implant the device, touching the iris with the device, and touching the undersurface of the cornea with the device. Multiple studies have since confirmed the MIGS-type efficacy and safety profile of the iStent.
To address the reduced effectiveness at 2 years, some studies have been performed with multiple iStents.
A 2019 Cochrane Review found that individuals who receive iStents in combination with cataract surgery may be less likely than those who only receive cataract surgery to need glaucoma eye drops at medium-term follow-up; however, the evidence for this finding was of low quality.

CyPass micro-stent

The CyPass Micro-Stent is the first MIGS device developed for lowering of IOP through the suprachoroidal space, a part of the uveoscleral outflow pathway for aqueous humor. The uveoscleral pathway is an important pathway for aqueous outflow and drainage which can account for up to 57% of total outflow. Cyclodialysis cleft procedures were initially used to access this pathway with significant IOP lowering, but the cleft was prone to high anatomic variability as well as early postoperative closure due to the lack of a permanent drainage implant with a standardized and uniform conduit.
It has a microlumen of 300 microns and is designed to augment outflow to the suprachoroidal space in order to control intraocular pressure; it is indicated for the treatment of primary open-angle glaucoma. The stent is implanted through an ab interno approach and inserted into the supraciliary space, effectively creating a controlled cyclodialysis cleft, which is kept open by the device.
The first clinical data on the device was presented in 2010 showed sustained IOP lowering and MIGS-like safety profile. This has been substantiated in subsequent studies in the combined setting with cataract surgery and as a stand-alone treatment for patients failing glaucoma topical therapy. Data from a large randomized controlled pivotal study has reported positive efficacy after 2 years of follow-up and will be submitted to FDA for approval. The CyPass device has been CE-marked since 2009.

Hydrus

The Hydrus Microstent is an implantable MIGS device for the treatment of primary open angle glaucoma; implantation of this device can be performed in conjunction with cataract surgery. The Hydrus Microstent is the longest of the MIGS devices, and similar to the iStent it is designed to increase trabecular outflow.
The implant is inserted through the trabecular meshwork, thus bypassing resistance of aqueous flow through the tissue. However, other glaucoma surgeries, such as canaloplasty, have shown that mechanical dilation of Schlemm’s Canal is also associated with a reduction in intraocular pressure. The Hydrus Microstent takes advantage of this property by mechanically dilating and holding open Schlemm’s Canal. The length of the Hydrus Microstent is thought to open approximately one quarter of Schlemm’s Canal, routing aqueous into open downstream collector channels.
Clinical data from a randomized controlled study demonstrates efficacy of the device at 1 and 2 years. The Hydrus Microstent is currently being investigated in an FDA approved study for mild-to-moderate glaucoma.

XEN gel stent

The XEN Gel Stent is an implantable transcleral microsurgical device that allows the aqueous fluid to drain from the anterior chamber into the subconjunctival space, a pathway utilized by traditional trabeculectomy and glaucoma drainage device surgeries. Unlike the latter two procedures, the XEN Gel Stent is performed through an internal approach and avoids directly incising and disrupting the conjunctiva itself.
The 6-millimeter stent is placed through the trabecular meshwork, with one end of the stent sitting directly underneath the conjunctiva, past the outer wall of the sclera. The inner tip of the stent sits in the anterior chamber, allowing a direct connection for aqueous to flow into the subconjunctival space. The stent is made of a non-bioreactive material, which does not promote scarring of the conjunctiva. The XEN Gel Stent was FDA approved on Nov 22, 2016.

InnFocus Microshunt

The InnFocus Microshunt is a small tube, 8 mm in length, that is inserted in to the eye to help lower intraocular pressure and reduce the need for medications. A Cochrane Review published in December 2019 did not find any published clinical trials to assess whether the InnFocus Microshunt is safer and more comfortable for patients than standard glaucoma surgery.

Minimally invasive procedures

Endocyclophotocoagulation

Aqueous humor is produced in the portion of the eye known as the ciliary body. The ciliary body contains 72 protrusions known as ciliary processes, from which the aqueous is produced. The destruction of these ciliary processes with a diode laser, known as cyclophotocoagulation, can be used to decrease the amount of aqueous humor produced, thereby reducing the intraocular pressure.
Cyclophotocoagulation traditionally has been performed using an external laser through the sclera, known as transcleral cyclophotocoagulation. However, side effects of the transcleral approach can include significant inflammation, chronically low intraocular pressure, intraocular bleeding, and permanent shutdown of the eye, known as phthisis. Recent advances have now allowed a diode laser to be combined with a camera allowing for direct visualization of the ciliary processes during the ablation.
Endocyclophotocoagulation is indicated for the treatment of both open and closed angle glaucoma and is performed in eyes which have already undergone cataract surgery or performed concomitantly with cataract removal. The largest investigation of endocyclophotocoaguation has shown a significant decrease in intraocular pressure of up to 10 mmHg, as well as a significant reduction in number of glaucoma medications needed. Reported adverse reactions include intraocular inflammation, bleeding, and cystoid macular edema. A Cochrane Review published in 2019 found no relevant published studies on endoscopic cyclophotocoagulation to assess its effectiveness compared to other surgical treatments, laser treatment or medical treatment.

Trabectome

The Trabectome, or trabeculectomy ab interno, is a microsurgical device cleared by the U.S. Food and Drug Administration since 2006, used in patients with open angle glaucoma to excise a strip of trabecular meshwork, the tissue primarily responsible for the increased resistance of aqueous outflow in glaucoma. The Trabectome uses electrocautery via an internal approach to vaporize the trabecular meshwork, creating a large pathway for aqueous to flow, with minimal trauma to surrounding tissues. The procedure can be performed alone or in conjunction with cataract surgery.
Trabectome is unique among the MIGS procedures, as there is no physical device implanted inside the eye; the pressure lowering is a direct result from the destruction and removal of the trabecular meshwork. Studies have found a decrease in intraocular pressure to the mid-teens following the procedure, which has a favorable safety profile. The most common complication from Trabectome surgery is bleeding, which can blur vision and take extra time to recover. The surgery site can scar over time and the pressure can go back up.
In early 2014, the NeoMedix received a warning letter from FDA regarding marketing practices.