Glaucoma surgery: MIGS, trabeculectomy, and others
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Revision as of 10:11, 7 August 2025 by Sarah Glier (talk | contribs) (started a page for trabeculectomies and other glaucoma specific procedures)
Glaucoma surgery: MIGS, trabeculectomy, and others
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Open-angle glaucoma (OAG) is the most common form of glaucoma and is characterized by a gradual increase in intraocular pressure (IOP) due to the slow blockage of the drainage canals in the eye. Management includes medications, laser therapies, and surgical procedures including minimally invasive glaucoma surgery (MIGS). MIGS aims to lower IOP with less risk and faster recovery than traditional surgeries.
Overview
Indications
Failure of medical and laser therapy to adequately control IOP or continued progression of optic nerve or visual field damage despite maximal tolerated non-surgical treatment.
Surgical procedure
- Laser therapies
- Laser Trabeculoplasty: This procedure uses a laser to improve the drainage of fluid through the trabecular meshwork
- Selective Laser Trabeculoplasty (SLT): A more recent and less invasive option that targets specific cells in the trabecular meshwork and can be repeated if necessary
- Surgical procedures
- Trabeculectomy: creates a new drainage pathway to reduce IOP by removing a part of the trabecular meshwork and sclera
- Tube Shunt Surgery: Involves placing a small tube (shunt) in the eye to assist with the drainage of aqueous humor
- MIGS
- iStent: A tiny device that creates a new drain for fluid
- Hydrus Microstent: A small stent implanted in the drainage canal to help fluid drain better
- Kahook Dual Blade: A technique that removes tissue in the trabecular meshwork to facilitate drainage
Preoperative management
Patient evaluation
| System | Considerations |
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| Airway | |
| Neurologic | |
| Cardiovascular | |
| Pulmonary | |
| Gastrointestinal | |
| Hematologic | |
| Renal | |
| Endocrine | |
| Other |
Labs and studies
Operating room setup
Patient preparation and premedication
Regional and neuraxial techniques
- Peribulbar block: injecting a local anesthetic into the space surrounding the eye (the peribulbar space). Provides a dense block of the sensory nerves supplying the eye and can also induce temporary paralysis of the ocular muscles. Risks include potential injury to the optic nerve, hemorrhage, or globe perforation
- Retrobulbar block: local anesthetic injected behind the eyeball (retrobulbar space) to block the optic nerve and other sensory nerves. Provides profound anesthesia for the eye. Can also produce akinesia (paralysis of eye movement). Higher risk block including potential injury to the optic nerve, hemorrhage, globe perforation, or systemic toxicity
- Subtenon block: anesthetic injected into the subtenon space, which is located just outside the sclera (the white part of the eye but under the Tenon's capsule). Allows anesthetic to diffuse around the eye. Lower risk of complications compared to the above blocks. Will have preservation of eye movement which may be suboptimal for surgical conditions.
Intraoperative management
Monitoring and access
Induction and airway management
Positioning
Maintenance and surgical considerations
Emergence
Postoperative management
Disposition
Pain management
Potential complications
Procedure variants
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References
Top contributors: Sarah Glier