Slow release of the antimetabolite 5-fluorouracil (5-FU) from modified Baerveldt glaucoma drains to prolong drain function.

Drainage devices are routinely placed in the eyes of patients with glaucoma to reduce intraocular pressure (IOP) by providing controlled outflow of fluid (aqueous humor) via a filtering bleb. However, the natural wound healing response often interferes with fluid outflow by thickening the walls of the bleb over time, so that these devices rarely remain functional for more than 5 years. We investigated the use of controlled release of an antimetabolite, 5-fluorouracil (5-FU), within glaucoma drains to determine if the wound healing response could be reduced and the useful life span of the device increased. Collagen plugs containing 1.125 mg of 5-FU were placed in the silicone tubes of modified Baerveldt glaucoma drains. Eight drains with 5-FU and eight drains without 5-FU were implanted in one eye each of 16 New Zealand white rabbits: the contralateral eyes served as unoperated controls. Results were evaluated in terms of IOP, fibrous capsule thickness, macrophage density. and presence of type III collagen surrounding the drain plate, 3 and 6 months after implantation. In general, eyes implanted with antimetabolite-containing drains demonstrated significantly lower values for all evaluated parameters at 3 months and lower or equal values at 6 months, compared with the eyes not receiving 5-FU and the unoperated controls, indicating improved IOP-lowering function, reduced bleb wall thickness, and earlier achievement of a steady-state wound healing response. All eyes remained healthy throughout the 6-month duration of the study with no cytotoxicity complications in any of the eyes. Thus, biodegradable plugs placed within the silicone tubes of glaucoma drains can safely deliver 5-FU to filtering blebs over time, which could prolong the functional life of the bleb by decreasing the thickness of the anterior fibrous capsule and permitting sufficient fluid outflow to reduce IOP to physiological levels.

Expanded polytetrafluoroethylene reinforcement material in glaucoma drain surgery.

PURPOSE: To determine whether a synthetic material, expanded polytetrafluoroethylene (E-PTFE), can be used successfully as a reinforcement material over the tubes of glaucoma drainage implants. METHODS: Patches of E-PTFE were sutured over the tubes of Baerveldt glaucoma drains implanted in the eyes of New Zealand white rabbits. Two material thicknesses were tested: 0.5 mm in four eyes and 0.25 mm in five eyes. Rabbit donor scleral patches were used in five eyes as the control. Total ocular health and intraocular pressure were monitored every 2 weeks after the procedure. Six months after implantation, the eyes were harvested and analyzed histologically. RESULTS: Two of the four eyes that received 0.5-mm thick E-PTFE patches showed some conjunctival melting over the anterior corners of the material close to the limbus. All five eyes that received 0.25-mm thick E-PTFE patches showed a healthy cellular wound healing response and no conjunctival melting. Cellular infiltration and collagen deposition in the E-PTFE materials showed integration of the patch material into the surrounding tissue. In the control eyes, marked thinning and resorption of the donor sclera immediately above the drainage tube was noted. CONCLUSION: Thin (0.25 mm) E-PTFE patches were well tolerated in all rabbit eyes tested. Thin E-PTFE should be investigated further as a functional alternative to donor sclera for reinforcement in glaucoma drain surgery.

Traumatic anterior lens dislocation: a case report.

A 45-year-old man presented to the emergency department complaining of decreased vision and pain in the left eye after blunt trauma to the eye. On evaluation, the vision was limited to detecting hand motions, and the intraocular pressure was 37 mmHg. Secondary acute angle-closure glaucoma, with pupillary block due to anterior dislocation of the lens, was diagnosed. The intraocular pressure remained elevated after medical therapy, and the patient underwent intracapsular cataract extraction and anterior vitrectomy. The possibility of elevated intraocular pressure due to lens dislocation or other types of secondary glaucoma should be considered after blunt ocular trauma.