OBJECTIVE: To report clinical evaluation, flow patency, and histopathological findings of a novel glaucoma drainage implant (GDI) made of poly(styrene-b-isobutylene-b-styrene) (SIBS) in rabbits. METHODS: In 16 normal eyes, the proximal end of the SIBS GDI was inserted into the anterior chamber while the distal end was placed in the subconjunctival space. A control group underwent implantation of a similarly designed silicone GDI. Slitlamp follow-up and intraocular pressure measurements were recorded. Flow patency was evaluated by injecting 0.01% fluorescein into the anterior chamber. Immunostaining against collagen IV, macrophages, and alpha smooth muscle actin was performed. RESULTS: Slitlamp examination suggested adequate biocompatibility. A low and diffuse bleb was observed in the SIBS group. All SIBS tubes were patent 6 months after insertion. Immunostaining demonstrated noncontinuous collagen deposition. No macrophages or myofibroblasts were visible around the SIBS tubes. In contrast, silicone induced collagen deposition and myofibroblast differentiation. CONCLUSION: This new GDI is clinically biocompatible in the rabbit and maintained 100% patency at 6 months. A remarkable difference was the absence of myofibroblasts in the surrounding tissue in the SIBS group. CLINICAL RELEVANCE: This novel GDI made of SIBS would prevent the feared complication of hypotony and will decrease the amount of subconjunctival fibrosis.
OBJECTIVE: To report clinical evaluation, flow patency, and histopathological findings of a novel glaucoma drainage implant (GDI) made of poly(styrene-b-isobutylene-b-styrene) (SIBS) in rabbits. METHODS: In 16 normal eyes, the proximal end of the SIBS GDI was inserted into the anterior chamber while the distal end was placed in the subconjunctival space. A control group underwent implantation of a similarly designed silicone GDI. Slitlamp follow-up and intraocular pressure measurements were recorded. Flow patency was evaluated by injecting 0.01% fluorescein into the anterior chamber. Immunostaining against collagen IV, macrophages, and alpha smooth muscle actin was performed. RESULTS: Slitlamp examination suggested adequate biocompatibility. A low and diffuse bleb was observed in the SIBS group. All SIBS tubes were patent 6 months after insertion. Immunostaining demonstrated noncontinuous collagen deposition. No macrophages or myofibroblasts were visible around the SIBS tubes. In contrast, silicone induced collagen deposition and myofibroblast differentiation. CONCLUSION: This new GDI is clinically biocompatible in the rabbit and maintained 100% patency at 6 months. A remarkable difference was the absence of myofibroblasts in the surrounding tissue in the SIBS group. CLINICAL RELEVANCE: This novel GDI made of SIBS would prevent the feared complication of hypotony and will decrease the amount of subconjunctival fibrosis.
Authors: Dimiter R Bertschinger; Evgueny Beknazar; Manuel Simonutti; Avinoam B Safran; José A Sahel; Serge G Rosolen; Serge Picaud; Joel Salzmann Journal: Graefes Arch Clin Exp Ophthalmol Date: 2008-08-16 Impact factor: 3.117
Authors: Leonard Pinchuk; Isabelle Riss; Juan F Batlle; Yasushi P Kato; John B Martin; Esdras Arrieta; Paul Palmberg; Richard K Parrish; Bruce A Weber; Yongmoon Kwon; Jean-Marie Parel Journal: Regen Biomater Date: 2016-02-25
Authors: Leonard Pinchuk; Isabelle Riss; Juan F Batlle; Yasushi P Kato; John B Martin; Esdras Arrieta; Paul Palmberg; Richard K Parrish; Bruce A Weber; Yongmoon Kwon; Jean-Marie Parel Journal: J Biomed Mater Res B Appl Biomater Date: 2015-09-18 Impact factor: 3.368