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Abstract #12255 Published in IGR 7-2
Modeling and characterization of a valved glaucoma drainage device with implications for enhanced therapeutic efficacy
Pan T; Stay M-S; Barocas V-H; Brown J-D; Ziaie BIEEE Transactions on Bio-Medical Engineering 2005; 52: 948-951
We report on modeling and bench test results targeted at better understanding of valved glaucoma drainage devices (GDDs), a common current surgical treatment for glaucoma. A simple equivalent circuit is described to model fluid mechanical behavior of the aqueous humor in an eye with glaucoma, both before and after implantation of a valved GDD. Finite element method simulations (FEM), based on the lubrication-von Karman model, are then performed to analyze the valve's mechanical and fluidic performance. Using nanoporous membranes to mimic the in vivo fibrous capsule, we have developed a microfluidic bench test to simulate the aqueous humor flow and the post-implantation fibrous tissue encapsulation around the GDD back plate. Our numerical and bench test results show that, contrary to the prevailing belief, the valve significantly contributes to the total pressure drop even after fibrous capsule formation. Furthermore, we show that bypassing the valve through a simple polyimide tube insertion will dramatically lower the intraocular pressure (IOP) after fibrous capsule formation. This may offer a new treatment option in some patients with advanced glaucoma.
Dr. T. Pan, Department of Biomedical Engineering, University of Minnesota, Minneapolis, MN 55455, USA. tingrui@ece.umn.edu
Classification:
12.8.2 With tube implant or other drainage devices (Part of: 12 Surgical treatment > 12.8 Filtering surgery)
