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Development of No-Rejection Aqueous Humor Pressure Control Membrane in The Eyeball for Glaucoma Implant Devices
Published online by Cambridge University Press: 17 March 2011
Abstract
The inner porous part of the PTFE [poly-tetrafluoroethylene] membrane was substituted with a hydrophilic group using irradiation by an ArF laser. Water was employed for a defluorination agent in order to inhibit rejection. The membrane was developed that automatically pumps out water when the pressure is raised above a fixed value. The increased intraocular pressure with aqueous outflow failure causes glaucoma. In healthy humans intraocular pressure is maintained at a normal physiological level of between 8 to 18 mmHg. When the pressure exceeds 21 mmHg, a diagnostic of glaucoma may be predicted.
We designed a new type of membrane to pump the aqueous humor and regulate its outflow. The membrane has gained characteristics of aqueous humor penetration by substituting a part of a hydrophobic group that exists inside the porous PTFE with the hydrophilic group. Furthermore our previous studies have found that B, Al and H atoms are effective for defluorination of atoms from fluorocarbon. In this study three kinds of reaction liquid containing B, Al and H respectively were used. By this defluorination reaction B and Al atoms were better than H atoms. We prepared a boric acid water solution (B(OH)3), nitro aluminate water solution (Al(NO3)3) and water (H2O) as chemical compounds for defluorination and OH substitution. When ethyl alcohol is dropped on the porous PTFE, it penetrates into inner porous PTFE easily. When the three kinds of chemical compound water solutions are dropped onto the porous PTFE membrane, the solution is trapped up to the inner side of porous PTFE. When each sample with hydrophilic property treatment was implanted into rabbits' eyes and its biocompatibility was tested, some samples using Al and B atoms for defluorination have shown the rejection reaction called neoplasm blood vessel. However, the other samples using water as the reaction liquid have shown no rejection.
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- Copyright © Materials Research Society 2002
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