Vitreous protein binding with nanopore dialysis membrane device.

Age-related macular degeneration (AMD) is one of the leading causes of blindness in the industrialized world, affecting over 8 million patients in the United State alone. While the wet (exudative) form of the disease is treated with intraocular injections, there are currently no approved therapies available for the dry (non-exudative) form of the disease which often affects both eyes in patients with AMD. Current research has focused on developing drugs that can be injected into the eye, but the treatment burden associated with monthly injections limits the effectiveness of this approach. Hence, there is a pressing need for a long-term therapeutic solution for patients suffering from this blinding disease. We detail a novel implantable intraocular device, which adsorbs and traps complement factors associated with AMD. In this study, we tested a novel approach by dialyzing proteins from the vitreous using biocompatible implants composed of a nanopore polyacrylonitrile polymer membrane. Preliminary in vitro and in vivo studies demonstrate a high affinity and capacity for complement protein absorption. After a three-month implantation in New Zealand White Cross rabbits, the implant demonstrated good biocompatibility with no inflammation and normal retinal physiology and histology. These studies demonstrate that prolonged CF suppression intraocularly may be accomplished with a nanopore polymer membrane.