Add to ORKGA method for controlling intraocular eye pressure via fluid exchange in the body is presented. The method may comprise providing a system to sense and regulate pressure, then implanting the system into the eye. The system may comprise four main components: a cannula, a sensor, a controller and a pump. The method works to engage in a fluid exchange which slowly increases/decreases intraocular pressure until a desired level is reached. Once the desired level is reached, the intraocular pressure is held steady and any external pressure perturbations are removed
Michael S Korenfeld,1,2 David K Dueker3 1Comprehensive Eye Care, Ltd., 2Department of Ophthalmology...
Intraocular pressure (IOP) is heavily influenced by the resistance of trabecular outflow pathways th...
Glaucoma is the leading cause of irreversible blindness and vision loss in the world. Although intra...
A method for controlling intraocular eye pressure via fluid exchange in the body is presented. The m...
A device and system for controlling pressure via fluid exchange in the body is presented. The device...
An intraocular pressure reduction and regulation system is described and data are presented covering...
A system for determination of intraocular pressure includes: an intraocular pressure sensor; a light...
Animal models of ocular hypertension are important for glaucoma research but come with experimental ...
The development of new tonometers requires laboratory tests on enucleated eyes where the intraocular...
An ocular drainage system is provided for treating diseases that produce elevated intraocular pressu...
International audienceObjective. The main risk factor for the development of glaucoma, a retinal d...
<div><p>Pathologic changes in intracranial pressure (ICP) are commonly observed in a variety of medi...
This dissertation describes the development of a portable, hand-held tonometer for measurement of th...
Among the diseases that lead to partial or complete loss of visual function is glaucoma, which is ch...
Intraocular pressure (IOP) is heavily influenced by the resistance of trabecular outflow pathways th...
Michael S Korenfeld,1,2 David K Dueker3 1Comprehensive Eye Care, Ltd., 2Department of Ophthalmology...
Intraocular pressure (IOP) is heavily influenced by the resistance of trabecular outflow pathways th...
Glaucoma is the leading cause of irreversible blindness and vision loss in the world. Although intra...
A method for controlling intraocular eye pressure via fluid exchange in the body is presented. The m...
A device and system for controlling pressure via fluid exchange in the body is presented. The device...
An intraocular pressure reduction and regulation system is described and data are presented covering...
A system for determination of intraocular pressure includes: an intraocular pressure sensor; a light...
Animal models of ocular hypertension are important for glaucoma research but come with experimental ...
The development of new tonometers requires laboratory tests on enucleated eyes where the intraocular...
An ocular drainage system is provided for treating diseases that produce elevated intraocular pressu...
International audienceObjective. The main risk factor for the development of glaucoma, a retinal d...
<div><p>Pathologic changes in intracranial pressure (ICP) are commonly observed in a variety of medi...
This dissertation describes the development of a portable, hand-held tonometer for measurement of th...
Among the diseases that lead to partial or complete loss of visual function is glaucoma, which is ch...
Intraocular pressure (IOP) is heavily influenced by the resistance of trabecular outflow pathways th...
Michael S Korenfeld,1,2 David K Dueker3 1Comprehensive Eye Care, Ltd., 2Department of Ophthalmology...
Intraocular pressure (IOP) is heavily influenced by the resistance of trabecular outflow pathways th...
Glaucoma is the leading cause of irreversible blindness and vision loss in the world. Although intra...