Harnessing the energy created by the blink of an eye, EPGL has built microchips for the purpose of powering an electronically enhanced contact lens.
Sensors that are designed to trigger desired mechanical actions within an electronically enhanced contact lens.
Smart storage cases for electronic contact lenses that can transfer data and energy for charging the contact lens overnight.
Methods and designs for flexible electronic substrates to be integrated into Silicone Hydrogel contact lenses and other medical devices.
Enabling the electronic contact lens manufacturing process, methods and Design for flexible electronic substrates to be integrated into Silicone Hydrogel contact lenses.
Methods and techniques for creating space, chambers and compartments within contact lenses to accommodate electronic circuits and mechanical devices.
Methods and designs of a mechanical system within a Silicone Hydrogel contact lense which can change the dioptric power or focus for the human eye automatically.
Methods and designs for displaying data and images to the human eye, originating and projected from within the electronic contact lens alone.
EP Global Communications, Inc.
Office Contact: Robert Settineri, MS
2192 Martin Street Suite 140
Irvine, CA 92612
EPGL Medical Sciences
1582 Deere Avenue
Irvine, CA 92606