Abstract: In one embodiment, a double-reflecting contact lens and carrier assembly for viewing the anterior chamber and the anterior chamber angle of an eye, the eye having an optical axis, includes a lens including a lens body having a contact end defining at least a portion of a first surface configured for contacting an eye and a viewing end defining at least a portion of a second surface, a first reflecting surface disposed adjacent the lens body at an angle relative to the optical axis of the eye, and a second reflecting surface disposed adjacent the lens body opposing the first reflecting surface at an angle relative to the first reflecting surface, and a carrier configured for carrying the lens in a manner that provides rotation of the lens relative to the eye of a patient.

Abstract: In one embodiment, a double-reflecting contact lens for viewing the anterior chamber and the anterior chamber angle of an eye, the eye having an optical axis, includes a lens body having a contact end defining at least a portion of a first surface for contacting an eye and a viewing end defining at least a portion of a second surface, a first reflecting surface disposed adjacent the lens body, wherein the first reflecting surface is a planar surface extending from the viewing end to a middle region in the body between the viewing end and the contact end, and a second reflecting surface disposed adjacent the lens body, wherein the second reflecting surface is a planar surface extending from the viewing end to the contact end, the second reflecting surface opposing the first reflecting surface at an angle relative to the first reflecting surface.

Abstract: In one embodiment, a double-reflecting contact lens for viewing the anterior chamber and the anterior chamber angle of an eye, the eye having an optical axis, includes a lens body having a contact end defining at least a portion of a first surface for contacting an eye and a viewing end defining at least a portion of a second surface, a first reflecting surface disposed adjacent the lens body, wherein the first reflecting surface is a planar surface extending from the viewing end to a middle region in the body between the viewing end and the contact end, and a second reflecting surface disposed adjacent the lens body, wherein the second reflecting surface is a planar surface extending from the viewing end to the contact end, the second reflecting surface opposing the first reflecting surface at an angle relative to the first reflecting surface.

Abstract: In one embodiment, a double-reflecting contact lens and carrier assembly for viewing the anterior chamber and the anterior chamber angle of an eye, the eye having an optical axis, includes a lens including a lens body having a contact end defining at least a portion of a first surface configured for contacting an eye and a viewing end defining at least a portion of a second surface, a first reflecting surface disposed adjacent the lens body at an angle relative to the optical axis of the eye, and a second reflecting surface disposed adjacent the lens body opposing the first reflecting surface at an angle relative to the first reflecting surface, and a carrier configured for carrying the lens in a manner that provides rotation of the lens relative to the eye of a patient.

Abstract: In one embodiment of the present disclosure, a double-reflecting contact lens assembly for viewing the anterior chamber of an eye is provided. The lens assembly includes: (a) a lens body having a contact end defining at least a portion of first surface and a viewing end defining at least a portion of a second surface, wherein the lens body is a prism having an optical axis and magnification in the range of greater than 1× to about 2×; (b) a first reflecting surface disposed adjacent the lens body; and (c) a second reflecting surface disposed adjacent the lens body opposing the first reflecting surface. Other embodiments of the present disclosure include methods of making the lens assembly, methods of use, and a lens and handle assembly.

Abstract: An ophthalmologic lens assembly includes a glass prism bonded to a meniscus lens at a posterior end of the glass prism. The glass prism is surrounded by a housing that is bonded to the meniscus lens. In one embodiment, the housing and a meniscus lens blank are processed by grinding and polishing the housing and meniscus lens blank together to form a posterior lens surface of a meniscus contact lens. In other embodiment, only the meniscus lens blank is processed by grinding and polishing to form a posterior lens surface of a meniscus contact lens.

Abstract: A gonioscopy lens employs a plurality of mirror sets so that substantially the entire periphery of the anterior chamber of an eye can be viewed without rotating or moving the contact lens. Each mirror set comprises a first mirror position anterior to the eye on one side of the optical axis and a second mirror positioned posterior to the first mirror on the opposite side of the optical axis. Each set is oriented relative to each other so that the second mirror receives light rays from the peripheral portion of the anterior chamber, reflects those rays to the second mirror to the first mirror, and then reflects the light rays in a generally anterior direction so that they can be used by an ophthalmologist employing the lens. The image viewed by the ophthalmologist is upright and located over its actual position.

Abstract: A gonioscopy lens employs a plurality of mirror sets so that substantially the entire periphery of the anterior chamber of an eye can be viewed without rotating or moving the contact lens. Each mirror set comprises a first mirror position anterior to the eye on one side of the optical axis and a second mirror positioned posterior to the first mirror on the opposite side of the optical axis. Each set is oriented relative to each other so that the second mirror receives light rays from the peripheral portion of the anterior chamber, reflects those rays to the second mirror to the first mirror, and then reflects the light rays in a generally anterior direction so that they can be used by an ophthalmologist employing the lens. The image viewed by the ophthalmologist is upright and located over its actual position.

Abstract: An ophthalmoscopic prism, for example a gonioscope, has an optically transparent body, the distal end carries a viewing surface preferably oriented perpendicularly to the optical axis of the body, the proximal end of the prism carries a concave surface having a curvature similar to the curvature of the cornea of a patient. The proximal end has at least one planar surface extending outwardly and distally from a location adjacent the periphery of the concave surface. The body has an index of refraction that provides total internal reflection to a viewer looking through the viewing surface even when the planar surface is at least partially wetted with a fluid.

Abstract: An ophthalmoscopic prism, for example a gonioscope, has an optically transparent body, the distal end carries a viewing surface preferably oriented perpendicularly to the optical axis of the body, the proximal end of the prism carries a concave surface having a curvature similar to the curvature of the cornea of a patient. The proximal end has at least one planar surface extending outwardly and distally from a location adjacent the periphery of the concave surface. The body has an index of refraction that provides total internal reflection to a viewer looking through the viewing surface even when the planar surface is at least partially wetted with a fluid.

Abstract: An iridotomy and trabeculoplasty goniolaser lens has a contact lens element, a planar mirror offset from the optical axis of the contact lens element and first and second button lenses mounted on the anterior surface of the contact lens element. Magnification, curvature and location of the button lenses are chosen so as to provide the ability to simultaneously deliver laser energy to the iris of a patient's eye along a first optical path offset from the optical axis of the contact lens element and to view the trabecular meshwork around the region where the laser energy was applied. This ability eliminates the need for a plurality of contact lenses for delivering energy and viewing the eye and further eliminating the need for refocusing the microscope through which the surgeon views the eye.

Abstract: A lens system for use with a scanning laser ophthalmoscope to produce a wide field of view includes a first lens set and a second lens set. The first lens set provides an aerial image of the fundus of an eye along an aerial image plane anterior to the first lens set. A second lens focuses laser light from a scanning laser ophthalmoscope on the aerial image, which is then refocused by the first lens set on the fundus. The second lens set also receives and provides reflected light focused at the aerial image and redirects it to the entrance pupil of the ophthalmoscope in a substantially collimated form.

Abstract: An iridotomy and trabeculoplasty goniolaser lens comprises a contact lens element, a planar mirror offset from the optical axis of the contact lens element and first and second button lenses mounted on the anterior surface of the contact lens element. Magnification, curvature and location of the button lenses are chosen so as to provide the ability to simultaneously deliver laser energy to the iris of a patient's eye along a first optical path offset from the optical axis of the contact lens element and to view the trabecular meshwork around the region where the laser energy was applied. This ability eliminates the need for a plurality of contact lenses for delivering energy and viewing the eye and further eliminating the need for refocusing the microscope through which the surgeon views the eye.