Silicone contact lens with hydrophilic surface treatment
First Claim
1. A contact lens, comprising a body which includes a silicone elastomer and silicone dioxide as a filler, said body having a concave surface adapted to face the cornea of an eye, and said body having a convex surface adapted to face the eyelid, said convex surface possessing hydrophilic characteristics, and the contact angle for said convex surface being smaller than the contact angle for said concave surface, said contact angles being measured with distilled water, and said contact angle for said concave surface having a value such that said body is movable relative to the cornea of an eye when said body is positioned on the cornea, said convex surface having been made hydrophilic by a treatment which included subjecting said convex surface to the action of activated gas ions in an atmosphere consisting at least predominantly of oxygen when said convex surface had an outer layer of said silicon elastomer, and said gas ions having impinged first regions of said outer layer and having had an energy such that said outer layer was destroyed at said first regions and the silicon dioxide filler of said body was exposed at said first regions, said gas ions also having impinged second regions of said outer layer and having had an energy such that said outer layer transformed to silicon dioxide at said second regions, and said convex surface having undergone an improvement in the hydrophilic characteristics thereof due to the exposure of the silicon dioxide filler at said first regions and the transformation to silicon dioxide at said second regions.
0 Assignments
0 Petitions
Accused Products
Abstract
A contact lens has a concave surface which is adapted to contact the cornea of an eye and a convex surface which is adapted to contact the eyelid. At least the convex surface of the lens possesses hydrophilic characteristics although the concave surface of the lens preferably possesses such characteristics also. In any event, the convex surface of the lens has a greater wettability than the concave surface thereof. The more highly hydrophilic character of the convex surface prevents the deposition thereon of fatty substances carried by the tear fluid which may cause opacity of the lens. The less highly hydrophilic character of the concave surface decreases the forces responsible for maintaining the lens in position in the eye, although not to such an extent that the lens does not remain properly positioned. These forces have been found to be a source of irritation in that they produce the feeling of a foreign body in the eye and the decrease in these forces occasioned by the less highly hydrophilic character of the concave surface of the lens enables this feeling to be eliminated. The concave surface of the lens need not be as highly hydrophilic as the convex surface thereof since the quantity of tear fluid which comes into contact with the concave surface is considerably less than that which comes into contact with the convex surface. The maximum contact angle for the convex surface of the lens, as measured with distilled water, should be about 65°. The surfaces of the lens may be made hydrophilic by chemical means or by bombardment with charged particles.
233 Citations
24 Claims
- 1. A contact lens, comprising a body which includes a silicone elastomer and silicone dioxide as a filler, said body having a concave surface adapted to face the cornea of an eye, and said body having a convex surface adapted to face the eyelid, said convex surface possessing hydrophilic characteristics, and the contact angle for said convex surface being smaller than the contact angle for said concave surface, said contact angles being measured with distilled water, and said contact angle for said concave surface having a value such that said body is movable relative to the cornea of an eye when said body is positioned on the cornea, said convex surface having been made hydrophilic by a treatment which included subjecting said convex surface to the action of activated gas ions in an atmosphere consisting at least predominantly of oxygen when said convex surface had an outer layer of said silicon elastomer, and said gas ions having impinged first regions of said outer layer and having had an energy such that said outer layer was destroyed at said first regions and the silicon dioxide filler of said body was exposed at said first regions, said gas ions also having impinged second regions of said outer layer and having had an energy such that said outer layer transformed to silicon dioxide at said second regions, and said convex surface having undergone an improvement in the hydrophilic characteristics thereof due to the exposure of the silicon dioxide filler at said first regions and the transformation to silicon dioxide at said second regions.
Specification