Dry polishing of intraocular lenses

Abrading – Abrading process – Tumbling

Reexamination Certificate

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C451S032000, C451S326000, C451S328000, C451S041000

Reexamination Certificate

active

06575814

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to methods of polishing intraocular lenses. More specifically, the present invention relates to methods of dry polishing intraocular lenses in a fluidized bed of particles to remove flash, surface irregularities and/or sharp edges from molded or lathe cut surfaces thereof.
BACKGROUND OF THE INVENTION
Methods of molding articles from moldable materials have been known for some time. A common problem associated with molding techniques is the formation of excess material or flash on the edges of the molded article. Depending on the type of article formed in the molding process and the manner in which the article is used, the presence of excess material or flash can be undesirable. The same is also true of rough, irregular or sharp edges found on articles produced through a lathing process.
Many medical devices, such as for example intraocular lens implants, require highly polished surfaces free of sharp edges or surface irregularities. In the case of intraocular lenses (lOLs), the lens is in direct contact with delicate eye tissues. Any rough or non-smooth surface on an IOL may cause irritation or abrading of tissue or other similar trauma to the eye. It has been found that even small irregularities can cause irritation to delicate eye tissues.
Various methods of polishing are known in the art. U.S. Pat. Nos. 2,084,427 and 2,387,034 disclose methods of making plastic articles such as buttons that include tumbling the articles to remove projections of excess material or flash.
U.S. Pat. No. 2,380,653 discloses a cold temperature tumbling process to remove flash from a molded article. This method requires the article to be tumbled in a rotatable container of dry ice and small objects such as wooden pegs. The cold temperature resulting from the dry ice renders the flash material relatively brittle, such that the flash is more easily broken from the article during the tumbling process.
U.S. Pat. No. 3,030,746 discloses a grinding and polishing method for optical glass, including glass lenses. The method includes tumbling the glass articles in a composition of liquid, abrasive and small pellets or media. The liquid is disclosed as being water, glycerins, kerosene, light mineral oil and other organic liquids either alone or in combination. The abrasive component is described as being garnet, corundum, boron carbide, cortz, aluminum oxide, emery or silicon carbide. The media is disclosed as being ceramic cones, plastic slugs, plastic molding, powder, limestone, synthetic aluminum oxide chips, maple shoe pegs, soft steel diagonals, felt, leather, corn cobs, cork or waxes.
U.S. Pat. No. 4,485,061 discloses a method of processing plastic filaments which includes abrasive tumbling to remove excess material.
U.S. Pat. Nos. 4,541,206 and 4,580,371 disclose a lens holder or fixture used for holding a lens in a process of rounding the edge thereof. The process includes an abrasive tumbling step.
U.S. Pat. No. 5,133,159 discloses a method of tumble polishing silicone articles in a receptacle charged with a mixture of non-abrasive polishing beads and a solvent which is agitated to remove surface irregularities from the articles.
U.S. Pat. No. 5,571,558 discloses a tumbling process for removing flash from a molded IOL by applying a layer of aluminum oxide on a plurality of beads, placing the coated beads, alcohol, water and silicone lOLs in a container and tumbling the same to remove flash.
U.S. Pat. No. 5,725,811 discloses a process for removing flash from molded lOLs including tumbling the lOLs in a tumbling media of 0.5 mm diameter glass beads and 1.0 mm diameter glass beads, alcohol and water.
Prior methods of removing flash or surface irregularities, such as described above, may be inadequate or impractical in the manufacture of certain types of lOLs. For example, certain lOLs formed from relatively soft, highly flexible material, such as silicone, are susceptible to chemical and/or physical changes when subjected to cold temperatures. For this reason, certain types of cryo-tumbling or cold temperature tumbling may be impractical in the manufacture of lOLs made from such materials. Additionally, certain types of abrasive tumbling processes may be suitable for harder lens material, such as glass or polymethylmethacrylate (PMMA), but may not be suitable for softer lens materials. Also, most tumbling processes known in the art require the lens to be submersed in a liquid that may not be suitable for some lens materials or manufacturing processes. Accordingly, a need exists for a suitable process for removing flash and/or irregularities from molded or lathe cut lOLs made of various materials.
SUMMARY OF THE INVENTION
The present invention relates to methods for dry polishing lOLs. IOLs are currently either molded in removable molds or lathe cut. Subsequent to these operations, the lOLs have surface roughness or sharp edges that need to be minimized or eliminated. After polishing methods such as tumbling the lOLs in a container with glass beads and a liquid, the lOLs must be dried or in the case of hydrogels dehydrated, prior to further processing. Drying or dehydrating the lOLs can be both expensive and time consuming. The dry polishing methods of the present invention eliminate the need for drying or dehydrating lOLs. This is particularly important in the case of surface coated lOLs where a coating or surface treatment can not be consistently applied in the presence of moisture.
The first method of dry polishing lOLs in accordance with the present invention consists of obtaining a polishing chamber having two opposed open ends, placing glass-spun wool in each open end and polishing material and lOLs in the center. Air, or any other inert gas or gases, is then passed into one end of the polishing chamber and out of the other end while the length of the polishing chamber is preferably maintained in a vertical position. The flow of air keeps the lOLs and polishing material buoyant resulting in dry polished lOLs. After polishing the lOLs, the lOLs are removed from the polishing chamber and polishing material with the use of a sieve. The lOLs are then easily handled and surface treated at this stage without having to dry the same.
The second and third methods of dry polishing lOLs in accordance with the present invention consist of obtaining an IOL container with one or more optic clamps or flexible optic loops extending from one or more but preferably one rigid arm members. One IOL is placed in each open hinged optic clamps or flexible optic loops of the IOL container so that the lOLs' haptics extend from slots formed in the optic clamps or flexible optic loops. In the case of the optic clamps, once an IOL is positioned therein, the open hinge of the optic clamp is snapped close to secure the IOL in place. The optic clamps when closed only contact the outer peripheral edges of the lOLs positioned therein. Alternatively, the flexible optic loops are designed such that one IOL snaps or slips into position within each flexible optic loop thereof leaving all but the IOL optic peripheral edges exposed. The IOL container with lOLs positioned therein is then snapped into place within a polishing chamber using retention means formed therein. The polishing chamber and the axially concentric IOL tube are then preferably maintained in a horizontal position. The retention means inside the polishing chamber removably fixes the IOL container within the polishing chamber to prevent rotation of the IOL container within the polishing chamber. A dry polishing medium is placed inside the polishing chamber and the one or more open ends thereof removably sealed. The polishing chamber is then axially rotated. As the polishing chamber is rotated, the polishing medium repeatedly contacts the exposed IOL surfaces thus polishing the same. The duration of tumbling and the revolutions per minute of the polishing chamber can be adjusted to achieve the desired degree of polishing. Since the slots of the IOL container protect the IOL optic peripheral edges, the IOL optic

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