WO1999029265A1

WO1999029265A1 - Frosted haptic intraocular lens

Info

Publication number: WO1999029265A1
Application number: PCT/US1998/025718
Authority: WO
Inventors: Thomas J. Chambers
Original assignee: Staar Surgical Company, Inc.
Priority date: 1997-12-10
Filing date: 1998-12-10
Publication date: 1999-06-17
Also published as: AU759433B2; KR20010033015A; US6537316B1; CN1285722A; AU1803399A; EP1039850A4; WO1999029265A8; EP1039850A1; CA2313334A1; KR100602461B1; US6129759A; JP2001525219A

Abstract

The present invention is a deformable intraocular lens (10) having frosted, and/or colored haptic portions (16a, 16b). The frosted haptic portions increase the frictional resistance to movement or rotation within the inner structure of the eye once implanted.

Description

FROSTED HAPTIC INTRA OCULAR LENS

Field of the Invention

The present invention is directed to an intraocular lens having frosted haptic portions. The present invention is particularly suitable for one-piece plate-type

intraocular lenses.

Background of the Invention

The concept of a deformable intraocular lens (IOL) was invented and developed in the early 1980' s by Dr. Mazzacco who became a founder of Staar Surgical Company of Monrovia, California. Staar Surgical Company has been an innovator of deformable

IOLs, and is a leading manufacturer and marketer of deformable IOLs in the United

States and throughout the world.

There exists two main types of deformable intraocular lenses having different

types of configurations for attaching the lens in the eye. Specifically, there exists a

three (3) piece lens, including a lens portion and two separate loop-type haptics each

having one end embedded in the lens portion of the lens. The other main type is a

plate-type intraocular lens having a pair of opposed haptics extending from the lens portion and molded together as a one-piece integral construction. Further, intraocular lenses can be differentiated by cataract lens replacement-

type in which the natural crystalline lens is removed and replaced by an intraocular

lens, and a refractive type of intraocular lens to be added in front of the natural

crystalline lens without removal thereof.

Currently, the haptic portions of both three (3) piece type IOLs and one-piece plate-type IOLs have substantially smooth surface textures due to the various methods

of manufacturing these types of lenses. In particular, plate-type intraocular lenses are

tumble polished so that the entire surface is very smooth and highly transparent.

Further, one-piece plate-type IOLs currently being marketed and sold are

uniformly optically clear and have no appreciable coloration. Specifically, currently

marketed one-piece plate-type IOLs are made from virgin silicon or acrylic based materials that are optically clear and not colored before and after molding thereof. Any appreciable coloring (i.e. , clouding or browning) of this material is considered

defective, and such lenses are typically discarded under quality control.

Summary of the Invention

An object of the present invention is to provide an improved deformable

intraocular lens. A second object according to the present invention is to provide a deformable intraocular lens having one or more frosted and/or textured surface portions.

A third object according to the present invention is to provide a deformable

intraocular lens having haptic portions having one or more frosted and/or textured

surface portions.

A fourth object of the present invention is to provide a three (3) piece type intraocular lens having haptic portions with one or more textured surface portions.

A fifth object of the present invention is to provide a one-piece plate-type

intraocular lens having plate-type haptics with one or more frosted and/or textured

surface portions.

A sixth object of the present invention is to provide a deformable one-piece

plate-type deformable intraocular lens having plate-type haptics with frosted and/or

textured surface end portions.

The present invention is directed to various types of deformable intraocular lenses having frosted and/or textured haptic portions. These surface finishes alter the

optical and physical characteristics (e.g. , optical clarity, surface friction, surface

adhesion, surface tension, porosity, surface hardness, etc.) of the surfaces of the haptic portions of the deformable IOLs. For example, the haptic portions can be provided with a frosted finish that effects the transmission of light through the haptic portions, the haptic portions can be provided with a matte finish that scatters reflected light in

all directions; and/or the haptic portions can be provided with an etched finish that

provides a roughened surface texture finish to increase frictional contact with the inner

eye tissue.

The present invention encompasses all types of deformable intraocular lenses,

however, one-piece plate-type deformable intraocular lenses are of particular interest with respect to the present invention. The deformable intraocular lenses include three

(3) piece type IOLs, one-piece plate-type intraocular IOLs, deformable refractive correction IOLs (e.g. , Staar Surgical Company's Intraocular Contact Lens) and other

types of anterior chamber and/or posterior chamber type IOLs. Further, the present

invention is directed to providing one-piece plate-type IOLs with colored haptic

portions . Specifically , limited portions or the entire haptics portions of one-piece plate-

type IOLs are colored.

The deformable IOLs according to the present invention are provided with

haptic portions that include frosted and/or textured surfaces. Specifically, portions of

the surfaces or the entire surfaces of the haptic portions are frosted and/or textured.

The frosted surface portions can be continuous or non-continuous with other portions.

Various designs of the frosted surface portions, for example, can include stripes, checkerboard, dots, circles, triangles, squares, pentagons, octagons, lattice or virtually any other type of design including potentially art work. The frosting can be provided

on the front, back and/or edge surfaces.

The frosted and/or textured surface portions can be applied to the deformable

IOLs by various methods including molding or surface texturing. Specifically, surfaces

of the mold can be frosted or textured (e.g. , sandblasting, electrode discharge machining (EDM), shot peening, laser etching chemical etching, sputtering, vapor

depositing, etc.). Alternatively or in addition, the surfaces of the haptic portions of the

deformable IOLs can be frosted or textured by, for example, sandblasting or shot

peening haptic portion of the lens, chemically etching frosted surface portions,

irradiating portions to become frosted or non-frosted, chemically etching portions to

become frosted or non-frosted, masking techniques, irradiating, surface modifying or

other various techniques to make portions of the haptic transparent, lightly frosted or textured, medium frosted or textured, highly frosted or textured, or frosted or textured to any degree therebetween.

The frosted and/or textured surface portions of the haptic portions increase

friction in the interface between tissue and haptic portion to increase the extent of

anchoring the IOL within the eye. It is highly desirable to anchor and minimize

movement of the IOL and prevent any relevant movement (e.g. , rotation) between the

IOL and inner structure of the eye. Typically, there only exists the possibility of some movement, post operatively prior to healing of the tissue in the eye (i.e. , up to several

weeks). It is during this time period that it would be highly desirable to prevent any

relative movement and/or rotation of the implanted IOL within the eye structure.

Based on mechanics, it is highly desirable that tip portions of the haptic portions

are frosted and/or textured to provide the greatest moment arm for frictional forces

applied from the eye tissue on the haptic portions to prevent relative movement and/or rotation of the IOL within the eye structure. Further, both sides and the edges of the

haptics portions are preferably frosted and/or textured to increase the total surface area that is frosted, and thus increase the amount of frictional resistance to movement of the

IOL within the eye structure.

The frosted and/or textured surfaces of the haptic portions will also decrease the

amount of light being transmitted through the haptic portions.

In the context of a one-piece plate- type IOL according to the present invention,

a portion of one or both haptic portions can be intentionally colored. The coloration can

render the haptics opaque, or partially transmissive (i.e. , translucent). The coloration

can be used independent of any surface frosting, or in combination therewith. For

example, the same surface portions can be both frosted and colored, or different

portions can be frosted and not colored while other portions are not frosted, but

colored. The coloration can be utilized to reduce the transmittance of light through the

haptic portions, for marking the lens (e.g. , trademark logos, lens orientation markings,

art work, bar codes, etc.).

Brief Description of the Drawings

Figure 1 is a perspective view of an intraocular lens according to the present invention having frosted surfaces on the haptic portions.

Figure 2 is a top planar view of the intraocular lens shown in Figure 1.

Figure 3 is a rear view of the deformable intraocular lens show in Figure 1.

Figure 4 is a side elevational view of the deformable intraocular lens show in

Figure 1.

Figure 5 is a partial broken-away transverse cross-sectional view of a haptic portion, as indicated in Figure 2.

Figure 6 is a top planar view of another embodiment of the deformable intraocular

lens according to the present invention having colored zones on the haptic portions. Figure 7 is a partial broken-away side cross-sectional view of the haptic portion, as indicated in Figure 6.

Figure 8 is a front elevational view of an intraocular lens according to the present invention having both frosted and colored haptic portions.

Figure 9 is a partial broken-away side cross-sectional view of the haptic portion,

as indicated in Figure 8.

Figure 10 is a perspective view of an actual one-piece plate-type deformable

intraocular lens according to the present invention by electron micrograph showing details

of the frosted haptic portions.

Figure 11 is a detailed partial broken-away perspective view of the IOL shown in Figure 10.

Detailed Description of Preferred Embodiments

Definitions

Deformable intraocular lens - means an intraocular lens made of an elastic

material capable of being folded, rolled or compressed to fit through a relatively small

incision (e.g., 2.5 to 3.0 mm) made in the eye. For example, typical deformable intraocular lens are made of silicone elastomer, acrylic elastomer, or collagen-based

polymer (e.g., COLLAMER made by STAAR Surgical of Monrovia, California).

Flaws - mean unintentional, unexpected, and unwanted interruptions

Frosted Surface - means a roughened surface that reduces the transmission of light therethrough.

Lay - means the direction of the predominant surface pattern, ordinarily determined by the production method used.

Matte Surface - means a dull surface that scatters reflected light in all directions.

Measured profile - means a representation of the profiled obtained by instrumental or other means.

Measured surface - means a representation of the surface obtained by instrumental

or other means.

Nominal profile - means a profile of the nominal surface; it is the intended profile

(exclusive of any intended roughness profile). Nominal surface - means the intended surface contour (exclusive of any intended

surface roughness), the shape and extent of which is usually shown and dimensioned on a drawing or descriptive specification.

Peak - means the point of maximum height on that portion of a profile that lies

above the centerline and between two intersections of the profile with the centerline.

Roughness - means the finer irregularities of surface texture, usually including those irregularities which result from the inherent action of the production process. These are considered to include traverse feed marks and other irregularities within the limits of the roughness sampling length.

Roughness sampling length - means the sampling length within which the

roughness average is determined. This length is chosen, or specified, to separate the

profile irregularities which are designated as roughness from those irregularities

designated as waviness.

Roughness spacing - means the average spacing between adjacent peaks of the measured profile within the roughness sampling length.

Sampling length - means the nominal spacing within which a surface characteristic is determined. Spacing - means the distance between specified points on the profile measured

parallel to the nominal profile.

Surface texture - means the repetitive of random deviations from the nominal surface which form the three-dimensional topography of the surface. Surface texture

includes roughness, waviness, lay and flaws.

Valley - means the point of maximum depth on that portion of a profile that lies

below the centerline and between two intersections of the profile with the centerline.

Waviness - means the more widely spaced component of surface texture. Unless otherwise noted, waviness is to include all irregularities whose spacing is greater than the

roughness sampling length and less than the waviness sampling length. Waviness may

result from such factors as machine or work deflections, vibration, chatter, heat-treatment or warping strains. Roughness may be considered as being superposed on a 'wavy'

surface.

Waviness spacing - means the average spacing between adjacent peaks of the

measured profile within the waviness sampling length.

These definitions are based on American National Standard ANSI B46.1-1985. Frosted Haptic Portions

A plate-type deformable intraocular lens 10 according to the present invention is

shown in Fig. 1. The deformable intraocular lens 10 comprises a lens portion 12 and

haptic portion 14 including haptic portions 14a and 14b. The haptic portions 14a and 14b

are provided with frosted surface portions 16a and 16b, respectively. As shown in Figs.

2 and 3, both sides of the haptic portions 14a and 14b are provided with frosted surface

portions 16a and 16b, respectively.

Colored Haptic Portions

Another embodiment of a deformable intraocular lens 20 according to the present

invention is shown in Fig. 6. The intraocular lens 20 includes a lens portion 22 and haptic

portion 24, including haptic portions 24a and 24b. The haptic portions 24a and 24b are

provided with colored or tinted portions 26a and 26b, respectively.

The colored portions 24a and 24b can be made by coloring, dying, painting,

masking, coating, tinting or other suitable process of applying a coloring material to the

interior and/or surface of the haptic portion. The coloring material can be added to the

lens material (e.g., before or during formation of the lens), or used to treat the lens

material (e.g., dying surface, coating surface, modifying surface or interior with radiation

after formation of the lens). The coloring material can be of a type to leave the haptic material transparent with coloring (e.g., tinting), or can be of a type to make the haptic material opaque (e.g., color pigment or dye).

Surface Frosting and/or Texturing

The frosted and/or textured surface portions of the haptics are provided by forming or making portions of the haptic having a particular surface roughness.

Specifically, the roughness of a surface is based on the dimensional aspects of gaps and protrusions in the surface of the haptics. The surface roughness can be further

characterized by the mean value of the width of the gaps, the mean value of the thickness of the protrusions, the mean value of the depth of the gaps, and the mean value of the

spacing between the gaps. This manner of characterizing surface roughness in the context

of an intraocular lens is set forth in U.S. Patent 5,405,385 to Heimke et al. U.S. Patent

5,405,385 is fully incorporated by reference herein.

The desired extent of frosting of the frosted surface portions of the haptic portions

in the IOLs according to the present invention is to preferably provide a mean value of the

width of the gaps of from 8-128 microns, a mean value of thickness of the protrusions of from 8-128 microns, a mean value of the depth of the gaps of 8-128 microns, and a mean value of spacing between gaps in a range of 8-128 microns. These parameters will be

referred to in general as the mean surface roughness. The mean surfaces roughness is the

average of the mean values of width of the gaps, mean value of thickness of the

protrusions, and mean value of the depth of the gaps. More preferably, the mean value of width of the gaps is from 16-64 microns, the mean value of the thickness of the protrusions is from 16-64 microns, the mean value of the depth of the gaps is 16-64 microns, and the mean value of the spacing between gaps is 16-64 microns. The most

preferred surface roughness is characterized by a mean value of width of the gaps of 32

microns, a mean value of the thickness of the protrusions of 32 microns, the mean value

of the depths of the gaps of 32 microns, and the mean value of the spacing between the gaps of 32 microns.

Example

A one-piece plate-type deformable intraocular lens according to the present

invention was made by the following technique, and is shown in Figs. 10 and 11. The

deformable IOL shown in Figure 10 was made by injection molding standard silicon polymer material in a metal mold, followed by tumble polishing.

The metal mold was prepared by electro discharge machining (EDM) to cut the

mold cavity. The lens portion and inner portions of the haptics were then highly polished

to finalize the mold while the portions to mold the frosted haptic portions were left

roughened. The lens was then molded by conventional molding techniques for manufacturing the silicon deformable intraocular lens.

Claims

We Claim:

1. A deformable intraocular lens, comprising:

a lens portion; and

a haptic portion, said haptic portion including a frosted portion.

2. A lens according to Claim 1, wherein one side of said haptic portion is frosted.

3. A lens according to Claim 1 , wherein both sides of said haptic portion are frosted.

4. A lens according to Claim 1, wherein an entire surface of said haptic portion is frosted.

5. A lens according to Claim 1, wherein a portion less than an entire surface of said

haptic portion is frosted.

6. A lens according to Claim 1, wherein said frosted portion is preferably defined by

a mean surface roughness in the range of 8 to 128 microns.

7. A lens according to Claim 6, wherein said mean surface roughness is preferably

defined by a mean surface roughness in the range of 16 to 64 microns.

8. A lens according to Claim 7, wherein said mean surface roughness is most

preferably about 32 microns.

9. A lens according to Claim 1, wherein at least a portion of said haptic portion is

colored.

10. A lens according to Claim 1, wherein at least a portion of said haptic portion is

translucent.

11. A lens according to Claim 10, wherein at least a portion of said haptic portion is

translucent.

12. A lens according to Claim 1, wherein at least a portion of said haptic is opaque.

13. A lens according to Claim 9, wherein at least a portion of said haptic is opaque.

14. A lens according to Claim 10, wherein at least a portion of said haptic is opaque.

15. A lens according to Claim 11, wherein at least a portion of said haptic is

opaque. AMENDED CLAIMS

[received by the International Bureau on 01 April 1999 (01.04.99); original claims 11 and 15 cancelled; original claims 1,2,3,4,5,9,10,12,13 and 14amended; new claims 16-27 added (4 pages)]

1. (amended) A plate-type deformable intraocular lens, comprising: a lens portion; and

a pair of oppositely disposed plate-type haptic [portion] portions, said haptic [portion] portions including a frosted portion,

2. (amended) A lens according to Claim I, wherein one side of said haptic [portion] portions is frosted.

3. (amended) A lens according to Claim 1, wherein both sides of said haptic [portion] portions are frosted.

4. (amended) A lens according to Claim 1 , wherein an entire surface of said haptic [portion] portions is frosted.

5. (amended) A lens according to Claim 1, wherein a portion less than an entire surface of said haptic [portion] portions is frosted,

6. A lens according to Claim 1 , wherein said frosted portion is preferably defined by a mean surface roughness in the range of 8 to 128 microns.

7. A lens according to Claim 6, wherein said mean surface roughness is preferably defined by a mean surface roughness in the range of 16 to 64 microns,

8. A lens according to Claim 7, wherein said mean surface roughness is most preferably about 32 microns.

9. (amended) A lens according to Claim 1, wherein at least a portion of said haptic [portion] portions is colored.

10. (amended) A lens according to Claim 1 , wherein at least a portion of said haptic [portion] portions is translucent.

11. Cancel.

12. (amended) A lens according to Claim 1, wherein at least a [portion] portions of said haptic is opaque.

13. (amended) A lens according to Claim 9, wherein at least a [poπion] portions of said haptic is opaque.

14. (amended) A lens according to Claim 10, wherein at least a [portion] portions of said haptic is opaque.

IS. Cancel,

.

16. A deformable intraocular lens, comprising:

a lens portion, and

a haptic portion, said haptic portion including a frosted portion wherein said frosted portion is defined by a mean surface roughness in the range of 8 to 128 microns,

17. A lens according to Claim 16. wherein one side of said haptic portion is frosted.

18. A lens according to Claim 16. wherein both side of said haptic portion are frosted.

1 . A lens according to Claim 16. wherein an entire surface of said haptic portion is frosted.

20. A lens according to Claim 16. wherein a portion less than an entire surface of said haptic portion is frosted,

2L A lens according to Claim 16. wherein said mean surface roughness is defined by a mean surface roughness in the range of 16 to 64 microns.

22. A lens according to Claim 21. wherein said mean surface roughness is about 32 microns.

2J . A lens according to Claim 16. wherein at least a portion of said haptic portion is colored,

24. A lens according to Claim 1 . wherein at least a portion of said haptic portion is trangtøpent

2-- A lens according to Claim 16. wherein at least a portion of said haptic is opaque,

26, A lens according to Claim 23. wherein at least a portion of said haptic is opaque.

27. A lens according to Claim 24. wherein at least a portion of said haptic is opaque.