GB1591877A – Intraocular lenses
– Google Patents
GB1591877A – Intraocular lenses
– Google Patents
Intraocular lenses
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Publication number
GB1591877A
GB1591877A
GB46628/77A
GB4662877A
GB1591877A
GB 1591877 A
GB1591877 A
GB 1591877A
GB 46628/77 A
GB46628/77 A
GB 46628/77A
GB 4662877 A
GB4662877 A
GB 4662877A
GB 1591877 A
GB1591877 A
GB 1591877A
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GB
United Kingdom
Prior art keywords
lens
position fixation
fixation element
lens body
section
Prior art date
1977-04-28
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
GB46628/77A
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Individual
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Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1977-04-28
Filing date
1977-11-09
Publication date
1981-07-01
1977-04-28
Priority claimed from US05/791,693
external-priority
patent/US4092743A/en
1977-11-09
Application filed by Individual
filed
Critical
Individual
1981-07-01
Publication of GB1591877A
publication
Critical
patent/GB1591877A/en
Status
Expired
legal-status
Critical
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Classifications
A—HUMAN NECESSITIES
A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
A61F2/02—Prostheses implantable into the body
A61F2/14—Eye parts, e.g. lenses, corneal implants; Implanting instruments specially adapted therefor; Artificial eyes
A61F2/16—Intraocular lenses
A—HUMAN NECESSITIES
A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
A61F2/02—Prostheses implantable into the body
A61F2/14—Eye parts, e.g. lenses, corneal implants; Implanting instruments specially adapted therefor; Artificial eyes
A61F2/15—Implant having one or more holes, e.g. for nutrient transport, for facilitating handling
A—HUMAN NECESSITIES
A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
A61F2/00—Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
A61F2/02—Prostheses implantable into the body
A61F2/14—Eye parts, e.g. lenses, corneal implants; Implanting instruments specially adapted therefor; Artificial eyes
A61F2/16—Intraocular lenses
A61F2002/1681—Intraocular lenses having supporting structure for lens, e.g. haptics
Description
(54) INTRAOCULAR LENSES
(71) I, CHARLES D. KELMAN, of 73
Bacon Road, Old Westbury, Nassau, New
York, United States of America, a citizen of the United States of America, do hereby declare the invention, for which I pray that a
Patent may be granted to me, and the method by which it is to be performed, to be particularly described in and by the following statement:
This invention relates to intraocular lenses suitable for use as artificial lens implants.
Lens implantation is a surgical technique which has come into increasing use for the correction of aphakia resulting from the surgical extraction (either extracapsular or intracapsular) of the natural lens from the patient’s eye because of a blindness-causing condition such as cataract. In general format, an intraocular lens consists of a medial lens body about 4 mm in diameter and a plurality of lateral lobes usually projecting from different sides of the lens body for use in fixing the lens in position in the eye.
As is well-known to those skilled in this art, even though the diameter of the lens body of an intraocular lens is only about 4 mm, for the purpose of a lens implantation, a corneo-scleral incision considerably longer than the lens body diameter, and normally from about 8 to 9 mm in length, is required.
An incision of this magnitude is mandated because the incision must be capable of being spread far enough to accommodate both the thickness and the width of the lens.
In this context, «thickness» means the dimension of the lens as measured from the anteriormost plane in which any part of the lens structure (e.g. the apex of the lens body) is found, to the posterior-most plane (e.g. the plane of the position fixation elements). «Width» means the minimum length of a projection of the lens onto a plane parallel to the optical axis of the lens body, in a direction perpendicular to a projection of the optical axis on such plane, which can be achieved by rotating the lens 360″ about said optical axis.
According to the present invention there is provided an intraocular lens suitable for use as an artificial lens implant, in which the lens has a medial, light-focusing lens body, and a pair of lateral position fixation elements connected with said lens body, a first of said position fixation elements having a first portion connected to and extending generally laterally outwardly from a first region of the periphery of said lens body, and a second portion extending from said first portion generally transversely thereto and at least partly peripherally of said lens body, said second portion having that part of its peripheral edge which faces said lens body spaced from the periphery of said lens body, and the second of said position fixation elements extending generally laterally outwardly from a second region of the periphery of said lens body spaced from and generally opposite said first region and in a direction generally opposite to that of said first portion of said first position fixation element, the configurations of said position fixation elements and their location with respect to said lens body being such that the minimum length of a projection of the entire lens onto a plane parallel to the optical axis of said lens body in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating the lens 360″ about said optical axis, is greater than the minimum length of a projection of said lens body onto said plane in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating said lens body 360″ about said optical axis, to an extent sufficient that insertion of the lens, through an incision in the eye, by a movement which is generally radial with respect to said optical axis would require the length of such incision to be greater than the minimum possible length of the incision which, as a function of the thickness and width of said lens body, would accommodate and permit passage therethrough of said lens body alone, the maximum dimensions of each of said position fixation elements at any part thereof being such that the element can be accommodated in and pass longitudinally through said minimum length incision in the cyc, and said second portion of said one position fixation clemcnt having the middle rcg- ion of that part of its peripheral edge which faces away from said lens body disposed closcr to said lens body than the opposite end regions of that edge. the ends of said second portion of sai(l one position fixation element and said tip end region of said other position fixation elenent providing a three-point support for positioning the lens in the eye.
The present invention is an intraocular lens construction which is charactcrized by a medial lens body and only two position fixation elements projecting from spaced, generally opposite lateral regions of the lens body. One of these elements has a first portion extending generally laterally from the lens body and a second portion extending from the end of the first portion generally transversely thereto and at least partly peripherally of the lens body. while the other element extends generally laterally from the lens body. The maximum dimensions of any portion of cither position fixation element are such that it can be accommodated in and pass through the minimum length incision which is required to accommodate and permit passage of the lens body.
Preferably, both elements are unitary with the lens body, i.e. they are not separately attached elements but are formed with the lens body (by molding or machining, for example) of a single block of any suitable physiologically incrt and non-toxic synthetic plastics material such as are well known to the art, e.g. polymethylmethacrylate, but the position fixation elements may, as long as they have the requisite shapes and orien stations. be constituted by platinum-iridium or equivalent metal wire loops.
The first portion or Icg of the first position fixation element which is connected to the lens body, extends (as stated above) gencrally laterally of the lens body, while the transverse second portion of the element extends from the Icg or first portion at least partly peripherally of the lens body. The said second portion must. however be at a spacing from the periphery of the lens body sufficicnt easily to accommodate the thick ncss of the cornca and sclera of the eye, and preferably its circumfcrcntial length will be sufficicnt for it to extend through an arc of between about 40 and about 6() along the periphery of the lens body, with the oppositc extremities of the second portion of the first position fixation element as viewed in the plane of the periphery of the lens body being. respectively. located on two imaginary lincs which are tangent to the lens body at opposite edges thereof and intcrscct at a point spaced from the lens hotly on the side opposite to that where the first position fixation element is located The second position fixation element, when made of plastics and located so as to seat either behind or in front of the iris in the upper region of the cul-de-sac of the anterior and posterior capsules, may be pro vided with means for cnbling it to be sutured to the iris to achieve complete immobilization although this is not essential. Such means will preferably consist of an aperture provided within the confines of the element, but as an alternative a pair of notches could be provided on opposite side edges of the element.
In use. when a lens according to the present invention is being implanted, the surgeon will first make a corneo-scleral incision in the eye only slightly longer than the diameter of the lens body, i.e. the incision will be about 5 mm in length. In order to insert the lens into the eye, the surgeon will then introduce the lens essentially «longitudinally» into the eye. i.e. he will in effect snake the lens in through the incision, starting with the free end extremity of the transverse second portion of the first position fixation element and ending with the tip of the second element, until the lens is properly positioned in the eye. This means that the second portion of the first position fixation element is seated adjacent the iris, that the lens body is properly centered in the region of the pupil, and that the second position fixation element (sutured to the iris, if necessary) is seated adjacent the upper region of the iris. It will be understood that the two position fixation elements, upon implantation of the lens, will cooperate to maintain the proper disposition of the lens body relative to the pupil of the eye.
In an intraocular lens according to a preferred embodiment of the present invention, which is particularly suited for an implantation in which the first and second position fixation elements are to be seated in front of the iris in the lower and upper regions, respectively, of the groove located behind the sclerol spur, the two position fixation elements are not entirely coplanar with each other. In this lens construction, both the first portion or leg of the first position fixation element and an inner first section of the second position fixation element, while extending generally laterally from the lens body, also are inclined somewhat posteriorly of the lens body, and the transverse second portion of the first fixation element and the outer or second section of the second position fixation element are generally coplanar with each other, in a plane parallel to the posterior surface plane of the lens body, assuming the latter surface to be flat which will generally be the casc. It is contemplated that the degree of the said inclination of the first portion of the first position fixation element and the first section of the second position fixation element should be such that the perpendicular distance from the common posterior plane of the second portion of the first position fixation element and the second section of the second position fixation element to the posterior surface plane of the lens body is between about 0.25 and 0.75 mm and preferably about 0.5 mm. Additionally, the second or transverse portion of the first position fixation element preferably will have a slight degree of concavity in the plane of the second portion, with a radius of curvature of about 180 mm, in that edge thereof which faces away from the lens body, so that at the opposite ends of the said second portion there will be defined respective radially outwardly directed lobes or tip regions which, upon implantation of the lens (by means of a «snaking in» procedure as previously described), will coact with the tip end region of the second section of the second position fixation element, when the same are all received in the groove behind the scleral spur, to effect an essentially three-point support of the lens in the eye. The arrangement may be such that a small gap will be maintained between the region of the anterior surface of the iris bounding the pupil and the posterior surfaces of the first portion and first section of the first and second position fixation elements, so as to avoid possible irritation of the iris in that region.
The foregoing and other objects, characteristics and advantages of the present invention will be more clearly understood from the following detailed description thereof when read in conjunction with the accompanying drawings, in which:
Fig. 1 is a plan view of an intraocular lens according to an embodiment of the present invention;
Fig. 2 is a side view of the lens shown in
Fig. 1; and Fig. 3 is a diagrammatic vertical section through a human eye and shows a lens according to the embodiment of Figs. 1 and 2 implanted in the eye, the lens being shown in a section taken along the line 9-9 in Fig.
1.
Attention is directed to our copending application no. 80.12207 (Serial No.
1 591 878) divided herefrom, which discloses an intraocular lens similar to that of the present invention. The general operating procedures described in that application are applicable to the present invention and will not be repeated here.
Referring to the drawings an intraocular lens 28 is designed for implantation anteriorly of the iris. As shown in Figs. 1 and 2, the lens 28 (like the lenses shown in
Figs. 1 to 6 of our aforesaid application no.) includes a medial light-focusing lens body 29 having a convex anterior surface 29a and a flat posterior surface 29b, a first position fixation element 30 and a second position fixation element 31.
The position fixation element 30, like the element 12, has a first portion 30′ extending generally laterally from one region of the periphery of the lens body 29 and a second portion 30″ extending generally transversely from the end of the portion 30′ and at least partly peripherally of the lens body. Unlike the first and second portions of the element 12 of our aforesaid application no., however, the portions 30′ and 30″ of the position fixation element 30 are not coplanar with each other or the lens body. Rather, as shown in Fig. 2, the first portion 30′ is inclined somewhat posteriorly of the lens body from the region of its connection to the same, and the second portion 30″ is disposed entirely posteriorly of the lens body and in a plane generally parallel to the plane of the lens body. Also, the transverse second portion 30″ of the second position fixation element 30 is somewhat concavely curved on its outwardly facing edge 30a, as shown in Fig. 1, for example at a radius of curvature of about 180 mm, thereby to define at its opposite ends respective radially outwardly directed lobes or tip regions 30b and 30c.
Correspondingly, the second position fixation element 31 extends generally laterally from a second region of the periphery of the lens body spaced from and generally opposite the region where the first portion 30 of the first position fixation element 30 is located. The element 31 is not coplanar with the lens body but as shown in Fig. 2, the position fixation element 31 has a first inner section 31′ which is inclined somewhat posteriorly of the lens body 29 from the region of its connection to the same, and a second outer section 31″ which is disposed entirely posteriorly of the lens body and in a plane generally parallel to the plane of the lens body.
Although by virtue of the foregoing arrangement the two position fixation elements 30 and 31 are not coplanar with the lens body, the degree of inclination of the first portion 30′ of the first position fixation element 30 and the degree of inclination of the first section 31′ of the second position fixation element are, respectively, such as to dispose the second portion 30″ of the first position fixation element and the second section 31″ of the second position fixation element in coplanar relation with each other and with their posterior surfaces at a perpendicular distance J of about 0.25 to 0.75 mm from the posterior surface 29b of the lens body 29. By virtue of this arrangement, therefore, when the lens 28 has been implanted in a human eye, as shown in Fig.
3, the lens body 29 and the proximate por tion 30′ and section 31 ‘ of the two position fixation elements will be maintained out of contact with the iris 20 in the region of the pupil, thereby to minimize the possibility of the lens irritating the iris and interfering with the expansion and contraction of the pupil 22.
Referring again to Fig. 1. it will be seen that the second section 31″ of the position fixation element 31 is provided adjacent its outer extremity with a small aperture 32, generally about 0.15 mm in diameter. In this case, however, the aperture is not a suturing hole but rather is provided only to facilitate manipulation of the lens during the insertion thereof into the eye.
It will be apparent from the foregoing that the insertion of the lens 28 through the corneo-scleral incision in the eye will be effected in the same manner. i.e. by a «snaking in» procedure, as is described in connection with Figs. 5 and 6 for the lens 10 of our aforesaid application no., and the details of that description thus need not be repeated at this point. The ultimate position of the lens 29 will be different, however, in that the entire lens is positioned anteriorly of the iris, with the second portion 30″ of the first position fixation element 30 and the second section 31″ of the second position fixation element 31 seated in the lower and upper regions 33 and 34, respectively, of the groove behind the scleral spur 35. It can also be seen that by virtue of the provison of the lobes 30b and 30c on the portion 30″ of the position fixation element 30. the same will coact with the lobe or tip end 31a of the second section 31″ of the position fixation element 31 to provide a three-point support for the lens in the eye so as to maintain the lens body in proper position rclative to the pupil of the eye.
et another advantage of a lens 28 according to this embodiment of the present invention is that for any given implantation operation, the selection of a lens having a vertical dimension which is preciscly equal to, or in any event not greater than, the available space between the top and bottom lobe-seating regions of the groove behind the scleral spur of the paticnt’s eye is not a matter of critical conccrn for the surgeon. In this context, by «vertical dimcnsion» is meant the perpendicular distance between a plane tangent to the downwardly convex edge regions of the lobes or tips 30b and 30c of the second portion 30″ of the first position fixation element 30 and a parallel plane tangent to the upwardly convex edge region of the lobe or tip 31 a of the second section 31″ of the second position fixation element 31. Thus. in the lens 28 the medial transverse width of the second portion 30″ of the position fixation element 3() can be suffi cicntly reduced. for example by a suitable choice of the degree of concavity of the edge 30a, that if the surgeon happens to have used a lens which is slightly oversized by, say, a half millimeter or so with respect to the aforesaid available space in the eye, the portion 30″ will be able to flex upwardly a little so as to adapt itself to the eye without placing undue stresses on, and perhaps even damaging, the tissues in the groove. The same type of upward flexure may also be accommodated by a suitable choice of the transverse width of the end region of the first portion 30′ of the position fixation element 30 where that portion joins the second portion 30″. If desired, of course, the contemplated upward flexure capability may be achieved by an appropriate conjoint utilization of both these approaches.
WHAT WE CLAIM IS:
1. An intraocular lens suitable for use as an artificial lens implant, in which the lens has a medial. light-focusing lens body, and a pair of lateral position fixation elements connected with said lens body, a first of said position fixation elements having a first portion connected to and extending generally laterally outwardly from a first region of the periphery of said lens body, and a second portion extending from said first portion generally transversely thereto and at least partly peripherally of said lens body, said second portion having that part of its peripheral edge which faces said lens body spaced from the periphery of said lens body, and the second of said position fixation elements extending generally laterally outwardly from a second region of the periphery of said lens body spaced from and generally opposite said first region and in a direction generally opposite to that of said first portion of said first position fixation element. the configurations of said position fixation elements and their location with respect to said lens body being such that the minimum length of a projection of the entire lens onto a plane parallel to the optical axis of said lens body in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating the lens 360″ about said optical axis, is greater than the minimum length of a projection of said lens body onto said plane in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating said lens body 360″ about said optical axis, to an extent sufficient that insertion of the lens, through an incision in the eye, by a movement which is generally radial with respect to said optical axis would require the length of such incision to be greater than the minimum possible length of the incision which. as a function of the thickness and width of said lens body. would accommodate and permit passage therethrough of said lens body alone,
**WARNING** end of DESC field may overlap start of CLMS **.
Claims (9)
**WARNING** start of CLMS field may overlap end of DESC **. tion 30’ and section 31 ‘ of the two position fixation elements will be maintained out of contact with the iris 20 in the region of the pupil, thereby to minimize the possibility of the lens irritating the iris and interfering with the expansion and contraction of the pupil 22. Referring again to Fig. 1. it will be seen that the second section 31″ of the position fixation element 31 is provided adjacent its outer extremity with a small aperture 32, generally about 0.15 mm in diameter. In this case, however, the aperture is not a suturing hole but rather is provided only to facilitate manipulation of the lens during the insertion thereof into the eye. It will be apparent from the foregoing that the insertion of the lens 28 through the corneo-scleral incision in the eye will be effected in the same manner. i.e. by a «snaking in» procedure, as is described in connection with Figs. 5 and 6 for the lens 10 of our aforesaid application no., and the details of that description thus need not be repeated at this point. The ultimate position of the lens 29 will be different, however, in that the entire lens is positioned anteriorly of the iris, with the second portion 30″ of the first position fixation element 30 and the second section 31″ of the second position fixation element 31 seated in the lower and upper regions 33 and 34, respectively, of the groove behind the scleral spur 35. It can also be seen that by virtue of the provison of the lobes 30b and 30c on the portion 30″ of the position fixation element 30. the same will coact with the lobe or tip end 31a of the second section 31″ of the position fixation element 31 to provide a three-point support for the lens in the eye so as to maintain the lens body in proper position rclative to the pupil of the eye. et another advantage of a lens 28 according to this embodiment of the present invention is that for any given implantation operation, the selection of a lens having a vertical dimension which is preciscly equal to, or in any event not greater than, the available space between the top and bottom lobe-seating regions of the groove behind the scleral spur of the paticnt’s eye is not a matter of critical conccrn for the surgeon. In this context, by «vertical dimcnsion» is meant the perpendicular distance between a plane tangent to the downwardly convex edge regions of the lobes or tips 30b and 30c of the second portion 30″ of the first position fixation element 30 and a parallel plane tangent to the upwardly convex edge region of the lobe or tip 31 a of the second section 31″ of the second position fixation element 31. Thus. in the lens 28 the medial transverse width of the second portion 30″ of the position fixation element 3() can be suffi cicntly reduced. for example by a suitable choice of the degree of concavity of the edge 30a, that if the surgeon happens to have used a lens which is slightly oversized by, say, a half millimeter or so with respect to the aforesaid available space in the eye, the portion 30″ will be able to flex upwardly a little so as to adapt itself to the eye without placing undue stresses on, and perhaps even damaging, the tissues in the groove. The same type of upward flexure may also be accommodated by a suitable choice of the transverse width of the end region of the first portion 30’ of the position fixation element 30 where that portion joins the second portion 30″. If desired, of course, the contemplated upward flexure capability may be achieved by an appropriate conjoint utilization of both these approaches. WHAT WE CLAIM IS:
1. An intraocular lens suitable for use as an artificial lens implant, in which the lens has a medial. light-focusing lens body, and a pair of lateral position fixation elements connected with said lens body, a first of said position fixation elements having a first portion connected to and extending generally laterally outwardly from a first region of the periphery of said lens body, and a second portion extending from said first portion generally transversely thereto and at least partly peripherally of said lens body, said second portion having that part of its peripheral edge which faces said lens body spaced from the periphery of said lens body, and the second of said position fixation elements extending generally laterally outwardly from a second region of the periphery of said lens body spaced from and generally opposite said first region and in a direction generally opposite to that of said first portion of said first position fixation element. the configurations of said position fixation elements and their location with respect to said lens body being such that the minimum length of a projection of the entire lens onto a plane parallel to the optical axis of said lens body in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating the lens 360″ about said optical axis, is greater than the minimum length of a projection of said lens body onto said plane in a direction perpendicular to a projection of said optical axis on such plane which can be achieved by rotating said lens body 360″ about said optical axis, to an extent sufficient that insertion of the lens, through an incision in the eye, by a movement which is generally radial with respect to said optical axis would require the length of such incision to be greater than the minimum possible length of the incision which. as a function of the thickness and width of said lens body. would accommodate and permit passage therethrough of said lens body alone,
the maximum dimensions of each of said position fixation elements at any part thereof being such that the element can be accommodated in and pass longitudinally through said minimum length incision in the eye, and said second portion of said one position fixation element having the middle region of that part of its peripheral edge which faces away from said lens body disposed closer to said lens body than the opposite end regions of that edge, the ends of said second portion of said one position fixation element and said tip end region of said other position fixation element providing a three-point support for positioning the lens in the eye.
2. An intraocular lens as claimed in claim 1 wherein said second portion of said first position fixation element is arcuately concave in the middle region of that part of its peripheral edge which faces away from said lens body and is arcuately convex at the opposite end regions of that edge, and said second position fixation element is arcuately convex at that part of its peripheral edge which faces away from said lens body, the convex edge regions of the ends of said second portion of said first position fixation element and the convex edge region of the tip end region of said second position fixation element providing said three-point support.
3. An intraocular lens as claimed in claim 1 or 2 wherein said first portion of said first positon fixation element is inclined posteriorly of said lens body from said first region of said periphery thereof, and said second portion of said first position fixation element is disposed posteriorly of said lens body and in a plane substantially parallel to the plane of said lens body, and wherein said second position fixation element has a first section and a second section, said first section being contiguous with said lens body and inclined posteriorly of the same from said second region of said periphery thereof, and said second section extending from said first section and being disposed posteriorly of said lens body and in a plane substantially parallel to the plane of said lens body.
4. An intraocular lens as claimed in claim 3 wherein said second portion of said first position fixation element and said second section of said second position fixation element are disposed in substantially coplanar relation with each other.
5. An intraocular lens as claimed in claim 4 wherein said second position fixation element is provided, in said second section thereof, with a small aperture to facilitate manipulation of the lens during an implantation operation.
6. An intraocular lens as claimed in claim 4 or 5 wherein the respective inclinations of said first portion of said first position fixation element and said first section of said second position fixation element are such that the common plane of said second portion of said first position fixation element and said second section of said second position fixation element is spaced between about 0.25 mm and about 0.75 mm from said plane of said lens body.
7. An intraocular lens as claimed in any of claims 1 to 6 wherein the medial transverse width of said second portion of said second position fixation element is such that the free end region of said second portion can flex slightly in the direction of said lens body and said second position fixation element.
8. An intraocular lens as claimed in any of claims 1 to 7 wherein the transverse width of said first portion of said first position fixation element is such that said second portion of said one position fixation element can flex slightly in the direction of said lens body and said other position fixation element.
9. An intraocular lens suitable for use as an artificial lens implant substantially as herein before described with reference to and as illustrated in Figures 1 to 3 of the accompanying drawings.
GB46628/77A
1977-04-28
1977-11-09
Intraocular lenses
Expired
GB1591877A
(en)
Applications Claiming Priority (1)
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Priority Date
Filing Date
Title
US05/791,693
US4092743A
(en)
1976-10-04
1977-04-28
Intraocular lenses
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GB1591877A
true
GB1591877A
(en)
1981-07-01
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GB1591877A
(en)
1977-04-28
1977-11-09
Intraocular lenses
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AU511459B2
(en)
CA
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CA1086005A
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DE2749726A1
(en)
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FR2388542A1
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GB1591877A
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Cited By (1)
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Priority date
Publication date
Assignee
Title
EP1196115A1
(en)
*
1999-03-31
2002-04-17
Miles A. Galin
Positive power anterior chamber ocular implant
Families Citing this family (5)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US4418431A
(en)
*
1981-12-17
1983-12-06
Feaster Fred T
Intraocular lens
US4573998A
(en)
*
1982-02-05
1986-03-04
Staar Surgical Co.
Methods for implantation of deformable intraocular lenses
JPS6010825U
(en)
*
1983-07-04
1985-01-25
カルソニックカンセイ株式会社
shroud
DE19637693A1
(en)
1996-09-09
1998-03-12
Potsdamer Augenklinik Im Albre
Deformable artificial intraocular eye lens
WO2005055875A2
(en)
*
2003-12-09
2005-06-23
Advanced Medical Optics, Inc.
Foldable intraocular lens and method of making
Family Cites Families (7)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
DE959314C
(en)
*
1953-12-01
1957-03-07
Dr Med Josef Scharf
Artificial lens
FR1103399A
(en)
*
1953-12-22
1955-11-02
Microttica
Lenses intended for application in the anterior chamber of the eye
DE1034325B
(en)
*
1955-05-02
1958-07-17
Dr Med Helmut Dannheim
Artificial lens
GB810232A
(en)
*
1956-07-31
1959-03-11
Nissel And Company Ltd G
Improvements in artificial intraocular lenses
BE795326A
(en)
*
1972-02-28
1973-05-29
Lapeyre Gabriel E R
DENTAL PROSTHESIS FIXATION DEVICE
US3906551A
(en)
*
1974-02-08
1975-09-23
Klaas Otter
Artificial intra-ocular lens system
DE2525377A1
(en)
*
1975-06-06
1976-12-16
Inprohold Ets
Dioptric lens prosthesis for human eye – having two discs hermetically sealed together and to side fastening lugs
1977
1977-10-31
CA
CA289,884A
patent/CA1086005A/en
not_active
Expired
1977-11-02
ZA
ZA00776522A
patent/ZA776522B/en
unknown
1977-11-02
IL
IL53289A
patent/IL53289A/en
unknown
1977-11-07
DE
DE19772749726
patent/DE2749726A1/en
active
Granted
1977-11-09
GB
GB46628/77A
patent/GB1591877A/en
not_active
Expired
1977-11-14
JP
JP13577577A
patent/JPS53135349A/en
active
Granted
1977-11-21
AU
AU30818/77A
patent/AU511459B2/en
not_active
Expired
1977-12-28
FR
FR7739456A
patent/FR2388542A1/en
active
Granted
Cited By (3)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
EP1196115A1
(en)
*
1999-03-31
2002-04-17
Miles A. Galin
Positive power anterior chamber ocular implant
EP1196115A4
(en)
*
1999-03-31
2002-10-25
Miles A Galin
Positive power anterior chamber ocular implant
US7014656B2
(en)
1999-03-31
2006-03-21
Novartis Ag
Positive power anterior chamber ocular implant
Also Published As
Publication number
Publication date
IL53289A0
(en)
1978-01-31
IL53289A
(en)
1980-02-29
AU3081877A
(en)
1979-05-31
DE2749726A1
(en)
1978-11-02
JPS5740782B2
(en)
1982-08-30
JPS53135349A
(en)
1978-11-25
FR2388542A1
(en)
1978-11-24
CA1086005A
(en)
1980-09-23
ZA776522B
(en)
1978-08-30
AU511459B2
(en)
1980-08-21
FR2388542B1
(en)
1983-11-10
DE2749726C2
(en)
1988-06-01
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Legal Events
Date
Code
Title
Description
1981-09-16
PS
Patent sealed [section 19, patents act 1949]
1995-07-05
PCNP
Patent ceased through non-payment of renewal fee
Effective date:
19941109