RU2294174C2 - Intraocular lens - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has optical and supporting parts manufactured from materials of different rigidity. The optical part is removable and has at least three leaflets. Leaflet bases are connected to optical part periphery. The supporting part is ring-shaped and has two diametric projections manufactured as flat curvilinear figures in the same plane and as a whole with the supporting part. The optical part projections are manufactured from flexible magnetic polymer material having magnetic field of its own of 3-4 mTesla units and lower surfaces of the projections having magnetic poles of the same name. Internal ring-shaped notch is available on the upper side of the supporting part. Lining members are available on notch base for fixing optical part projections. The distance between the lining members is equal to distance between the optical part projections. The lining members are congruent projections manufactured from flexible magnetic polymer material having magnetic field of its own of 3-4 mTesla units. The upper surfaces of the lining members have magnetic poles of opposite polarity to those of the lower surfaces.

EFFECT: reduced risk of traumatic complications.

4 dwg

Description

The invention relates to medicine, more specifically to ophthalmology, and can be used in the surgical treatment of cataracts or in the presence of residual ametropia in the postoperative period.

During cataract extraction against a background of high degree ametropia, in the case of a postoperative error in calculating the optical power of the artificial lens of the eye (IHG), the replacement of the optical part is very relevant for more accurate adjustment of the patient's vision to achieve the highest possible visual functions.

The closest analogue to the solution of the technical problem is IHG (RU 25404 U1, A 61 F 9/00), containing the optical part and the support element made of materials with different stiffness.

However, when ametropia is corrected in the postoperative period, replacing only the optical part of this IHG is problematic, since great effort must be applied, which will inevitably lead, for example, to rupture of the zinc ligaments or capsule bag, which have a very delicate structure, therefore, the known IHG must be removed entirely.

An object of the invention is the creation of an IHG design with the aim of correcting ametropia in the postoperative period in order to reduce the invasiveness of surgical intervention when replacing the optical part.

The technical result according to the invention is achieved by the fact that in an IHG containing an optical part and a support element made of materials with different stiffnesses, the optical part is removable and contains at least three protrusions in the form of petals, the bases of which are connected to the periphery of the optical part, and the support element is made in the form of a ring with two opposite protrusions arranged in its plane and made for one with it in the form of flat curvilinear figures, while the protrusions of the optical part are made of elastic polymeric magnetic material having its own constant magnetic field with a magnetic induction of 3-4 mT with the same magnetic poles on the lower surfaces of the protrusions, an internal annular groove is made at the top of the support element, on the basis of which, to fix the protrusions of the optical part, there are overlays at a distance corresponding to the distance between protrusions having its own constant magnetic field with a magnetic induction of 3-4 mT, and the upper surfaces of the plates are made with magnetic poles , Opposite magnetic poles on the lower surfaces of the optical portion of the projections.

IHG can be performed with a diameter of the optical part equal to from 3.5 to 8.0 mm The inner diameter of the ring of the support element is equal to the diameter of the optical part. In this case, the optical part can be made of elastic material, and the support element is made of polymethylmethacrylate or poly-2-hydroxyethylmethacrylate.

The protrusions of the optical part and the lining are performed on a support element made of an elastic polymer material having its own constant magnetic field with a magnetic induction of 3-4 mTl, which is necessary and sufficient for strong fixation of the optical part to the support element and for easy atraphatic replacement of only the optical part of the IHG while correcting the rest ametropia in the postoperative period.

The invention is illustrated by drawings, where in Fig.1 shows a General top view of the IHG, in Fig.2 - section aa in Fig.1; figure 3 is a support element top view, figure 4 is an optical part, a view from below.

The IHG according to the invention comprises an optical part 1 with protrusions 2, 3 and 4 at its periphery of elastic magnetic material and a support element 5 in the form of a ring 6 with two diametrically located protrusions 7 and 8 lying in its plane; at the same time, an annular groove 10 is made on the upper surface 9 of the ring 6, on the basis of which there are pads 11, 12 and 13 (films) made of elastic permanent magnetic material.

Moreover, the lower surfaces 14, 15 and 16 (Fig.6) of the protrusions 2, 3 and 4 have magnetic poles opposite to the magnetic poles on the surface of the plates 11, 12 and 13.

Implantation of IHG is carried out as follows.

Under local anesthesia, a corneoscleral incision with a tunnel profile is performed, hemostasis is performed, anterior paracentesis is filled with viscoelastic material, anterior lens capsulotomy and thorough hydrodissection and hydrodelineation are performed. Next, the nucleus is removed and the masses of the lens are aspirated, then the capsule bag is filled with viscoelastic material and IHG is implanted.

Viscoelastic material is carefully removed from the anterior chamber and from the surface of the IHG, a nodal suture is placed on the surgical wound. The operation is completed by aspiration of the lens masses, then the capsule bag is filled with viscoelastic material and implanted with IHG.

Viscoelastic material is carefully removed from the anterior chamber and from the surface of the IHG, a nodal suture is placed on the surgical wound. The operation is completed with a subconjunctival injection of dexazone with an antibiotic and an aseptic eye patch.

Example: patient O. 47 years old, was admitted with a diagnosis of moderate hypermetry, complicated cataract of the right eye. Visual acuity of the right eye at admission 0.005 n / a. Preoperative refraction OD = cf + 4.76 cyl + 0.76 axis 87.

Phacoemulsification of cataract with implantation of IHG + 26D according to the invention was carried out. 1 week after surgery, visual acuity OD = 0.2 sf + 2.0 cyl - 1.5 axis 130 = 0.8. For near vision, + 6.0D glasses were required. The patient was not satisfied with the result of the operation, therefore, the optical part was replaced with a stronger one (+ 30D). The operation and the postoperative period - without complications. There were no technical complications when replacing the optical part.

Visual acuity after a repeated operation of replacing the optical part OD = 0.6 sf - 0.5 cyl - 1.0 axis 125 = 0.9. Correction near with glasses +2.5.

Claims (1)

An artificial eye lens containing an optical part and a support element made of materials with different stiffness, characterized in that the optical part is interchangeable and contains at least three protrusions in the form of petals, the bases of which are connected to the periphery of the optical part, and the support element made in the form of a ring with two opposite protrusions arranged in its plane and made for one with it in the form of flat curvilinear figures, while the protrusions of the optical part are made of elastic polymer m magnetic material having its own constant magnetic field with a magnetic induction of 3-4 mT with the same magnetic poles on the lower surfaces of the protrusions, an internal annular groove is made at the top of the support element, on the basis of which, to fix the protrusions of the optical part, there are overlays at a distance corresponding to the distance between the optical protrusions parts made of coengruet protrusions and of an elastic polymer magnetic material having its own constant magnetic field with with a magnetic induction of 3-4 mT, and the upper surfaces of the plates are made with magnetic poles opposite to the magnetic poles on the lower surfaces of the protrusions of the optical part.

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