RU2248771C1 - Artificial eye lens - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has optical and rest part. It is manufactured as monolith from flexible biocompatible material. The optical part has zero slightly negative or slightly positive diopter force. Curvature radius of the lower surface of the optical part matches curvature radius of anterior surface of the native eye lens. The rest part is manufactured as circular crimp seal from both sides of the optical part of equal thickness. The optical part is curved towards iris. Its thickness is equal to at least 1/3 of rest part thickness and its external diameter corresponds to ciliary sulcus diameter.

EFFECT: improved accommodation reserves of eye.

2 cl, 2 dwg

Description

The invention relates to medicine, more specifically to ophthalmology, and can be used to treat ametropia by implanting an artificial eye lens in the back chamber of a phakic or artifactic eye.

Known artificial lens of the eye, containing the optical and supporting part, made as a monolith from a biocompatible elastic material for implantation in the posterior chamber of the phakic eye (RF Pat. No. 2084207, 1997), the optical part of which has a positive diopter. However, the design of this artificial lens of the eye does not provide accommodative physiological function.

An object of the invention is the creation of a design of an artificial lens of the eye, which allows to increase accommodation reserves.

The technical result according to the invention is achieved by the fact that in an artificial lens of the eye containing the optical and supporting parts, made as a monolith from an elastic biocompatible material, the optical part is made with zero, positive or negative diopter, the radius of curvature of its lower surface corresponds to the radius of curvature of the anterior surface of the native lens eyes, the supporting part is made in the form of a circular flanging on both sides of the optical part of the same thickness, while the optical part curved towards the iris, the thickness of the optical part is not less than 1/3 of the thickness of the supporting part, and the outer diameter of the supporting part corresponds to the diameter of the ciliary groove; while the supporting part is made with at least two radial through-cuts, decreasing towards the optical part, forming petals located at the same distance from each other. According to the invention, if it is necessary to enhance the refractive power of the eye, the ciliary muscle contracts reflexively and the thin optical part bends anteriorly, into the pupil region, moving away from the surface of the native or artificial lens of the eye, which ensures close vision, thus increasing accommodation reserves, the artificial eye lens can be considered as an additional layer of cortical substance of the native lens of the eye, which increases the refractive effect.

The artificial lens of the eye according to the invention is illustrated in the drawing, where Fig.1 shows a top view and from the side; figure 2 shows a diagram of the implantation of an artificial lens of the eye.

The artificial lens of the eye (figure 1) contains the optical part 1, the supporting part is the flange 2 on both sides of the optical part 1, while the optical part 1 is curved towards the iris, and the radius of curvature R _{1 of} its lower surface corresponds to the radius of curvature R of the front surface of the native lens of the eye, slit 3.

The artificial lens of the eye according to the invention can be made of silicone, hydrogel, collagen or other optically transparent biocompatible elastic material with dioptricity up to -3D, up to + 3D or with zero.

Figure 2 shows a diagram of the implantation of an artificial lens of the eye, which shows the native lens of the eye 4, cilinary groove 5, placed in it the supporting part 2, the iris 6.

The method of implanting an artificial lens of the eye is as follows.

Before the operation, the patient’s eyes are instilled with mydriatics. Anesthesia and akinesia are common, without features. When implanting an artificial lens, several types of approaches can be applied: corneal, limbal, cornscleral.

The support element is inserted into the iridociliary sulcus, and the lower surface of the optical part is placed on the front surface of the native or artificial lens.

After implantation of an artificial lens, the surgical incision is sealed by suturing.

After implantation into a phakic and artifact eye with an electrophoreic refraction of an artificial lens with zero diopter, the distance vision does not change, and near vision improves. After implantation in a phakic and artifact eye with myopia or hyperopia of a weak and medium degree artificial lens with positive or negative diopter, vision improves both at a distance and at close range.

Example: Patient A., 45 years old, came to the clinic complaining of a sharp deterioration in her near vision. Profession accountant, constant visual load at different distances. Corrective glasses does not tolerate well. Diagnosed with: Emetria, phacosclerosis, presbyopia of both eyes.

During the examination: visual acuity of both eyes into the distance = 1.0.

Near vision without correction - 0.1 with a sphere of + 1.5D-1.0.

The proposed phakic artificial eye lens with zero optics was implanted.

After the operation, the electrometric refraction of the eye was preserved. Vision at a distance and at close range = 1.0.

Claims (2)

1. An artificial lens of the eye, containing the optical and supporting parts, made as a monolith of an elastic biocompatible material, the optical part of which has a positive diopter, characterized in that the optical part can also be made with zero or negative diopter, the radius of curvature of its lower surface corresponds to the radius curvature of the anterior surface of the native lens of the eye, the supporting part is made in the form of a circular flanging on both sides of the optical part of the same thickness, at The optical part is curved towards the iris, the thickness of the optical part is not less than 1/3 of the thickness of the supporting part, and the external diameter of the supporting part corresponds to the diameter of the ciliary groove. 2. The artificial lens of the eye according to claim 1, characterized in that the supporting part is made with at least two radial through-cuts, decreasing to the optical part, forming petals located at the same distance from each other.

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