RU2061438C1 - Artificial eye lens - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has optical lens, supporting members pivotally attached to the peripheral part of the optical lens and directed with their free ends from the edge to the center. Openings for fixing the device to the iris along the pupil edge are made on the ends of the supporting members adjacent to the central part of the optical lens. Recesses are made in the optical lens at the points where the supporting members are located. EFFECT: enhanced effectiveness in correcting vision function. 2 cl, 4 dwg

Description

 The invention relates to medicine, specifically to ophthalmology and can be used to correct aphakia.

 Also known is the artificial lens of the eye (A.S. USSR N 1736478, class A 61 P 2/16, 1992), which consists of an optical and a support part, while the support part is made in the form of two diametrically opposite protrusions located in the plane of the lens moreover, the protrusions are interconnected by connecting elements with a serrated edge.

 A disadvantage of the known lens is its lack of participation in the physiological act of accommodation, because the design of the artificial lens model does not provide for a change in its position in the optical system of the eye. In addition, the design of the lens is difficult to manufacture.

 As the closest technical solution adopted artificial lens, consisting of an optical lens and support elements, described in US Pat. USA N 2171912, CL A 61 P 2/16, 1986.

 This artificial lens, adopted as a prototype, is also not involved in the physiological act of accommodation, because its position in the optical system of the eye does not change. Its design is also quite complicated to manufacture.

 We set the task of creating a model of the artificial lens that provides the highest corrective properties, including it in the physiological act of accommodation, by changing the position of the artificial lens in the optical system of the eye by approaching or moving away from the retina.

 The problem is solved by an artificial lens consisting of an optical lens and support elements pivotally mounted on the peripheral part of the optical lens and oriented with free ends from the edge to its center. Moreover, holes for fixing to the iris along the edge of the pupil are made at the ends of the support elements adjacent to the central part of the optical lens, and recesses are made in the optical lens at the locations of the support elements.

 The proposed artificial lens in the act of physiological accommodation of the eye is included as follows.

 When accommodating the eye, the pupil becomes narrower due to the regulation of the optic nerves. In this case, supporting elements pivotally attached to the optical lens will move the lens closer to the cornea, which causes increased refraction of the eye. With the expansion of the pupil, the opposite phenomenon occurs, that is, the lens is removed from the cornea, the refraction of the eye is weakened.

 The use of the proposed artificial lens provides higher corrective results when viewing objects at different distances without additional corrective devices.

 Figure 1 shows an artificial lens, front view; figure 2 is the same, a section aa in figure 1; in Fig.3 node l in Fig.2; figure 4 the position of the artificial lens in the posterior chamber of the eye.

 The proposed artificial lens consists of an optical lens 1, support elements 2 in an amount of at least three, for reliable fixation of it in relation to the optical axis of the eye, which are hinged to the peripheral part of the optical lens 1 and are oriented with their free ends from the edge of the optical lens 1 to its center . At the same time, at the ends of the supporting elements 2 adjacent to the central part of the optical lens 1, holes 4 are made for fixing to the iris along the edge of the pupil. In the optical lens 1 in the locations of the support elements are made recesses. The axis 3 of the hinges are located around the perimeter of the optical lens 1 along the sector of the circumference of the lens.

 The implantation of the proposed artificial lens is as follows.

 After extraction of the cataract lens, the proposed artificial lens is captured with tweezers and inserted through the pupil into the posterior chamber of the eye. The distal ends of the supporting elements 2 using a surgical suture are fixed to the tissue of the iris 5 along the edge of the pupil.

 The proposed artificial lens in the act of physiological accommodation as follows.

 When accommodating the eye, the pupil narrows, due to the regulation of the visual centers. In this case, the supporting elements 2, pivotally fixed to the optical lens 1, will move the lens closer to the cornea, which causes increased refraction of the eye.

 With the expansion of the pupil, the reverse phenomenon occurs, the lens is removed from the cornea, while the refraction of the eye is weakened.

 The use of the proposed artificial lens provides higher corrective results when examining objects at different distances without additional corrective devices. YYY2

Claims (1)

 An artificial lens consisting of an optical lens and support elements, characterized in that the support elements are pivotally mounted on the peripheral part of the optical lens and oriented with their free ends from the edge to its center, with holes made at the ends of the support elements adjacent to the central part of the optical lens for fixing to the iris along the edge of the pupil, and in the optical lens in the locations of the supporting elements, recesses are made.

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