RU2033113C1 - Artificial crystalline lens - Google Patents

Abstract

FIELD: ophthalmology. SUBSTANCE: holes for fastening of supporting members of artificial crystalline lens located on lens end face are oval in its perpendicular cross-section whose large axis is parallel to lens main plane. EFFECT: reduced thickness of lens cylindrical part resulted in decreased mass of artificial crystalline lens with preserved rigidity of supporting members that diminishes postoperative complications such as flaccid uveitis and secondary hypertension. 3 cl, 2 dwg

Description

 The invention relates to medicine, namely to ophthalmology, and can be used as an implantable artificial eye lens.

 Known for the artificial lens of the eye, containing the optical part with fastening nodes located on its periphery, each of which consists of two round holes whose axes intersect, one of the holes is made in the end part of the lens, its axis is parallel to the main speed of the lens, and the axis of the second hole, made through, oriented from one optical surface of the lens to another and perpendicular to the axis of the first.

 However, if there are round fixing holes in the artificial lens, the eyes from optically transparent glassy and crystalline materials, such as sapphire, spinel, etc. cannot reduce the thickness of the cylindrical part in order to reduce its stiffness mass, which can lead to such postoperative complications as sluggish uveitis, secondary hypertension.

 The objective of the invention is to improve visual functions when implanting artificial lenses from optically transparent glassy and crystalline with low weight, but with the preservation of the rigidity of the support elements.

 The technical result achieved by using the invention is to reduce the thickness of the cylindrical part of the lens, which leads to a decrease in its mass while maintaining the rigidity of the support elements by making holes in the form of an oval of fastening nodes facing the end surface of the lens, the major axis of which is parallel to the main axis of the lens plane .

Since, for example, sapphire has a high density (ρ 4 g / cm ³ ), with round fastening holes facing the end surface, fiber arches with a large diameter are forced to make, which leads to an increase in the thickness of the cylindrical part of the artificial lens, thereby increasing its mass, which leads to an increase in postoperative complications.

 And when making each hole of the mounting unit that faces the end surface of the lens, in the form of an oval, the large axis of which is parallel to the main plane of the lens, it allows to reduce the thickness of the cylindrical part of the artificial lens, thereby reducing its weight while maintaining the rigidity of the support elements.

 In FIG. 1 shows the lens, general view; figure 2 is the same side view with holes for mounting the supporting elements.

 The artificial lens contains a lens 1 and support elements 2. On the periphery of the optical part are mounting nodes, each of which consists of two cylindrical holes, while the axis of one of the holes 3, made through, is oriented from one optical surface to another, and the axis of the other hole 4 is parallel to the main plane of the lens, while the hole 4 is made in the form of an oval, the major axis of which is parallel to the main plane of the lens. In this case, the ratio of the largest hole size of the mounting unit to its smallest size lies in the range of 0.89-0.3, and each hole of the mounting unit extending to the surface of the lens can be made in the form of an ellipse, the major axis of which is parallel to the main plane of the lens.

 This artificial lens is implanted according to the usual procedure for posterior chamber lenses.

 Implantation of the proposed IOL is indicated for aphakia and post-extracapsular cataract extraction of any etiology.

 The proposed artificial lens was implanted in 16 patients after extracapsular cataract extraction with a positive effect.

 PRI me R. Patient G., 47 years old. Diagnosis: OD cataract is almost mature. Visual acuity: OD 0.01, OS 1.0. An IOL implantation operation was performed with a ratio of a smaller hole diameter 4 to a larger 0.9. IOL with an optical power of 20.0 D. The operational and postoperative periods passed without complications. IOL in the posterior chamber upon examination on the 3rd day and after 5 months.

 Thus, the implantation of such an artificial lens made of vitreous and crystalline materials with the proposed technique of fastening the supporting elements has wide indications for cataracts of various etiologies, ensuring the stability of the position of the lens in the eye, reducing postoperative complications by eliminating low-flow uveitis, and secondary hypertension.

Claims (3)

 1. ARTIFICIAL EYE CRYSTAL, containing the optical part with fastening nodes located on its periphery, each of which consists of two cylindrical holes whose axes intersect, one of the holes is made in the end part of the lens, its axis is parallel to the main plane of the lens, and the axis of the second hole made through, is oriented from one optical surface of the lens to another and is perpendicular to the axis of the first, characterized in that each hole of the mounting node facing the end surface of the lens It is in the form of an oval, the major axis of which is parallel to the main plane of the lens.  2. The lens of the eye according to claim 1, characterized in that the ratio of the largest hole size of the mounting unit to its smallest size lies in the range of 0.99-0.3.  3. The lens of the eye according to claims 1 and 2, characterized in that each hole of the mounting unit, facing the end surface of the lens, is made in the form of an ellipse, the major axis of which is parallel to the main plane of the lens.

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