RU2066149C1 - Artificial intraocular implants - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has central symmetric rest part made from a flexible material in the form of toroid members. The rest part has the form of solid closed toroid. EFFECT: improved functional results; prevented postoperative complications. 1 dwg

Description

 The invention relates to medicine, and in particular to ophthalmology, and can be used for the prevention of postoperative complications in aphakia after extracapsular cataract extraction.

Known artificial intraocular implant EP 0579528, containing a toric element in the region of the supporting part, occupying part of the circle. The implant EP 0579528 is intended for the correction of postoperative aphakia. However, this intraocular implant has several disadvantages:
1. The technical difficulty of implantation in the capsular bag with a narrow rigid pupil and through a minimum surgical incision, due to the fact that it cannot be folded to a minimum size.

 2. Partial blocking of the equatorial germinal zone of the lens epithelium, since the equatorial part of the lens sac is located throughout the entire circumference, and the implant in the region of its supporting elements is only part of the circle.

 The most common, currently, extracapsular cataract extraction technique involves restoring the capsule bag inside the operated eye. The internal cavity of the capsular bag is filled with intraocular moisture, which is not able to restore the anatomical and physiological interactions between the capsule bag, the zinc cortex and the ciliary body, which can lead to postoperative complications, such as fibrosis of the posterior capsule, iridocyclitis, macular edema, and retinal detachment. Restoring the anatomy of the operated eye is relevant.

 The objective of the invention is the creation of an artificial implant for the correction of aphakia.

 The technical result of the invention is to reduce the morbidity of the operation and the prevention of postoperative complications.

 The technical result is achieved in that in an artificial intraocular implant containing a centrally symmetrical supporting part made of an elastic material in the form of toroid elements, according to the invention, the supporting part is made in the form of a single closed toroid. This form of the implant allows you to implant it in a compressed form through a minimum surgical incision (3-4 mm) through a pupil of any diameter and completely expand the capsular bag around the entire circumference. The full expansion of the capsular bag and blocking the equatorial growth zone of the lens is the prevention of postoperative complications, in particular fibrosis of the posterior lens capsule.

 The invention is illustrated in the drawing, which shows a General view and side view of an artificial intraocular implant.

 An artificial intraocular implant contains a centrally symmetrical supporting part in the form of a solid closed toroid. Implantation is carried out as follows: after removing the nucleus of the natural crystalline lens and removing residual crystalline masses by any known methods, the implant is inserted into the capsule bag in laterally compressed form through a 3-4 mm incision, the implant is independently straightened in the equatorial part of the capsular bag under the visual control of the surgeon.

 Due to the combination of distinctive features indicated in the claims, the artificial intra-ocular implant is easily placed in a capsular bag, spreads it completely blocks the equatorial sprouting zone of the lens epithelium. Implantation does not require additional technical complex devices. During implantation, the implant glides freely and atraumatically through the minimum incision and through the pupil of any diameter.

 In the postoperative period, there were no specific complications as a result of implantation, as well as signs of excessive trauma to the eye (corneal edema, iris atrophy, iridocyclitis, increased intraocular pressure).

 Example 1. Patient P., 60 years old, a pensioner, was admitted with a diagnosis of high myopia, complicated cataract. Visual acuity at admission 0.01 n / a, eye length 30 mm. After prophylactic cryopexy, three months later, an extracapsular cataract extraction operation was performed using an implant. The operation took place without complications, visual acuity after surgery is 0.5 and lasts for 1 year. On the fundus expressed dystrophic changes in myopic etiology.

 During biomicroscopy, the posterior capsule is sealed, parallel to the iris, no iridonez is observed, the pupil is round in shape, the pupil’s reaction to light is preserved.

 Example 2. Patient H., 45 years old, a worker, was admitted with a diagnosis of Traumatic cataract of the right eye, postoperative efakiya, a hernia of the vitreous body after dyscision of secondary cataract of the left eye. Visual acuity: right eye 0.1 n / a, left eye 0.1 sph + 10 diopters 0.5 n / a. The fundus of the left operated eye is poorly visible due to the destruction of the vitreous body, in the macular area of the retina dystrophic changes after undergoing macular edema.

 After prophylactic cryopexy, three months later, an extracapsular cataract extraction was performed using an implant on the right eye. The operation was uneventful, visual acuity after surgery 0.5 sph + 10 diopters 1.0 and lasts for 1 year. The fundus without features.

 During biomicroscopy, the posterior capsule is sealed, parallel to the iris, no iridonez is observed, the pupil is round in shape, the pupil’s reaction to light is preserved. The vitreous is completely transparent.

Claims (1)

 An artificial intraocular implant containing a centrally symmetrical supporting part made of an elastic material in the form of toroid elements, characterized in that the supporting part is made in the form of a single closed toroid.