SU1123685A1 - Artificial eye lens - Google Patents

Abstract

ARTIFICIAL CRYSTAL OF THE EYE, containing a lens and diametrically arranged supporting elements in the form, of loops, the bottom of which covers a quarter of the lens circumference, characterized in that, in order to reduce trauma to the eye tissues when implanted into the posterior chamber after intracapsular cataract, it is equipped yarns of biologically inert material to connect the supporting elements to each other, and yiuki are made on the sides of the supporting elements, while the lug-shaped ends of the upper loop are bent toward the lens by 2/3 the height of the loop and is inclined toward the front surface of the lens at an angle of 15-20 °. relative to the main plane of the lens, the upper loop is inclined towards the rear surface of the lens at an angle of 8-10 ° & relative to the main plane of the lens and connected through the ears with a thread movably, and the bottom is inclined at the same angle towards the front surface of the lens and connected through the ears with the thread rigidly.

Description

11: c) Benturing refers to medicine, namely ophthalmology, and can be used for implantation after removal of a cataract. An artificial lens is known, consisting of a lens and support legs, of which at least one is looped. The looped shape of the legs serves to hold HIBOBs that attach the lens to the iris. The disadvantage of this artificial x) apparatus is that its implantation with the filing of 2 loop-shaped legs in 2 diameters. 1 opposite to the iris is technically difficult, especially when fixing in the lower part of the iris . With one loop-shaped (second) leg, the second leg has a pointed shape and is inserted into the puncture of the iris, which does not preclude its dislocation during pupil dilation. Introducing the lower pointed leg into the puncture of the iris presents additional technical difficulties in implanting an artificial lens into the posterior chamber. The closest to the technical essence and the achieved effect to the proposed is an artificial lens of the eye, containing the lens and diametrically arranged supporting elements in the form of loops, the lower of which covers less than a quarter of the lens circumference. 2. The disadvantage of this lens is the practical impossibility of implanting it in the posterior chamber during intracapsular cataract extraction due to the high probability of dislocation of its vitreous body, due to the design of the upper support element having a knee-bend and eye at the top of the bend. Filing the upper support frame: an appliance to the iris provides a secure fit only in the lateral directions and eliminates anterior displacement. When patients are placed upside down, the lens under the act of gravity can be desperately descended into the vitreous in the case of intracapsular cataract extraction. The purpose of the invention is to reduce the trauma of the eye carcinoma during implantation into the posterior chamber while carrying out intracapsular cataract extraction. The goal is achieved by the fact that an artificial crust of the eye, containing a lens and diametrically disposed support elements in the form of a web, the lower of which covers at least a quarter of the lens circumference, is equipped with threads of biologically inert material to connect the support elements to each other, and on the sides of the supporting elements, the races are made, while the lug-shaped ends of the upper loop are bent toward the lens by 2/3 of the net height and tilted towards the front surface of the lens at an angle of 15-20 ° relative to the main plane these lenses, with the upper loop tilted towards the back surface of the lens at an angle of 8-10 ° relative to the main plane of the lens and connected movably through ynjKO, and the bottom tilted at the same angle towards the non-average lens surface and connected through HI to the thread hard. The inclination of the 8-10 ° support elements is selected taking into account the anatomy of the posterior chamber of the eye, which, after removal of the cataract, represents a slit-like space 0.5 to 0.75 mm wide. A slope of 8–10 ° allows the lens to be removed from the back surface of the iris by 0.25–0.5 mm and thus reduce the possibility of injury to the pigment epithelium when the pupil moves. A large angle of inclination increases the pressure on the anterior vitreous membrane, which can lead to damage and a smaller angle of incidence causes injury to the pigment layer of the iris during the contraction and expansion of the pupil. The inclination angle of the eye-shaped ends of one of the loop-shaped support elements by 15–20 ° reduces the injury to the iris when holding the threads coming from the opposite supporting element, as it makes it easier to find the gaps below the iris. With a meager angle of inclination of the vortex ends, they do not cause the iris stroma to replenish, which makes it difficult for the needle to pass through the eyelet. When the angle of inclination is large, excessive bulging of the iris occurs, which can deform the pupil. The process of nodshshvani eye-shaped ends of the upper support element determines the length of the bent part (2/3 of the height of the loop). When the meninge part is bent, there is a risk of displacement of the lens into the vitreous body, and the risk of bleeding from the iris vessels in the root canal also increases. With a greater length of the bent part, there is a sudden deformation of the pupil due to the proximity of the seam to the mental zone. FIG. 1 shows an artificial lens, front view; in fig. 2 the same, side view; in fig. 3 - the same, with a folded base plate. in fig. 4 living lens in the eye, frontal projection; in fig. 5 - the position of the lens in the eye, the sagittal projection. The artificial lens of the eye contains a lens 1 and diametrically arranged supporting elements 2 and 3 in the form of loops, with the lower supporting element 3 encompassing at least a quarter of the length of the circumference / cords 1. The supporting elements are on the sides and have ears 4, while the uni-like ends 5 of the loop 2 The lenses 1 are bent towards 2/3 of the height of the loop 2 and inclined towards the front surface of the lens under the angle (15-20 ° relative to the main plane 6 of the lens, and the loop 2 itself is inclined towards

The back surface of the lens I is iodine with an angle of 8-10 ° relative to the main edge of the lens and connected via lugs 4 to the nnty 7 of biologically inert material and it is motionless, and the lower loop 3 inclines the floor with the same angle of 8-10 ° towards the front surface of the lens 4 with thread hard.

When the artificial lens is implanted into the posterior chamber, both supporting elements are placed behind the iris, the threads 7 pass through the eye-shaped ends in the upper supporting element of the corresponding side, through the iris they lead into the anterior chamber (Fig. 4). By tensioning the filaments and then tying them on the front surface of the iris, the height of the lower loop-like element is changed and the lens is centered relative to the pupillary hole, respectively.

When tensioning the filaments running between the supporting elements, the lower loop 3 approaches the back surface of the iris due to a lever effect consisting of the shoulder a (from the top of the loop to the gnarled ends of the bent portion), b (from the tab-shaped ends of the bent portion to the end of the lower support element). This eliminates the possibility of dislocation of the artificial lens, in particular, into the vitreous body.

An example of the implantation of an artificial talik crystal. Patient K., 69 years old, was admitted with a diagnosis of a matured cataract of the right eye. Surgery: extracapsular cataract extraction with simultaneous implantation of an artificial lens in the posterior chamber. Akinesia and anesthesia by a known method with a solution of 2% novocaine.

Intracapsular cataract cryoextraction. The lower support element and the lens are inserted into the posterior chamber through the pupil parallel to the plane of the anterior boundary membrane of the vitreous body to the level of the subopillary sulcus. The upper; F1K1) iris edge of the iris is thrown up to the top of the upper arm; 1 of the 1st upper supporting element is inserted into the posterior chamber, while the bend of the upper loop-like element corresponds to the configuration of the anterior chamber angle and does not damage the anterior borderline of the vitreous membrane. The upper part of the iris is melted with a spatula until a round pupil is obtained. Threads (propylene 9/0) are drawn through the iris irradiating areas over the ear-shaped ends of the upper support element, tightened until the center of the optical part of the lens coincides with the center of the pupil, and are bound with double surgical stitching over the iris. Horizontal iridotomy 1-2 mm central 0.5 mm. The anterior chamber is closed with a double x-shaped schm from supramid 10/0 and filled with saline. Under the conjunctiva penicillin (50.000 units) with dexazone.

1 after the operation period without complications, the pupil is round in shape, an artificial lens in the posterior chamber, the center of the lens coincides with the center of the pupil. The movements of the artificial lens during eye movements were not detected. Visual acuity at discharge 0.7 (with correction).

The use of the proposed artificial lens simplifies the implantation of the plantation into the posterior chamber, expands the indications for its use, in particular, for intracapsular cataract cryoextraction, and increases the reliability of its fixation due to the additional attachment of the lower support element to the upper one and, consequently, 1o, to the place attaching the artificial lens to the iris, which prevents the artificial lens from dislocating into the vitreous body, and reduces injury to eye tissue.

Claims (1)

ARTIFICIAL EYE CRYSTAL containing a lens and diametrically located support elements in the form of loops, the lower of which covers a quarter of the circumference of the lens, characterized in that, in order to reduce trauma to the eye tissue during implantation in the posterior chamber after intracapsular cataract extraction, it is equipped with threads from a biologically inert material for connecting the supporting elements to each other, and ears are made on the sides of the supporting elements, while the ear-shaped ends of the upper loop are bent toward the lens by 2/3 high You are looped and tilted towards the front surface of the lens at an angle of 15–20 ° relative to the main plane of the lens, with the upper loop tilted towards the rear surface of the lens at an angle of 8–10 ° relative to the main plane of the lens and is movably connected through the ears and the thread at the same angle in his ron of the front surface of the lens and connect the yen through the ears with the thread rigidly. Figure 1 <35 □ About Joint venture