RU2429806C1 - Intraocular lens fragmentation-explantation device - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: intraocular lens fragmentation-explantation device comprises a body with a fixed blade. The body has a central hole, working and non-working portions. The body is straight or curved, and round-corner right-angled, ellipsoid or trapezoid in cross section. A side surface of the working portion of the body comprises 2 or 4 cuts which originate from a working end face of the body, are equidistant and represented by a portion of a triangle, a rectangle, an ellipse or a trapeze. Straight or curved, continuous, V- or U-shaped blades are fixed in the cuts. The cutting edges of the blades are directed inside the body at an angle 0-20. The blades can be right-angled or triangular in a cross section. The body is provided with a holder. ^ EFFECT: improved operational reliability. ^ 7 cl, 10 dwg

Description

The invention relates to the field of medicine, namely to ophthalmology, and can be used for surgical removal of intraocular lenses (IOLs) when replacing IOLs or their interchangeable optical parts, as well as for removing phakic lenses or removing an IOL-capsule complex deployed in the vitreous body. The need to replace lenses can be caused by the formation of deposits on the surface of the lens during intraocular inflammatory processes, dislocation of the IOL and other complications after implantation of the IOL, damage to the lens during implantation, discomfort of a patient with an implanted multifocal IOL, or an error in calculating the optical power of the lens (for example, with myopia and hyperopia of high degree or with the combined procedure of phacoemulsification and keratoplasty).

The closest analogue is the "Device for removing intraocular lenses." Pub. US 2004/0243142 A1, Appl. No. 10488736, consisting of a body with a blade fixed in it, and a tape pulling the IOL to the blade. In this case, the tape has a width sufficient so that the IOL is not cut by the tape itself.

The disadvantages of this device are:

1) the device does not allow for simultaneous fragmentation of the IOL and the removal of fragments from the cavity of the eye, which increases the time of the operation;

2) when removing fragments of the IOL, the latter can damage the corneal endothelium and the surface of the iris, which can lead to postoperative complications in the form of corneal edema or intraocular inflammation.

The technical result, according to the invention, is to reduce the time of surgery and reduce the frequency of postoperative complications due to simultaneous fragmentation of the IOL and removal of fragments from the eye cavity and the possibility of safe removal of fragments without contact with intraocular structures.

The technical result according to the invention is achieved in that the device for fragmentation of intraocular lenses includes a housing with a fixed blade, characterized in that the housing has a central hole, a working part ending in a working end, and a non-working part ending in a non-working end, the body is made straight or curved and has a cross-section in the form of a rectangle, ellipse or trapezoid with rounded corners, on the side surface of the working part of the housing there are 2 or 4 cuts originating from the front end of the case and located at the same distance from each other and made in the form of a part of a triangle, rectangle, ellipse or trapezoid, straight or curved, solid, V- or U-shaped blades are fixed in the cutouts, the cutting edges of which are directed inside the case at an angle 0 -20 °, while in the cross section the blades can be rectangular or triangular, and the body is equipped with a holder.

The housing may be narrowed towards the non-working end.

The non-working end face of the body can be closed by an iris diaphragm connected with a lever equipped with a spring for self-closing the diaphragm.

The non-working end of the housing is closed by a membrane with elastic petals, fixed with a union nut, while the end of the nut facing the body is open, and the opposite end of the nut is closed on the periphery and has a hole in the center.

The non-working end face of the housing may be closed with an elastic disposable cap provided with an opening at its end.

The elastic cap can additionally be equipped with a latch worn on the cap and congruent to the housing, while for fixing the latch on the housing there is at least one protrusion, and on the latch there is at least one hole corresponding to the protrusion, with the formation of a bayonet joint, with the end face the latch facing the body is open, and the opposite end is closed on the periphery and has a hole in the center.

The non-working part of the body can be made curved and end blindly. At a distance of 0.5-2.5 cm from the working end on the surface of the housing there is an additional hole, which can be equipped with a sealing collar. The blind part of the tube may be removable, for example in the form of a cap nut.

Each element of the device performs certain functions. The working end of the body, carrying the blade, is designed to cut the IOL. The blades are located at an angle to the walls of the body and are directed inside the body to prevent tissue damage during the introduction of the working part of the device into the anterior chamber of the eye. A non-working end hole is used to insert collet tweezers to grip the lens and move it to the blades. Paragraphs 2-7 describe design options designed to prevent excessive outflow of fluid from the anterior chamber of the eye, in order to prevent chopping of the anterior chamber of the eye. According to paragraph 2, the non-working part of the housing is made narrowed.

According to claim 3, the non-working part of the body is equipped with an iris diaphragm, which is opened for inserting collet tweezers and for removing the explanted fragment of the IOL. Thanks to the spring connected to the lever, the diaphragm closes automatically.

According to claim 4, the non-working part of the housing is equipped with a membrane with elastic petals, due to which the hole of the non-working part of the tube independently maintains its minimum size during the entire time of manipulation, except for the moments of introduction of tweezers and removal of the explanted fragment of the lens.

According to paragraphs 5-6, the opening of the elastic cap, worn on the inoperative part of the body, is able to stretch and pass tweezers with an explanted fragment of the lens. According to claim 6, the cap is additionally fixed with a latch, freeing the surgeon from the need to hold the cap at the time of removal of the lens fragment.

According to paragraph 7, the blind non-working part of the housing, curved downwards, is intended to form a storage tank for remote lens fragments. At a distance of 0.5-2.5 cm from the working end, the housing has an opening for introducing collet tweezers. The hole may be provided with an elastic sealing collar for ease of tweezers manipulation and to prevent excessive leakage of irrigation solution. The blind part of the housing can be made removable, for example in the form of a nut-cap, for easy washing and sterilization of the instrument. The holder can be located both on the right and on the left, for the convenience of both right-handed and left-handed surgeons.

The invention is illustrated by drawings, where FIG. 1 shows a general view of a device including a housing 1 with a central hole 2, having a working part 3 with a working end and a non-working part 4 with an inactive end, the working part 3 of the housing 1 has cutouts 5 with blades 6 fixed to them The housing 1 is equipped with a holder 7. The figure 2 shows the non-working end of the tube according to claim 3, closed by an iris diaphragm 8, connected to a lever 9, equipped with a spring 10 for self-closing the diaphragm.

The figure 3 shows a non-working end face of the housing according to claim 4. The non-working end of the housing 1 is closed by a membrane with elastic petals 11, which is fixed with a union nut 12, the front end 13 of the nut 12 facing the housing 1 is open, and the rear end 14 of the nut is closed on the periphery and has an opening 15 in the center.

The figure 4 shows the non-working end face of the housing 1 according to claim 5. The non-working end of the housing 1 is closed by an elastic disposable cap 16 provided with an opening 17.

The figure 5 shows the non-working end face of the housing 1 according to claim 6. The elastic cap 16 with the hole 17 is additionally fixed on the housing 1 by means of an additional removable latch 18, which is worn on the cap 16 and congruent to the housing 1. The outer surface of the inoperative part 4 of the housing 1 has a protrusion 19 for fixing the latch 18, and the latch 18 has a hole 20 for the protrusion 19 with the formation of a bayonet connection. While the front end 21 of the latch 18 is open, and the rear end 22 of the latch 18 is closed on the periphery and has a hole 23 in the center.

The figure 6 shows a General view of the device according to paragraph 7. The non-working part 4 of the housing 1 is made curved and ends blindly, while at a distance of 0.5-2.5 cm from the working end on the surface of the housing there is an additional hole 24, which can be equipped with a sealing cuff 25, the blind part of the body can be made removable, for example in the form of a nut-cap.

In figures 7-9 shows a projection of the device. In figure 7 is a top view, in figure 8 is a side view, in figure 9 is a front view relative to the position of the device during its use during a surgical operation.

The figure 10 shows a General view of the device according to paragraph 7 in the process of its application in conjunction with collet tweezers.

The device can be made for single or multiple use. For the manufacture of the device, a transparent material is preferable for visual control of manipulations with the explanted fragment of the IOL inside the device.

The device is used as follows. A corneal or corneal-scleral tunnel incision is made, the width of which corresponds to the horizontal size of the working part of the device. A viscoelastic solution is injected into the anterior chamber of the eye. The next step is the intraocular lens is removed into the anterior chamber of the eye. Then the Central hole 2 of the housing 1 of the device is filled with a viscoelastic solution. With a continuous supply of irrigation solution, the working part 3 of the device is introduced into the tunnel section. Through the opening of the inoperative end of the housing 1, collet tweezers are inserted into the device, and it is passed through the central hole 2 of the housing 1 into the anterior chamber of the eye. Tweezers capture the intraocular lens and move it towards the working part 3 of the device. When you try to enter the lens captured in this way into the opening of the working part 3 of the device, the intraocular lens is cut by the blades 5 of the device. Only the cut out fragment of the lens enters the device body 1, the remaining lens fragments remain in the anterior chamber of the eye. The removed lens fragment is brought out through the central hole 2 of the inoperative part 4 of the housing 1, when using the device according to paragraph 3 of the formula, the iris diaphragm 8 is opened by turning the lever 9. Then, the collet tweezers are again inserted into the anterior chamber of the eye through the central hole 2 of the housing 1 of the device. A pair of lenses are captured with tweezers, remaining in the anterior chamber of the eye and removed from the cavity of the eye through the body 1 of the device. The procedure is repeated until the lens fragments are completely removed.

The device according to paragraph 7 of the formula is used as follows. A corneal or corneal-scleral tunnel incision is made, the width of which corresponds to the horizontal size of the working part 3 of the device. A viscoelastic solution is injected into the anterior chamber of the eye. The next step is the intraocular lens is removed into the anterior chamber of the eye. Then the blind non-working part 4 of the housing 1 is filled with physiological saline, and the working part 3 of the housing 1 is filled with a viscoelastic solution. With a continuous supply of irrigation solution, the working part 3 of the device is introduced into the tunnel section. A collet forceps is inserted into the central opening 2 of the device body 1 through an additional hole 24 on the surface of the body, then the forceps are inserted through the device body 1 into the anterior chamber of the eye. The intraocular lens is captured with tweezers and moved towards the working part 3 of the device. When you try to enter the lens captured in this way into the opening of the working part 3 of the device, the intraocular lens is cut by the blades 6 of the device. As a result, only the cut out fragment of the lens passes into the central hole 2 of the housing 1 of the device, the remaining fragments of the lens remain in the front camera. The removed fragment of the lens is moved with tweezers to the inoperative part 4 of the housing 1, located downward from the additional hole 24 for the tweezers, during this manipulation the branches of the tweezers are always inside the device. Then the collet tweezers are again inserted into the anterior chamber of the eye through the central hole 2 of the working part 3 of the housing 1. One of the fragments of the lens remaining in the anterior chamber of the eye is captured with tweezers and removed from the anterior chamber, transferring to the inoperative part 4 of the housing 1. The procedure is repeated until complete removal of lens fragments.

Claims (7)

1. Device for fragmentation of intraocular lenses, comprising a housing with a fixed blade, characterized in that the housing has a central hole, a working part ending with a working end, and a non-working part ending with an inactive end, the body is made straight or curved and has a cross-sectional shape a rectangle, ellipse or trapezoid with rounded corners, on the side surface of the working part of the body there are 2 or 4 cuts originating from the working end of the body, and located at the same distance from each other, and made in the form of a part of a triangle, rectangle, ellipse or trapezoid, straight or curved, solid, V- or U-shaped blades are fixed in the cutouts, the cutting edges of which are directed inside the case at an angle of 0-20 °, while in cross section, the blades can be rectangular or triangular, and the body is equipped with a holder. 2. The device according to claim 1, characterized in that the housing is narrowed towards the inactive end. 3. The device according to claim 1, characterized in that the idle end of the housing is closed by an iris diaphragm associated with a lever provided with a spring for self-closing the diaphragm. 4. The device according to claim 1, characterized in that the non-working end of the housing is closed by a membrane with elastic petals, fixed with a union nut, while the end of the nut facing the housing is open, and the opposite end of the nut is closed on the periphery and has a hole in the center . 5. The device according to claim 1, characterized in that the non-working end face of the housing is closed with an elastic disposable cap provided with an opening at its end. 6. The device according to claim 5, characterized in that the elastic cap is additionally equipped with a latch put on the cap and congruent to the housing, while for fixing the latch on the housing there is at least one protrusion, and at least one hole corresponding to protrusion, with the formation of a bayonet connection, while the end face of the latch facing the body is open, and the opposite end is closed on the periphery and has a hole in the center. 7. The device according to claim 1, characterized in that the non-working part of the housing is curved and ends blindly, while at a distance of 0.5-2.5 cm from the working end on the surface of the housing there is an additional hole that can be equipped with a sealing sleeve, the blind part of the tube can be made removable, for example in the form of a nut-cap.

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