RU2513950C1 - Cartridge for intraocular lens implantation - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: device comprises a hollow body. The body comprises an internal cavity consisting of four open interconnected gradually narrowing sections with the varying cross-section geometry along a longitudinal rectilinear axis. The section surfaces gradually pass into each other on condition that a first derivative is continuous. The open surface of the first section is an ellipsoid surface passing into the surface of the second section. A surface of one portion of the second section limited by a vertical plane passing through the longitudinal axis is a surface congruent to the surface of the first section; the cross-section of this portion of the second section is a half of the ellipse section. An asymmetrical surface of the second portion of the second section is a surface of conformal mapping of the second half of the first section; the cross-section of this portion of the second section is a half of the circle section. A circle diameter is equal to a minor axis of the ellipse. The second section passes into the third one. A surface of the third section is a combination of the congruent surface and the surface of conformal mapping similar to the combinations of the surfaces of the second section. The third section gradually passes into the fourth one. The surface of the fourth section being a surface congruent to the surface of the first section ends with a round outlet.EFFECT: using the given invention enables the intraocular lens implantation through the small incision leaving its surface undamaged.1 dwg

Description

The invention relates to the field of ophthalmic surgery and can be used for implantation of an artificial lens of the eye.

Known cartridge for implantation company Medicel (Switzerland) model Naviglide 2.2-IP. Source: IOL catalog and consumables for ophthalmology, edition 3, M .: Ophthalmology, 2011, p. 54. The cartridge contains a hollow body.

However, it has significant drawbacks; it does not allow implantation through a small incision without destroying the thin surface of the artificial lens of the eye. The technical result achieved by the invention: implantation of an artificial lens of the eye through a small incision without destroying the surface of the artificial lens of the eye.

The specified technical result is achieved by the fact that in the cartridge for implantation of an artificial lens of the eye containing a hollow body, the body contains an internal cavity consisting of four open interconnected sequentially tapering sections with variable cross-sectional geometry located along the longitudinal rectilinear axis, while the surfaces of the sections transition smoothly each other under the condition of continuity of the first derivative, and the open surface of the first section is an ellipso surface ida, passing into the surface of the second section, the surface of one part of the second section bounded by a vertical plane passing through the longitudinal axis is the surface congruent to the surface of the first section, the cross section of this part of the second section is half the cross section of the ellipse; the asymmetric surface of the second part of the second section is the conformal display surface of the second half of the first section, the cross section of this part of the second section is half the cross section of the circle, the diameter of the circle is equal to the minor axis of the ellipse, and the second section goes into the third;

the surface of the third section is a combination of a congruent surface and a conformal display surface similar to combinations of the surface of the second section; while the third section smoothly goes into the fourth; moreover, the surface of the fourth section, which is the surface congruent to the surface of the first section, ends with an output round hole.

The proposed set of essential distinguishing features is necessary and sufficient to unambiguously achieve a technical result. The invention is illustrated in figure 1.

The invention is as follows. The cartridge contains a housing 1, housing 1 contains an internal cavity consisting of four open sequentially tapering sections 2, 3, 4, 5 with variable geometry of the cross section located along the longitudinal rectilinear axis 6. The surfaces of sections 2-5 smoothly pass into each other, provided continuity of the first derivative. The open surface of the first section 2 is the surface of the ellipsoid, passing into the surface of the second section 3. The cross section of the inlet of the first section is made in the form of an ellipse 7. The surface of one part of the second section, bounded by a vertical plane (not shown) passing through the longitudinal axis, is a surface, congruent surface of the first section. The cross section of this part of the second section is part of the ellipse 8. This plane divides the surface of the cartridge into two asymmetric parts along the longitudinal axis 6 of the part.

The asymmetric surface of the second part of the second section is the conformal display surface of the second half of the first section. The cross section of this part 9 is part of a circle, the second section smoothly turning into the third. The surface of the third section 4 is a combination of the congruent surface and the conformal display surface, similar to the combinations of the surface of the second section 3. Section 4 smoothly passes into the fourth section 5. The surface of the fourth section 5, which is the surface congruent to the surface of section 2, ends with an output round hole 10.

The proposed design ensures the implantation of an artificial lens through a small incision without damaging the thin artificial lens of the eye. The invention works as follows: the cartridge is placed in the clamp of the injector, the pusher of which provides the advancement of the artificial iris along the longitudinal axis (the pusher and injector are not shown). When passing through the artificial lens of the eye of the sections, it gradually bends from both sides, while both edges of the artificial iris are bent one after another. The implantation of an artificial lens of the eye using the invention is as follows: an artificial iris is inserted into the product in expanded form. A sufficient amount of viscoelastic is introduced into the lumen of the cartridge. The artificial lens of the eye is placed in the lumen of the cartridge and at the beginning due to the injector pusher, and then, due to the column of viscoelastic, it moves along its channel, gradually folding. The outlet of the product through a 2.5 mm incision is inserted into the anterior chamber of the eye. After implantation, the artificial lens of the eye is crocheted for rotation and fixed depending on the safety of the supporting structures of the eye. Using the invention allows for the implantation of an artificial lens of the eye with a diameter of 6.5 mm through a small incision of 2.5 mm.

Claims (1)

The cartridge for the implantation of an artificial lens of the eye contains a hollow body, characterized in that the body contains an internal cavity consisting of four open interconnected sequentially tapering sections with variable cross-section geometry located along a longitudinal rectilinear axis, while the surface of the sections smoothly pass into each other, and the open surface of the first section is the surface of an ellipsoid passing into the surface of the second section, the surface of one part of the second a section bounded by a vertical plane passing through the longitudinal axis is a surface congruent to the surface of the first section, and the cross section of this part of the second section is part of an ellipse; and the asymmetric surface of the second part of the second section is the conformal display surface of the second half of the first section, the cross section of this part of the second section is a combination of two different in height curvilinear shapes smoothly interconnected, and the second section goes into the third; the surface of the third section is a combination of a congruent surface and a conformal display surface similar to combinations of surfaces of the second section; while the third section smoothly goes into the fourth; moreover, the surface of the fourth section, which is the surface congruent to the surface of the first section, ends with an output round hole.