RU2503435C1 - Lancet for paracentesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to ophthalmology and may be used for eyeball operations. A device comprises a handle and a blade in the form of an oblique triangle. A maximum length of a base of the triangle matches with the width of the paracentesis and makes 0.8-1.6 mm. The blade has a V-section along an axis of symmetry with the varied geometry along the axis. The geometry of section along the axis varies from the point with a maximum width of the blade towards the tip due to a smooth reduction of the base in the similar oblique triangles. The base is related to the high in the point of a maximum length of the base of the triangle as 1.2:0.15. The blade tip is inclined 15-35°.

EFFECT: invention minimises the tissue contact and deformation in section, reduces a penetration force that provides reducing the number of injuries accompanying tissue dissection, better paracentesis tightness, and safe surgeries.

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Description

The invention relates to medicine, namely to a microsurgical instrument, mainly to an ophthalmic.

Modern ophthalmosurgery involves the use of small self-sealing incisions. It is generally accepted that the smaller the incision, the better the result from the position of wound healing and lower postoperative astigmatism. In addition, small incisions for surgeons and patients are preferable to incisions requiring suturing.

Most microsurgical cutting tools have a handle with a blade fixed to the distal end. The blades can be made of any material suitable for surgical blades, for example, titanium, diamond, but they are mainly made of stainless steel by stamping a wire blank, cutting, mechanical abrasive sharpening followed by electrochemical polishing. The handle is mainly made of non-toxic plastics by injection molding, but can also be made of other plastics, stainless steel or titanium. The handle is usually knurled to facilitate grip. The blade is attached to the handle by any suitable method, for example, by press fit or adhesive [US Patent 2005/0033335 Surgical knife].

One of the essential stages of intraocular interventions is the implementation of paracentesis (puncture, auxiliary incision) of the cornea. Paracentesis is considered a standard procedure for ultrasonic phacoemulsification. Paracentesis is used to administer:

- irrigation solution, viscoelastics, dyes for the front capsule;

- cannulas, additional tools that discolour the stabilization of the eyeball, manipulations with the lens nucleus, iris abduction, cortical mass aspiration, rotation of the intraocular lens, etc.

Known ophthalmic knife Alcon 15 ° (Alcon Ophthalmic Knife 15 ° 8065-921501), used to perform paracentesis [Savini G., Zanini M., Buratto L. Incicions. In: Phacoemulsification: Principles and Techniques, Second Edition [edited by] Buratto L., Werner L., Apple D., Zanini M. SLACK Inc., 2003. P.69-82] having a flat blade, tip with an angle of 15 degrees and cutting edge on one side. This blade when injected allows you to form a cut of various lengths. So, if the tip of the tool goes into the front chamber and advance the knife towards the cutting edge, the length of the cut (the width of the paracentesis) will increase.

The disadvantages of this tool include the inability to accurately dose the size of the paracentesis (cut length). When performing paracentesis, a precision formed cut length is required, corresponding to the size of the tools used in the next stages. With narrow paracentesis (short cut length), it is impossible to introduce instruments without damaging the surrounding tissue. Too wide paracentesis (the length of the incision is longer than necessary) will cause fluid to leak around the working part of the instruments during intraocular manipulations, which will negatively affect the stability of the anterior chamber and can lead to complications.

In contrast to the ophthalmic knife described above, spear-shaped knives have a blade in the form of an isosceles triangle, the sides of which are cutting, i.e. two cutting edges. The maximum length of the base of the triangle (shoulders) is the specified size of the required cut length (paracentesis width from 0.8 to 1.6 mm).

The blades of ophthalmic spear-shaped knives are presented in a variety of sizes and have a maximum width between opposing sides (“shoulders”), the blades are narrowed longitudinally from the region with a maximum width to a sharp tip, facilitating the insertion of the blade into the fabric.

When performing a cut, a knife blade having a known size (known maximum width as close as possible to the desired cut length) is usually inserted into the fabric in a piercing manner (indentation type of cutting) to form a cut in the fabric elongated lengthwise between the lateral sides of the blade. The resulting cut will have a length corresponding to the known blade width.

A microsurgical pricking cutting tool for use in ophthalmology is known, including a holder and a working part made of cermet or molybdenum ceramic with a fibrous structure, with a piercing tip and a cutting edge, and the average transverse fiber size is not less than 10 times less than the transverse size of the piercing the tip at its peak [patent RU 2086197, 1997].

The closest in technical essence is a spear for Alcent V-LANCE Knife paracentesis [catalog numbers 8065911901, 8065912001, 8065912501) (Alcon. Cataract Product Catalog, 2008/2009. Glob-al version. P.37], consisting of a handle and a blade. The spear blade along the axis of symmetry has a diamond-shaped cross section, and a good result is achieved in vitreoretinal surgery to perform sclerotomy.

The disadvantage of this spear is the creation of a wide, gaping hole.

The technical result of the invention is to minimize contact with the tissue during the incision (friction surface area), to minimize tissue deformation, to reduce penetration force, which reduces the incidence of tissue dissection, better tightness of paracentesis, and safer operations.

The specified technical result is achieved by the fact that in a spear for paracentesis containing a handle and a blade, made in the form of an isosceles triangle with variable geometry along the axis from the place with the maximum width of the blade towards the tip, and the maximum length of the base of the triangle corresponds to the ririna of paracentesis and is 0.8 -1.6 mm, according to the invention, the blade along the axis of symmetry has a triangular section, a change in the geometry of the section occurs due to a smooth decrease in the base in similar isosceles triangular tors, the ratio of the base to a height at the maximum length of the triangle base of 1.2: 0.15, and a blade edge formed at an angle of 15-35 °.

This shape of the spear distributes the piercing fabric and cutting forces along the edges of the blade more efficiently, and the tip of the blade enters and separates the fabric. Less force needed to penetrate the tissue with the working tip.

The point angle of not less than 15 ° and not more than 35 ° is due to the fact that at a sharper angle the spear will have a tip that is too thin (it will easily bend when in contact with the fabric), and at an angle of more than 35 ° the blade will be short, the “spot” of initial puncture more in area and, accordingly, more effort is required for piercing.

Figure 1 shows a spear for paracentesis, having a handle 1 and a blade 2.

Figure 2 - diagram of the working end of the blade 2 - the maximum length of the base of the triangle (shoulders) is the specified size of the required length of the cut (the width of the paracentesis) and is 0.8-1.6 mm The ratio of the dimensions of the base of the triangle (c) to height (h) at the widest point is 1.2: 0.15. From the place with the maximum width of the blade towards the working tip, the change in the geometry of the section along the axis of symmetry occurs due to a smooth decrease in the base in similar isosceles triangles.

The proposed spear for paracentesis is used as follows. Local anesthesia is performed for intraocular surgery (e.g., subtenon anesthesia). At the stage of paracentesis, a spear is brought to the surface of the cornea, directly anterior to the limbal vascular arches, oriented in the plane of the proposed incision. It is recommended to perform paracentesis parallel to the iris plane, which will contribute to the self-sealing of the incision after surgery. To facilitate paracentesis, you can create a slight counter-pressure on the side opposite the paracentesis with tweezers. In this case, the eyeball will not move under the influence of the spear and, as soon as the surgeon passes the Descemet membrane of the cornea with a spear, the pressure applied to the spear will not damage the iris and lens capsule due to inertia.

The spear point is introduced into the corneal tissue, passes through the layers of the cornea until the shoulders of the spear are in the anterior chamber, this will mean that the length of the section corresponds to the width of the shoulders along the entire length of the section - a precision-formed tunnel section is formed. At the request of the surgeon, if a shorter incision length is required (narrower paracentesis), it is possible not to introduce the spear completely with the shoulders into the anterior chamber, then the outer part of the tunnel incision will be wider and the inner part narrower.

For an objective assessment of the severity of copies for paracentesis, we used the corneal penetration test. The essence of the technique is to register penetration force, i.e. the strength that is needed to cut the cornea with the test tool. The experiments were conducted on isolated pig eyes, each eye was fixed in an eye holder, normal ophthalmotonus was simulated, varying the degree of eye clamping with the eye holder petals. A hollow cylinder was installed on top of the eye holder, expanded and open downward, with an opening (0.5 mm larger than the diameter of the spear handle) on its upper base. A test instrument was placed in this hole, on the top of the handle of which a platform for placing weights from weights was previously fixed. Thus, the instrument was positioned vertically in the device, resting with the tip of the blade on the center of the cornea of the eye. Weights were placed on the pad, gradually increasing their total mass. When a force exerted on the blade exceeded the resistance force of the cornea, it erupted. We defined this force as penetration. Since the experimental conditions were identical in each case, we estimated the penetration force by the value of the penetration mass (total mass of weights, scalpels, and platforms). Thus, the smaller the penetration mass, the less the force required for cutting through the cornea, respectively - the sharper the blade of the instrument under study.

The samples were the proposed spears for paracentesis with a width of 1.5 mm (in the amount of 6 pieces), a comparison was made with the spears for paracentesis Alcon V-Lance Knife 1.5 mm 19 gauge (in the amount of 3 pieces).

Results: the average penetration strength of the proposed paracentesis copies is 18.4 ± 1.8 g, Alcon copies are 19.3 ± 2.1 (when compared with the Mann-Whitney comparison, there are no statistically significant differences, U = 7.0 P = 0, 61).

Thus, according to the results of the corneal penetration test, the proposed spear for paracentesis is not inferior in severity to its foreign counterpart.

The effectiveness of the proposed spear for paracentesis is illustrated by a clinical example.

Patient Z., 56 years old, diagnosis: immature age-related cataract of the right eye. Visual acuity before surgery - 0.08 does not correct, intraocular pressure - 17 mm Hg; the density of endothelial cells of the cornea 2500 cells / mm ² . Ultrasonic phacoemulsification with implantation of a flexible intraocular lens was performed.

The progress of the operation. After subtenon anesthesia with a fakoskalpel, the main corneal incision was made at the limb at 9 o’clock 2.2 mm wide for the introduction of an ultrasound instrument.

Paracentesis was carried out with a spear, the blade of which is made in the form of an isosceles triangle with a maximum width of 1.2 mm and having a triangular section, and along the axis of symmetry, the geometry of the section changes due to a smooth decrease in the base in similar isosceles triangles, the ratio of the base to height at the point of the maximum length of the base of the triangle is 1.2: 0.15, and the angle of the blade tip is 30 °. First, the spear point for paracentesis was brought to the cornea in the area of the proposed incision in the meridian for 11 hours, anterior to the limbal vascular arches, and the spear blade was oriented parallel to the iris plane. The spear point was carefully inserted into the corneal tissue, passing through all layers of the cornea until the widest part (shoulders) of the blade appeared in the anterior chamber of the eye, thus forming a 1.2 mm wide paracentesis. By reverse movement, the blade was removed. Then a similar corneal paracentesis was performed in the meridian of 2 hours. It should be noted that the cutting of fabric was carried out easily, the tip of the blade smoothly entered and separated the tissue, paving the way for the instrument penetrating deep into the instrument, the tool immersed unhindered into the fabric. At the next stages of the operation, cannulas for air, dye of the anterior capsule of the eye, balanced saline, viscoelastic, a needle for performing capsulorexis, spatulas for manipulating the lens nucleus, and for turning the intraocular lens were introduced through paracentesis.

Performed circular capsulorexis, hydrodissection, hydrodelineation. The following phacoemulsification parameters were used: the ultrasound mode is pulse-modulated, the ultrasound power is 40%, the pulse duration is 10 ms, the aspiration mode is constant, and the productivity is 28 ml / min. The equivalent ultrasound time at the end of the operation was 5 s. A flexible intraocular lens was implanted.

The operation and the postoperative period proceeded without complications. Paracentesis is hermetic, smoothly cut wound edges are adjacent to each other. According to the data of optical coherence tomography of the cornea in the area of paracentesis, a clear, even cut line was determined, the edges of the cut lay along the entire length, the gaping of the epithelial edge of the cut and detachment of the descemet membrane were not observed. Visual acuity the day after surgery - 1.0 without correction, intraocular pressure - 16 mm Hg The density of endothelial cells 3 months after surgery is 2370 cells / mm ² (5.2% loss).

The clinical use of the proposed copies at the Optimum Vision Restoration Center (Ufa) in 35 eyes showed the absence of intra- and postoperative complications from paracentesis during ultrasound phacoemulsification, the best sealing of paracentesis in the postoperative period.

Claims (1)

A spear for paracentesis, containing a handle and a blade, made in the form of an isosceles triangle with variable geometry along the axis from the place with the maximum width of the blade towards the tip, and the maximum length of the base of the triangle corresponds to the width of the paracentesis and is 0.8-1.6 mm, characterized in that the blade along the axis of symmetry has a triangular section, the change in the geometry of the section occurs due to a gradual decrease in the base in similar isosceles triangles, the ratio of the base to height at the maximum hydrochloric triangle base length is 1.2: 0.15, and a blade edge formed at an angle of 15-35 °.

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