RU125453U1 - MICROSURGICAL SCALPEL - Google Patents

Abstract

A microsurgical scalpel, comprising a blade in the form of a plate with parallel faces, the working part of which is equipped with a profiled cutting edge, and a holder, characterized in that the blade is made of diamond, and its cutting edge is made on one of the faces with its interface with the opposite face in the form of a segment oval with the ratio of the length of the longitudinal axis to the length of the transverse axis from 2: 1 to 1: 2, while the angle between the faces forming the cutting edges is 30-45 °, and the width of the tip of the cutting edge in the transverse direction does not exceed exceeds 60 nm.

Description

The utility model relates to surgical instruments, in particular, to microsurgical diamond instruments intended for ophthalmic surgeries for layer-by-layer keratoplasty, for technoscleroplasty (correction of strabismus), and for delicate operations in patients with glaucoma.

A microsurgical blade is known (certificate of the Russian Federation for utility model No. 9152, IPC ⁶ A61F 9/00, priority 24.06.1998, publ. 02.16.1999) containing a body and a pointed working part, two working parts sharpened symmetrically at two angles, with the first angle lies in the range of 15-17 °, and the second lies in the range of 40-45 °, while the angle at the top lies in the range of 80-110 °.

The disadvantage of this blade is that when it is used for making shallow cuts of a given length, for which the inventive scalpel is intended, the cuts are too deep due to the fact that the angle determining the depth of the cut at the top of the blade is 80-110 °.

Known microsurgical blade-delaminator (certificate of the Russian Federation for utility model No. 16338, MPK ⁷ A61F 9/00, priority 10.08.2000, publ. 27.12.2000), containing the body and the working part in the form of an isosceles trapezoid, sharpened symmetrically relative to the longitudinal axis of the body, the angle at the larger base of the trapezoid of the working part is from 45 to 60 °, and at the smaller - from 12 ° to 135 °.

The disadvantage of this blade is that when it is used, angles at the smaller base of the trapezoid, equal to 12 ° -135 °, lead to excessive depth and trauma of the incisions.

Known microsurgical knife (RF patent for the invention No. 2033095, IPC ⁶ АВВ 17/32, priority 01/27/1992, publ. 04/20/1995), containing a cutter connected to the holder, made with working and non-working edges, the working edge is made in the form of a blade, and a non-working one in the form of an edge oriented at an acute angle to the blade with a radially rounded end and a rectilinear section conjugated with the end. The end radius is determined by the ratio R = a-sinαb, where a is the width of the knife holder, b is the length of the rectilinear portion of the rib, α is the angle of orientation of the rib to the blade, equal to 7-10 °.

The disadvantage of this scalpel is that it has a straight cutting edge, which increases the duration of operations and limits the possibility of its use, for example, it is unsuitable for puncture of operated tissues.

The closest technical solution is a microsurgical blade (certificate of the Russian Federation for utility model No. 12016, IPC ⁶ A61F 9/00, priority 08.07.1999, publ. 16.12.1999) containing a body and a pointed working part in the form of isosceles trapezoid and triangle sharpened symmetrically relative to the longitudinal axis of the body, with the upper base of the trapezoid being the base of the triangle, the angle at the apex of the triangle is 90 °, and the angle formed by the sides of the trapezoid lies in the range from 35 to 50 °, and the sides of the trapezoid and treugo nika sharpened.

The disadvantage of this blade is that when it is used for making shallow cuts of a given length for which the inventive scalpel is intended, the cuts are too deep due to the fact that the cutting edge is a broken line and the angle determining the depth of the cut at the top of the blade is 90 ° .

The disadvantages of all known blades and scalpels lead to a significant investment of time for the operation, excessive trauma of the incisions and a long postoperative period.

The technical result achieved by the utility model is to increase the accuracy and decrease the depth of the incisions, which allows to reduce the invasiveness of tissues during surgery, reduce the time of surgical intervention, reduce the healing time of wounds and shorten the postoperative period. This allows you to increase the effectiveness of the treatment process.

This technical result is achieved in that in a microsurgical scalpel, including a blade in the form of a plate with parallel faces, the working part of which is equipped with a profiled cutting edge symmetrical with respect to the longitudinal axis of the blade, and the holder, the cutting edge of the blade is made on the faces with mating them together in the form of a semi-oval with a ratio of the length of the longitudinal axis to the length of the transverse axis from 2: 1 to 1: 2, while the angle between the faces forming the cutting edges is 30-45 °. The blade is made of diamond, while the width of the tip of the cutting edge in the transverse direction does not exceed 60 nm.

This set of features from the patent and scientific and technical literature has not been identified, which allows us to talk about the novelty of the claimed technical solution.

The essence of the claimed technical solution is illustrated by drawings, where in Fig.1 shows a General view of the scalpel, in Fig.2 - a diamond blade.

The scalpel consists of a holder 1 with a blade 2 fixed in it, and to protect the blade in the inoperative position, it can be recessed in the holder body, while the shank of the holder 3 is moved to position 4. The diamond blade 2 is provided with a cutting edge 5 (marked by a double line) made on faces 6 and 7 with their conjugation in the form of a semi-axis 8 with a ratio of the length of the longitudinal axis B to the length of the transverse axis A from 2: 1 to 1: 2. As follows from the shown section CC of the blade 2 (see figure 2), the angle between the faces 9 and 10 forming the cutting edges 5 is 30-45 °, and the width of the tip 11 of the cutting edge 5 in the transverse direction does not exceed 60 nm .

The scalpel is made using the crystallographic parameters of the raw materials and the finishing (sharpening) of the cutting edge of the blade, based on the process of thermochemical dissolution of carbon in diamond at a temperature of more than 600 ° C in a reducing medium created by supplying hydrogen to the treatment zone. Measurements using an electron microscope showed that the width of the tip of the cutting edge (in the transverse direction) does not exceed 60 nanometers, and the actual figure can reach 10-15 nanometers.

The curved cutting edge obtained as a result of this treatment promotes easy, less traumatic cutting of tissues during surgery and avoids unnecessary cuts, reduces the depth of cuts, providing the necessary length, which, in turn, contributes to faster wound healing.

According to the conclusion of surgeons using a scalpel, the time of surgical intervention during complex operations is reduced by 2-3 times.

Claims (1)

A microsurgical scalpel, comprising a blade in the form of a plate with parallel faces, the working part of which is equipped with a profiled cutting edge, and a holder, characterized in that the blade is made of diamond, and its cutting edge is made on one of the faces with its interface with the opposite face in the form of a segment oval with the ratio of the length of the longitudinal axis to the length of the transverse axis from 2: 1 to 1: 2, while the angle between the faces forming the cutting edges is 30-45 °, and the width of the tip of the cutting edge in the transverse direction does not exceed exceeds 60 nm.

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