RU2458642C2 - Guide device for transosseal suture - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to operative traumatology and orthopedics. Guide device for transosseal suture consists of Kirchner wire with 1.1 mm diameter. One end of wire along 15-20 mm is flattened to 0,8 mm and figuredly curved with formation of unclosed loop of triangular shape, the other end of wire being curved at right angle to device longitudinal axis with formation of perpendicular handle in form of elongated closed 30-50 mm long loop.

EFFECT: invention ensures increase of efficiency of treatment of orthopedotraumatological patients, who are subjected to operation of transosseal suture and makes it possible to facilitate, accelerate and secure performance of transosseal suture with increase of quality of many surgeries in operative traumatology and orthopedics.

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Description

The invention relates to medicine, namely to medical devices used in traumatology and orthopedics.

In surgical traumatology and orthopedics, a transossal suture is widely used, during which a channel is formed in the bone for ligature through it. The bone canal is drilled with a drill, and suture is performed using a surgical or ligature needle. In this case, as a rule, technical problems arise, which include the following. The presence of a bend in the surgical needle prevents its transossal passage through the direct bone canal, which is why it is necessary to expand the channel and straighten the needle. However, excessive drilling of a bone significantly weakens its strength, enlarges a bone wound and can even lead to an iatrogenic fracture, and using a straight needle or a needle of less curvature requires more free space on the other side of the bone. The latter circumstance dictates the need for wide access, an increase in the length of the skeletonization of this bone and the invasiveness of the intervention. Otherwise, the needle can stick into soft tissues, which, in addition to the difficulty of extracting it, is fraught with damage to important anatomical structures, such as the neurovascular bundle.

As the closest analogue and prototype of the proposed device, Deschan's ligature needle was described, described in the manual by M.P.Burykh “General principles of the technology of surgical operations” (Rostov n / A: Publishing House “Phoenix”, 1999. - 544 pp. - C .73-75). The Deschan needle (Fig. 1, a) is a tool with which a surgical thread (ligature) is inserted under or through the anatomical structure on which surgery is performed. It is designed to bring the ligature under the blood vessels, ducts or bone fragments. The working part of this needle (Fig. 1, b) resembles a curved surgical needle of an oval section with a closed eye at the end. In this case, the bending of the working part can be either to the right or to the left. Thread the thread into the eye of the instrument using a conventional surgical needle, the diameter of which is smaller than the eye of the Deschan needle. During the ligature, the working part of the Deschan needle is displayed under the anatomical structures, the risk of damage of which is minimized due to the rounded end of the needle. However, with trans-transplantation of the ligature, the prototype device has the following disadvantages:

1. The diameter of the working part of the tool is 4-5 mm, which significantly exceeds the diameter of the suture material (usually up to 1 mm).

2. The curvature of Deschan's needle is a bend from 1/2 to 5/8 of the circumference of its working part, which does not coincide with the direct course of the bone canal.

3. The rigidity of the instrument does not allow changing the shape of its working part and adapting it to the direction of the bone canal or the topography of the surrounding tissues.

4. The closure of the ear of the instrument makes it necessary to use a conventional surgical needle to thread the thread into it.

5. The lack of length of the working part of the tool, the circumference of which is not more than 3 cm, in combination with its excessive curvature (not less than 1/2 of the circumference) makes it difficult to use the Deschan needle on tubular bones more than 2 cm wide.

All these shortcomings complicate the ligature and force the surgeon to drill a bone canal, the diameter of which significantly exceeds the thickness of the thread. So, the ratio of the diameters of the suture material and the bone channel usually exceeds 1: 6. This is irrational, traumatic, is associated with a significant weakening of the mechanical strength of the bone and the danger of its fracture.

To prevent these drawbacks, a device is proposed (Fig. 2), consisting of a Kirschner needle with a diameter of 1.1 mm, one end of which is flattened to 0.8 mm for 15-20 mm and curved curly with the formation of an open triangular loop, and the other end the knitting needles are bent at right angles to the length of the device with the formation of a perpendicular handle in the form of an oblong closed loop 30-50 mm long, convenient for gripping and manipulating the device.

A device is made as follows. The pointed end of the knitting needle is bitten and moderately flattened with a hammer for 15-20 mm. It is advisable to smooth the sharp edges of the flattened part of the spoke on the whetstone or with a file. Then, the flattened end of the knitting needle is curved with a pair of pliers to form an open loop of a triangular shape, which in the widest part of its longitudinal size does not exceed 2.5 mm. In this case, four bends are formed from the periphery to the center (Fig. 3): 1) 140 degrees; 2) 80 degrees; 3) 140 degrees and 4) 150 degrees. The first three bends are directed in one direction, and the fourth in the opposite direction. The purpose of each of these bends is as follows: the first bend - so that when the working part of the device is passed through a small diameter bone channel to one side or another, its end does not cling to the bone; the second (somewhat pointed) and the third - for easier insertion into the channel; the fourth - for smooth removal of the device through the channel in the opposite direction. For the convenience of manipulating the device, a perpendicular handle 30-50 mm long is formed at the other end of the spoke. For this purpose, pliers bend the needle at right angles to the length of the device with the formation of an elongated closed loop.

Apply this device as follows. An intraosseous canal is drilled with a diameter of 2.5-2.8 mm, into which the working part of the device is introduced in the direction opposite to the intended ligature (Fig. 4, a). Due to its bends, the working part of the device through the intraosseous canal is carried out, as a rule, without technical difficulties. Then, the device passed through the bone is deployed around its axis so that the loop of the ligature cast over it is located on the side of the slot of its open loop (Fig. 4, b). After inserting the ligature loop into the open loop of the device (Fig. 4, c), it is removed through the bone channel in the opposite direction (Fig. 4, g). When the end of the device exits on the other side of the bone, the ligature is removed from its open loop, leaving a thread in the channel. The small diameter (1.1 mm) and plasticity of the spokes of the device allow it to be bent in any direction and at any angle, thereby adapting to the tissues surrounding the bone.

As an example of the use of this device, the following observation. Patient M. (medical history No. 3-219), 26 years old, was treated at the Republican Orthopedic and Traumatology Center (RTC) in the city of Makhachkala from 02.16.09 to 02.29.09 with a diagnosis of Dislocation of the acromial end of the left collarbone.

From the anamnesis: the injury occurred during construction work when falling from the height of the second floor two weeks before admission to the hospital. First aid was provided at the place of residence in the Babayurt district, where after an unsuccessful attempt to reposition the dislocation, the left hand was laid on a scarf. In a planned manner, the patient is sent for surgical treatment at the RTC.

02/18/09, in the planned order, the operation was performed: Open reduction of acromial dislocation of the clavicle with plastic of the clavicular-coracoid ligament and transarticular fixation with two spokes according to Watkins-Kaplan. An epauletic section from the posterior edge of the acromial process, enveloping its apex, and further inwards throughout the outer third of the clavicle, the clavicular-acromial joint is exposed. Removed interpolating scarred tissue with cartilage disc fragments. Then with a drill with a drill with a diameter of 2.6 mm, two vertical holes were drilled over the coracoid process of the scapula in the lateral third of the clavicle at a distance of 2 cm from each other. Stupidly stratifying the inner portion of the deltoid muscle, the coracoid process of the scapula was exposed, behind which a strong dacron thread with a diameter of 1.2 mm was inserted with a Deschan needle. The ends of the thread were held behind the muscles and brought out under the collarbone. Then, the inventive device-conductor was used, consisting of a Kirschner needle with a diameter of 1.1 mm, one end of which is flattened to 0.8 mm for 15-20 mm and curved curly with the formation of an open loop of a triangular shape, while this loop in the a wide part of its longitudinal size does not exceed 2.5 mm, and the other end of the spoke is bent at right angles to the device's long line with the formation of a perpendicular handle in the form of an oblong closed loop 30-50 mm long. The device was prefabricated and prepared (sterilized) for this operation and applied as follows. In one of the two intraosseous canals, the working part of the device was introduced from top to bottom. Then, at the exit from the canal, one end of the lavsan ligature was thrown over the device passed through the clavicle, and the working part of the device was deployed around its axis so that the ligature loop was on the side of the cut of its open loop. After the loop of one end of the ligature was inserted into the open loop of the device, it was removed through the bone channel in the opposite direction and brought out above the collarbone. In the same way, through the second intraosseous canal, the other end of the mylar filament was also withdrawn. Then the dislocation of the clavicle is corrected and in the adjusted state, both ends of the ligature removed above the collarbone are tied to each other with a 4-fold surgical unit. The clavicular-coracoid ligament thus formed for 5 weeks is fixed by two Kirschner spokes held through the clavicular-acromial joint. On the control x-ray, the direction of dislocation and the correct position of the Kirschner transarticular spokes were verified. The postoperative period was uneventful: the wound healed primarily, the sutures were removed on the ninth day. The patient was discharged in a plaster cast for outpatient treatment, with a recommendation to come in a month to remove the knitting needles and spindles. The result of the treatment is regarded as good.

Thus, the design features and advantages of the device are as follows:

1. The diameter of the working part of the device does not exceed 2.5 mm.

2. The axis of the working part of the instrument corresponds to the direct intraosseous canal.

3. The plasticity of the device allows, if necessary, to change its shape and adapt to the direction of the bone channel.

4. The presence of an open loop of the working part of the device makes it unnecessary to use a surgical needle to fix the ligature in it.

5. The length of the spokes of the device (usually at least 10 cm) makes it possible to use it on tubular bones of large diameter.

6. Injury caused by the lack of need for excessive drilling of the intraosseous canal, the diameter of which can be limited to 2.5 mm.

7. The ease and safety of ligatures, minimizing the likelihood of damage to the neurovascular formations on the other side of the bone.

8. The possibility of intraosseous conduction of the suture in both directions, for which it is necessary to introduce the working part of the device in the direction opposite to the proposed ligature, throw a loop on it and remove it from the bone canal in the opposite direction.

9. The simplicity and cost-effectiveness of manufacturing the device with no need to find materials for this, because Kirschner spokes of various diameters are an obligatory accessory of the orthopedic and traumatological department of any medical institution.

Thus, this device allows you to simplify, speed up and secure the performance of transossal suture and improve the quality of many surgical interventions used in traumatology and orthopedics.

Claims (1)

A conductor device for a transossal seam, consisting of a Kirschner needle, with a diameter of 1.1 mm, characterized in that one end of the spoke is flattened to 0.8 mm for 15-20 mm and curved curly with the formation of an open triangular loop, and the other end the spokes are bent at right angles to the length of the device with the formation of a perpendicular handle in the form of an oblong closed loop 30-50 mm long.

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