RU184617U1 - DEVICE FOR RESEARCH OF PHYSICAL AND MECHANICAL CHARACTERISTICS OF SEAMS AND SEWING MATERIAL, DEGREE OF ORGANIC PARENCHIMA DEFORMATION - Google Patents

Abstract

The utility model relates to the field of medicine, in particular experimental surgery, and can be used to study the physicomechanical characteristics of hemostatic sutures during operations on parenchymal organs and deformations of the organ parenchyma when tightening suture nodes. The technical result of the utility model is the study of the properties of hemostatic sutures, the study of the ability to deformations of the organ parenchyma under the action of mechanical load on it with suture material, which will allow choosing a less traumatic type of suture, suture material material, choose effective methods for strengthening the joints on the parenchymal organs. The device is made with an integral structure: a horizontal base with four vertically located uprights. The two lower racks are located next to each other, serve as a fastening device to a horizontal surface. On the tops of the upper struts located at the edges are fixed plastic pulleys with bolts and nuts. On a horizontal base there is an object table, adjustable in height for the convenience of working with samples of different sizes. It is an element with two horizontal bases of the same size and a sleeve with a bolt. 1 ill.

Description

The utility model relates to the field of medicine, in particular experimental surgery, and can be used to study the physicomechanical characteristics of hemostatic sutures during operations on parenchymal organs and deformation of the organ parenchyma when tightening suture nodes.

Closest to the claimed is a "pointer tension transmission flexible connection" RU 2523534 C2.

However, this device cannot be used in the field of medicine, in particular experimental surgery, in full, since it only allows the transfer of flexible communication. The presence of a working spring complicates both the use of the device and its maintenance. The presence of only one rack limits the function of the device in only one plane. The specified prototype consists of a large number of small parts, which may also limit the scope. This device cannot be used with additional technological equipment, as a result there are difficulties in the objective graphical display of the studied changes. This is due to the complexity of the design of the prototype.

The technical result of the utility model is the study of the properties of known hemostatic sutures, as well as the study of the ability to deform the organ parenchyma under the action of mechanical load on it with suture material. This will allow you to choose the least traumatic type of hemostatic suture, suture material, as well as to choose the most effective methods for strengthening the sutures, which will reduce the risk of postoperative complications, reduce the time of rehabilitation of patients after heavy operations on parenchymal organs.

The technical result is achieved due to the integral design, a horizontal base, to which are attached two lower racks located next to each other in the center of the platform from below and serving as a fastening device to a horizontal surface, and two upper bent semi-shaft racks located at the edges (opposite each other) . They have plastic pulleys. On a horizontal base there is an object table, adjustable in height for the convenience of working with samples of different sizes.

The utility model is illustrated by the figure:

The figure shows a device for studying the physico-mechanical characteristics of sutures and suture material, the degree of deformation of the parenchyma of organs.

The device is made in the form of an integral structure, including a horizontal base (length 145 mm, width 90 mm, thickness 1 mm) (1), to which four vertically arranged racks are attached. Two lower racks of the same size (length 5 mm, width 65 mm, thickness 1 mm) (2) are located next to each other in the center of the platform from the bottom and serve as a fastening device to a horizontal surface to provide a more reliable fixation, at the lower ends of the racks are located two plates on both sides 1 mm thick (3). The two upper bent semi-shaft racks of the same size (length 42 mm, width 120 mm, thickness 1 mm) (4) located at the edges (opposite each other), on which plastic pulleys with a diameter of 30 mm are fixed (5). They are attached with bolts of the same diameter (head diameter 8 mm, thread diameter 4 mm, length 10 mm) with nuts M 4 (6). Through the pulleys, the threads of the free ends of the assembly are held. At the same time, on a horizontal base there is an object table (8), adjustable in height for the convenience of working with samples of different sizes. It is an element with two horizontal bases of the same dimensions (length 80 mm, width 80 mm, thickness 1 mm) and a sleeve 45 mm long, 23 mm in diameter (10) with right-hand thread, as well as a bolt screwed into a sleeve 45 mm long , with a diameter of 8 mm, with the help of which height adjustment is carried out.

The operation of the device is as follows. After fixing the device on a universal testing machine, the electromechanical SEM - 0.2-1 using the lower struts, the free ends of the threads of the hemostatic seam assembly are passed through the pulleys and are connected on the upper vice of the testing universal electromechanical SEM - 0.2-1. In this case, the unit is tightened with a machine with equal force in mutually perpendicular planes, which allows you to simulate the tightening process performed by the surgeon.

An example of a specific use: on the basis of the Laboratory of Experimental Surgery and Oncology, Research Institute of Experimental Medicine, FSBEI HE Kursk State Medical University, under the conditions of the experiment, the lower struts of the device are fixed in the lower grip of the universal testing machine of electromechanical SEM - 0.2-1. The upper vice of the testing machine is installed at a height of 50 mm above the level of the axles of the pulleys of the device. As a sample, a separated section of the human liver parenchyma without pathological changes of 75 × 70 × 40 mm in size is used, on which a wound channel 30 mm long and 20 mm deep is modeled. The simulated wound canal is sutured using the studied technique of applying Telkov’s hemostatic suture, one simple half-node is applied. A uniflex monofilament suture length of at least 500 mm is used. Then the sample is placed on the object stage of the device, and the free ends of the threads of the hemostatic seam assembly are passed through the pulleys and fixed on the upper vice of the testing machine. The assembly is tightened by a machine with equal force in mutually perpendicular planes and registration of the tension force indicators on the screen of the testing machine.

In this case, deformation of the tissue of the test sample and suture material is observed. Received data are recorded in the protocol for further interpretation.

Thus, the proposed device will allow you to study the degree of deformation of the organ parenchyma with suture material during modeling of the tightening of the suture node, examine the physicomechanical properties of the sutures, choose the least traumatic type of suture and suture material, and develop guidelines for practicing surgeons.

Claims (1)

A device for studying the physicomechanical characteristics of sutures and suture material, the degree of deformation of the organ parenchyma, including an integral structure consisting of a stand, pulleys, bushings, characterized in that it consists of a horizontal base to which four vertically located racks are attached: two lower racks are the same sizes are located next to each other in the center of the platform from the bottom and serve as a fastening device to a horizontal surface, at the lower ends of the racks there are two plates on both sides n and two upper racks, curved by a semi-shaft, of the same size, located on the edges opposite each other, on the tops of which plastic pulleys are fixed, which are attached using bolts of the same diameter with nuts, while on the horizontal base there is an object table, which is an element with two horizontal bases identical sizes and with a sleeve with a right-hand thread, as well as a bolt screwed into the sleeve.

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