RU217970U1 - Device for tensiometric assessment of the strength of wound healing - Google Patents

Abstract

The utility model relates to the field of veterinary medicine, namely to the study of the healing process and the influence of various factors on it, as well as an objective assessment of the mechanical strength of wound healing. The claimed early tensiometer consists of a receiver, a piston-rod, a rubber tube, a tee, a rubber bulb with a valve, a pressure gauge, two clamps with removable legs. The developed model of the tensiometer has a simplified design, which allows it to be used in scientific and economic experiments and fixed to the object of study non-invasively, since the attachment tabs are removable and mounted on glue.

Description

The utility model relates to the field of veterinary medicine, namely to the study of the healing process and the influence of various factors on it, as well as an objective assessment of the mechanical strength of wound healing.

It is known from the existing state of the art that the strength of an operating or accidental wound becomes an objective factor in assessing the healing process. The importance of this technique is represented by the possibility of studying both the wound process itself and the influence of various factors on it. In 1957 L.S. Zhuravsky and M.B. Mishin developed and proposed for use in the clinic an original method for measuring the adhesion strength of linear postoperative wounds. The device proposed by the authors consists of a spring balance with a scale and a pointer connected to a spring to which a hook is attached. Flat rectangular loops of 0.5 cm ² with a ring for the scale hook are made of bronze-aluminum wire with a diameter of 0.4 mm. This is one of the invasive methods of measuring the strength of wound healing by implanting a special wire loop between the sutures, followed by extraction with a spring dynamometer, where the force is determined in grams.

Bushmelev V.A. and Shimlyaev V.N. in 1989, a wound tensiometer was proposed, containing a loading unit, a measuring unit, movable and fixed elements with clamps. Characterized by the fact that in order to ensure the possibility of measuring the linear deformation of the edges of the wound during the entire loading process, it is equipped with a bracket, guides, two frames fixed on the bracket with a rod with a load force element, while the movable and fixed elements are interconnected by means of guides, the node loading consists of an elastic spring element, on the one hand connected to the latch of one of the moving elements, on the other hand - with a rod. The measuring unit is made in the form of rheostatic displacement and force sensors with sliding sliders, while the displacement sensor is fixedly fixed on the guides, and its sliding slider is rigidly connected to the corresponding moving element. The force sensor is rigidly connected to another moving element, and its sliding slider is installed between the elastic spring element and the rod and is rigidly connected to it (SU No. 1459660, A61B 17/02, publ. 23.02.1989). The proposed device is too bulky, in terms of research and production experience is difficult to apply. To test textile materials, RTM-1 machines are used with a device for recording a diagram in the load-strain coordinates. When the material sample is stretched, a force is generated that deflects the pendulum through the upper clamp and the lever. The pendulum moves the rail, which rotates the working arrow, showing the force on the load scale. The closest in its technical essence is a mechanical tensiometer (RU 163084 U1, IPC A61B 17/02, publ. 07/10/2016) for the experimental study of tensiometric measurements of linear wounds, containing a movable element and a fixed element with clamps at the ends, characterized in that additionally contains a base with a fixed electronic scale and a movable platform with a macroscrew, and the fixation of the skin flap is carried out linearly using two fastening elements made in the form of flat rectangular metal plates fastened with two bolts and nuts. However, the device has a significant drawback, which is that it is bulky, the fixation plates must be sutured to the edges of the wound, so our invention is simpler and more reliable. The technical task is to conduct a tensiometric assessment of wound healing by a non-invasive method. The technical result is achieved by a tensiometer model with removable legs attached to the object of study with glue. The claimed early tensiometer consists of a receiver cylinder 50 cm ³ , a piston rod, clamps, removable legs, screws, a pressure gauge, a rubber bulb with a valve, a rubber tube, a tee. The drawing shows an early tensiometer in general view. 1. Cylinder-receiver; 2. Piston rod; 3. Clamps; 4. Removable paws; 5. Screws; 6. Pressure gauge; 7. Rubber bulb with valve; 8. Rubber tube; 9. Tee.

The device works as follows. Paws were put on the wound tensiometer, they were degreased, after the solvent had dried, glue was applied and fixed on the edges of the wound in a prepared place, air pressure was created in the receiver using a rubber pear, which set the piston-rod with paws in motion, the divergence of the edges of the skin wound was noted on a manometer.

Claims (1)

A device for tensiometric assessment of the strength of wound healing, containing a movable and a fixed element with fixing tabs at the ends, characterized in that the movable element is a piston-rod, the fixed element is a cylinder-receiver, the device additionally contains a pressure gauge and a rubber bulb with a valve, made with the possibility of creating air pressure in the cylinder-receiver to drive the piston-rod, and the tabs-clamps are made removable with the possibility of their installation and fixation to the edges of the wound by means of glue.

Images