RU174554U1 - Device for simulating a thermal burn in an experiment on laboratory animals - Google Patents

Abstract

The utility model relates to the field of medicine, in particular to devices designed to simulate a thermal burn in an experiment on laboratory animals, in order to improve the method of treatment of this pathology. The utility model is based on the creation of a device for simulating a thermal burn in an experiment on laboratory animals, which makes it possible to form burns of a given depth and area on laboratory animals in order to more accurately evaluate the burn parameters - the burn area and penetration depth. The solution to this problem is provided by the fact that the device for simulating a thermal burn in an experiment on laboratory animals by applying a burn contains: a heating element, a work surface in the form of a copper nozzle, a temperature sensor installed directly in the copper nozzle connected to a multimeter, a phase power regulator, and a strain gauge mounted in the handle of the heating element. 1 ill.

Description

The utility model relates to the field of medicine, in particular to devices designed to simulate a thermal burn in an experiment on laboratory animals, in order to improve the method of treatment of this pathology.

Known methods for modeling a burn wound of the skin of the III degree in an experiment on a laboratory animal (Patent for the invention No. 2472232, G09B 23/28, A61N 5/06, publ. 10.01.2013).

The disadvantages of this method is that it requires the use of special technically sophisticated and expensive equipment, in addition, there is no direct control of the temperature of the copper plate immediately at the time of application of the burn.

The utility model is based on the creation of a device for simulating a thermal burn in an experiment on laboratory animals, which makes it possible to form burns of a given depth and area on laboratory animals in order to more accurately evaluate the burn parameters - the burn area and penetration depth.

The solution to this problem is provided by the fact that the device for simulating a thermal burn in an experiment on laboratory animals by applying a burn contains: a heating element, a work surface in the form of a copper nozzle, a temperature sensor installed directly in the copper nozzle connected to a multimeter, a phase power regulator, a strain gauge mounted in the handle of the heating element.

A utility model is illustrated in FIG. 1, which shows a device for simulating a thermal burn in an experiment on laboratory animals.

The design uses a household electric soldering iron [1] operating as a heater, operating from the network (220 V w = 50 Hz) with a power of 100 W. To regulate the temperature of the soldering iron, it is connected to the network through a phase power regulator [2]. A nozzle made of copper [3], specially made on a lathe, of the desired diameter of 20 mm, an area of 3.14 cm ^{2, is} attached to the soldering iron. The shank of the nozzle coincides in diameter with the diameter of the shaft of a standard ginger. To measure the temperature of the nozzle immediately at the time of the burn, a high-precision thermal sensor [4] is used, which is a thermocouple attached to a hole made on the tip. The thermocouple is connected to the multimeter [5] via a long wire for easy operation. To measure the pressure created during the burn, a tensometric force sensor (force sensor) EMS70 [6] is used to measure the compression forces mounted on the handle of the soldering iron and transmitting information to the multimeter. The uniqueness of the device is that it is possible to adjust and measure t at the time of a burn, control the pressure on the skin created by the device, and calculate the area, thereby you can create burns of various sizes and degrees.

The proposed device is used as follows.

The first stage is the anesthesia of animals for this, a fold is formed on the anterior abdominal wall and an anesthetic solution is injected intraperitoneally with a thin needle. A rat under anesthesia is fixed on the board.

The second stage is the preparation of the surface of the rat skin. To do this, a clipper on six shaves the area on the back of a convenient size.

The third stage is the introduction of air. A syringe with a thin needle makes a puncture to the side of the shaved area and injects up to 30-40 ml of air to prevent the depth of the underlying tissues from heating.

The fourth stage is a burn. The working surface of the device is heated to 250 ° C and then held on the surface of the skin of the rat for 10 seconds. In our case, the pressure was 1 kPa, of which 800 Pa was created by the mass of the device itself (250 g) and 200 Pa of additional force. Given that the surface area of the nozzle is 3.14 cm ² and the surface area of the rat is 319.9 cm ² , the burn area is approximately 1%. Therefore, it is possible to apply burns of different sizes

The calculation of the surface area of the skin of the rat is carried out according to the formula proposed by M.Lee in 1929:

S = 12.54 × M ^0.66 ,

where S is the surface of the body, cm ² ; M - body weight of the animal, kg

Observations

The resulting burns of the III degree have a rounded shape, the bottom of the wounds is dark yellow, a small number of bubbles are noted along the periphery of the wound.

The advantages of the proposed method is that it is possible to adjust and measure t ° at the time of the burn and calculate its area, thereby creating standardized burns of varying degrees and area.

Claims (1)

A device for simulating a thermal burn in an experiment on laboratory animals by applying a burn containing a heating element, a working surface in the form of a copper nozzle, characterized in that a thermal sensor is installed directly in the copper nozzle connected to the multimeter, while the heating element is connected to the network through a phase regulator power, and a strain gauge sensor is installed in the handle.

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