RU2419886C1 - Device for nonsurgical simulation of interorecertor thermal burn shock in acute experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device represents a gastric tube. On a working end of the tube, there is a capsule inserted into a tube gap and consisting of a homogeneous solid substance self-ignitable when affected by water. In that specific case, sodium metal is used as a substance which is ignitable spontaneously when affected by water. In that specific case, potassium metal is used as a substance which is ignitable spontaneously when affected by water. On the outside, the capsule is coated with an elastic film attached to the working end of the tube. A non-working end of the tube is tightly attached to a syringe with water.

EFFECT: more comfortable manipulation for an experimenter, extended range of products for simulation of interoreceptor thermal burn shock.

1 dwg

Description

The present invention relates to experimental medicine, namely to experimental resuscitation and pathological physiology.

A device is known for modeling interoreceptor thermal burn shock (Turkmenov MT "Principles of physiological modeling and the results of the study of some threatening conditions in the experiment", Frunze, Ilim, 1975, pp. 107-108), taken as a prototype. It consists of a gastric tube and a graduated funnel.

The method for modeling interoreceptor thermal burn shock using a known device, with all its positive aspects, has significant disadvantages. It reproduces the model in a surgical, “bloody” way, it is technically difficult to do, and at the same time it significantly “lubricates” the clinical picture of the interoreceptor thermal burn shock in the experimental animal due to the fact that hot water, having direct contact with the gastric mucosa, has not only thermal, but and hydrolytic effect. In addition, it seems difficult to accurately expose the damaging effects of hot water on the stomach, since it takes a certain time for its introduction and excretion.

The objective of the invention is to create a simple device for modeling interoreceptor thermal burn shock without opening the cavities of the experimental animal and suturing.

EFFECT: increased convenience of work, expansion of the arsenal of technical means for modeling interoreceptor thermal burn shock.

The drawing shows a diagram of the proposed device.

The device is made in the form of a gastric probe 1. At the working end of the probe 2 is a capsule 3 inserted into the lumen of the probe, consisting of a homogeneous solid, self-igniting when exposed to water. (Such substances that spontaneously ignite when exposed to water include, for example, metallic sodium and potassium.) The capsule 3 is coated on the outside with an elastic film 4. The non-working end of the probe is sealed to a syringe 5 with water.

The present invention is used as follows.

A small laboratory animal, for example a rat, under anesthesia is fixed on the operating table. A probe 1 is introduced through the pharynx to the stomach. A sufficient amount of water is filled into the film 4 with a syringe 5 through a probe 1 into the film 4 (approximately 0.5 ml per 10 g of animal weight). The capsule 3 is expelled from the lumen of the probe 1. In this case, an exothermic reaction occurs with a large heat release, for example: 2Na + 2H ₂ O = 2NaOH + H ₂ +135 kcal. This causes the capsule 3 to melt, rupture of the film 4, and self-ignition of the generated hydrogen, which leads to significant burns to the stomach of the laboratory animal.

Next, they observe the increase in clinical symptoms of thermal burn shock in a laboratory animal and are regularly examined, including using electrophysiological methods.

The proposed device allows non-surgical modeling of interoreceptor thermal burn shock of varying severity in small laboratory animals, it is uncomplicated and consists of a minimum of constituent elements.

Claims (3)

1. Device for modeling interoreceptor thermal burn shock non-surgical way, consisting of a gastric probe with working and non-working ends, characterized in that the non-working end of the probe is hermetically connected to the syringe with water, and on the working end of the probe is a capsule inserted into the probe’s lumen, consisting from a homogeneous solid, self-igniting when exposed to water, coated on the outside with an elastic film hermetically fixed to the working end of the probe. 2. The device according to claim 1, characterized in that as a solid substance, self-igniting when exposed to water, metal sodium is used. 3. The device according to claim 1, characterized in that as a solid substance, self-igniting when exposed to water, use potassium metal.

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