RU2703315C1 - Model of formation of open pneumothorax - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to experimental medicine, namely to pathological physiology, general surgery, thoracic surgery, and can be used as an indicative simulator, as well as testing new adhesive stickers for eliminating open pneumothorax. In the model of forming an open pneumothorax comprising a body and a pump, the body is rectangular of 6 mm thick polymethyl methacrylate, the seams of which are treated with a silicone sealant, wherein on the upper surface of the body there is a hole for simulating a defect with length of 80 mm with the possibility of applying a medical adhesive sticker with width of 40 mm, on the front side surface a hole is made with diameter of 25 mm and on the right side surface there are two round holes with diameter of 15 mm, wherein the circular hole on the front side surface is complemented with a thread for mounting a tube with a pressure gauge, at the ends of which there are two blown-up balls of rubber latex, on the right side surface there are two round holes for installing a pressure gauge and a pump for pumping air into the housing.

EFFECT: developed experimental prototype for simulation of open pneumothorax.

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Description

The invention relates to experimental medicine, namely to pathological physiology, general surgery, thoracic surgery and can be used as an indicative simulation simulator, as well as a test of new adhesive stickers to eliminate open pneumothorax.

There are various methods for the formation of open pneumothorax, both in vitro and in vivo are presented below.

Using the in vivo thoracoscopy technique. The operation is performed under general inhalation anesthesia. Laboratory animal lies on a healthy side. After pre-treatment with antiseptics, an incision point is planned in the IV-V intercostal space, to the right, anterior to the middle axillary line. A skin incision is performed, then a trocar is inserted and artificial pneumothorax is applied. (Postgraduate readings-2015 SBEI HPE SamGMU of the Ministry of Health of Russia, 2015, pp. 235-236).

The following operations and manipulations were performed to create a model of open pneumothorax. A penetrating wound was inflicted on the right half of the chest with the formation of a stab-cut wound 5-8 cm long in the 5-7th intercostal space on the right. The wound was gaping. At the time of injury, a malfunction in cardiac and respiratory activity was clearly defined. The pleural cavity was freely in communication with the environment. (Federal State Budgetary Military Educational Institution of Higher Education "Kirov Military Medical Academy" of the Ministry of Defense of the Russian Federation, hereinafter (FGBVOU VMA named after S.M. Kirov of the Ministry of Defense of the Russian Federation) "Improving the methods for providing medical care to life-threatening military personnel the consequences of chest injuries in the area of hostilities "The dissertation for the degree of candidate of medical sciences Rozov AI, 2016, 70-71 pp.).

Domestic mannequin (simulator) for developing skills to eliminate pneumothorax type "МU0131 - Pleural cavity puncture simulator for pneumothorax", manufactured by the company "MED Mannequin" St. Petersburg, Russia. The simulator is an anatomical model of the upper torso of a person. The model has a convenient reference system (clavicle, sternocleidomastoid muscle, ribs) used in clinical practice. On the lateral surface of the chest there is a removable hollow block (level 2-7 ribs), the outer wall of which, in terms of its relief and mechanical properties, corresponds to the natural characteristics as much as possible. The cavity of the unit communicates with a rubber pump, with the help of which pressure of different sizes can be created. The simulator is designed to practice pleural puncture skills with intense pneumothorax.

For the closest in technical essence as a prototype, we have chosen a model of in vitro pneumothorax formation on a mannequin (simulator) for developing skills for eliminating pneumothorax of the type "MU0131 - Pleural cavity puncture simulator for pneumothorax", manufactured by the "MED Mannequin" company, St. Petersburg , Russia (link to the site: http://med-maneken.ru/shop.php?action=good&id=2213).

The simulator is an anatomical model of the upper torso of a person. The model has a convenient reference system (clavicle, sternocleidomastoid muscle, ribs) used in clinical practice. On the lateral surface of the chest there is a removable hollow block (level 2-7 ribs), the outer wall of which, in terms of its relief and mechanical properties, corresponds to the natural characteristics as much as possible. The cavity of the unit communicates with a rubber pump, with the help of which pressure of different sizes can be created.

According to the authors of the proposed method, both analogue methods and the method chosen by us as a prototype have the following disadvantages. The developed simulator makes it possible to create a strained pneumothorax, with the possibility of holding it with the help of gas supply systems in the simulated pleural cavity, but modeling of open pneumothorax is not performed, which in turn does not provide an adequate opportunity to assess the effectiveness of modern and promising domestic adhesive stickers with and without valves created to eliminate open pneumothorax.

The objective of the invention is:

- development of a model for practicing manual skills with the aim of forming standards for the relief of emergency conditions with open stressed and unpressed pneumothorax.

- the formation of an optimal model of open non-stressed and intense pneumothorax.

- testing prototypes of medical devices with exorbitant loads (a set of adhesive stickers with and without valves to eliminate open pneumothorax.

The solution to this problem is ensured by the fact that in the model for the formation of open pneumothorax, including the casing and the pump, the casing is made of rectangular 6 mm thick polymethyl methacrylate, the seams of which are treated with silicone sealant, and a hole for modeling a defect of 80 mm long, 40 wide is made on the upper surface of the casing mm, which is made with the possibility of applying a medical adhesive sticker, a hole with a diameter of 25 mm is made on the front side surface, and on the right side surface but two round holes of 15 mm diameter, with a round hole supplemented thread on the front side surface for mounting tube pressure gauge, the ends of which there are two inflated balloon of rubber latex; on the right side surface there are two round holes for installing a pressure gauge and a pump for pumping air into the housing.

The technical result of the invention is a developed experimental sample (mock) for modeling open pneumothorax. The technical result is achieved by the fact that the sample of the experimental product for modeling open pneumothorax was initially performed using 3D modeling using the COMPASS 3D program. After that, polymethylmethacrylate 6 mm thick was chosen as the material for the implementation of this device. Using Acrifix-117 glue and heat treatment, a rectangular prototype 500 mm long, 350 mm wide, 200 mm high was made. For additional tightness, the seams are treated with Silirub-2 silicone sealant. Thus, we formed the basis of the experimental device. After that, the technical holes were made: rectangular in shape on the upper surface of the layout 80 mm long, 40 mm wide, round on the front side surface with a diameter of 25 mm, and on the right side surface two round holes with a diameter of 15 mm. A rectangular hole on the upper surface is made to test a special medical adhesive sticker (the hole models open pneumothorax). A round hole on the front side surface supplemented with thread for installing a tube with a pressure gauge, at the ends of which there are two inflated ball of rubber latex (representing a light and environment at the time of rest). Two round holes on the right side surface are made for installing a pressure gauge and a device for pumping air into an airtight box simulating a pleural cavity (creating a positive pressure (P mm. Water column) in it is necessary to evaluate the adhesive properties of the sticker on the upper surface of the device. we have tested a sealing sticker glued to a rectangular hole on the top surface of the layout. A specialized medical sticker showed good adhesive properties when applied to a hole even on positive P = 20.40 mm water column, the sticker adheres well to the surface of the layout, no data was obtained for depressurization.

In FIG. 1 is a diagram of a model of an apparatus for modeling open pneumothorax; FIG. 2 is a longitudinal section of a wall diagram of a model of an apparatus for modeling open pneumothorax.

The device contains:

1) body (chest);

2) defect (model of chest wall defect);

3-a) the outer ball (external environment), b) the inner ball (imitating the lung);

4) pear-shaped pump;

5) pressure gauge for displaying pressure of the housing;

6) pressure gauge to display pressure in the balls. The device operates as follows:

A defective sealing sticker is applied to the defect (2) located on the housing on the front-upper surface (1) (for evaluating adhesive properties), after which atmospheric air is supplied to the cavity of the body (simulating a pleural cavity) using a pear-shaped pump with a valve (4) ) (1), followed by an assessment on the pressure display gauges (P mm. Water column) of the body and balls (1), (3a, 3b), (5), (6).

The developed model makes it possible to develop manual skills with the aim of forming standards for the relief of emergency conditions with open stressed and unpressed pneumothorax; makes it possible to ensure the formation of an optimal model of open, non-stressed and intense pneumothorax; makes it possible to test prototypes of medical devices with exorbitant loads (a set of adhesive stickers with and without valves to eliminate open pneumothorax. "

Claims (1)

A model for the formation of open pneumothorax, including a casing and a pump, characterized in that the casing is made of rectangular 6 mm thick polymethyl methacrylate, the seams of which are treated with silicone sealant, and a rectangular hole is made on the upper surface of the casing to model a defect 80 mm long, 40 mm wide, which made with the possibility of applying a medical adhesive sticker, a hole with a diameter of 25 mm is made on the front side surface, and two round holes are made on the right side surface a hole with a diameter of 15 mm, while the round hole on the front side surface is supplemented with a thread for installing a tube with a manometer, at the ends of which there are two inflated balls of rubber latex; on the right side surface there are two round holes for installing a pressure gauge and a pump for pumping air into the housing.

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