RU2771879C1 - Hemostatic rod for emergency stop of bleeding in penetrating bullet wounds - Google Patents

Abstract

FIELD: military medicine.

SUBSTANCE: invention relates to military medicine; it is intended for emergency stop of bleeding in penetrating wounds inflicted by firearms or cold weapons. The device is a rod, in the form and size of an ordinary pencil, which is inserted directly into the wound canal with a pointed end without any preliminary treatment of the wound. The rod is made of compressed or sublimated porous hygroscopic material, which, upon contact with blood, begins to actively absorb the liquid phase of blood, swells and, increasing in volume, blocks the flow of blood from damaged vessels both outside and deep inside the wound. To speed up the process, rod material contains a dry hemostatic preparation that actively coagulates blood throughout the depth of the wound canal. For an analgesic effect, the outer surface of the rod is coated with potent local anesthetic.

EFFECT: simplicity and efficiency of the application, possibility of self-help, absence of blocking of the general blood circulation and the need for time control during transportation of the wounded are achieved.

2 cl

Description

The device refers to medicine and is designed to temporarily stop bleeding in deep, penetrating wounds (bullet).

The aim of the invention is to create a simple, compact, efficient and fast-acting hemostatic device that provides maximum efficiency when used in the field, with the possibility of providing self-help and mutual assistance.

Various hemostatic devices are known, such as tourniquets of various schemes and designs, tourniquets, napkins, hemostatic sponges, plasma-gelatin tampons, pneumotampons and wound dressings with thrombin.

There are also methods of using high local temperatures for protein coagulation, a method of using low temperatures (liquid nitrogen through a cryoprobe), as well as the use of high energies (laser and plasma knives) that cause tissue evaporation and the formation of a necrosis zone.

The closest in essence to the presented invention are the product of the American company RevMedx (patent unknown) called the "plug" XSTAT, which is a plastic syringe with pressed cellulose granules that are inserted directly into the wound to stop bleeding.

It is known about the use of this device in real combat conditions. It follows from the report that XSTAT was used already after first aid and limitedly, only to stop peripheral bleeding.

The second close analogue is "Self-expanding sheath tampon for temporary stopping of bleeding in wound channels." (patent RU 165880 U1) developed at VmedA named after V.I. Kirov and representing a perforated rod with a sheath put on it, into which polyeritan foam is pumped from a cylinder, which, when solidified, blocks the bleeding.

Nothing is known about the actual use of the device, but following from the description, the disadvantages include the impossibility of controlling the filling of the shell with foam. When cured, the foam has a high coefficient of linear expansion and can rupture the wound channel.

The disadvantage is also the limitation of use at negative temperatures below -10 degrees Celsius.

The purpose of the present invention is to create an individual tool that provides the most effective stop of blood loss in deep, narrow wound channels (bullet) throughout their depth, with the possibility of providing self-help and mutual assistance when used in field, combat conditions, as well as providing an analgesic effect using local anesthetics and acceleration of the process of blood coagulation inside the wound due to the use of hemostatic drugs.

The goal is achieved by the fact that in the hemostatic rod, consisting of a compressed or sublimated porous, but durable spongy material, there is a dry fraction of the hemostatic drug distributed throughout the volume, and the outer part of the rod is covered with a soluble layer of a potent local anesthetic. For rigidity of the device during penetration and extraction, the rod has internal reinforcement (spiral or sector), which also prevents partial fragmentation of the porous material.

Using the device is as follows.

In case of injury, the rod is removed from the sealed vacuum package and, without prior tourniquet and wound treatment, is inserted with a pointed end directly into the wound channel until it stops. In the case of a penetrating or large-diameter wound, two or more rods may be used.

After contact with blood, the porous material of the rod begins to actively absorb the liquid phase of the blood, swelling and increasing in volume. At the same time, the anesthetic coating is activated and anesthetizes the wound site, and the dry hemostatic agent contained in the spongy material of the rod begins to actively clot the blood throughout the depth of the wound. As a result, the wound channel is sealed with a jelly-like mass consisting of a spongy rod material and clotted blood, providing tightness and stopping both external and internal bleeding. If necessary, the rod is fixed from above with a regular bandage or held by hands until fully activated.

Anesthesia occurs without additional injections due to the local anesthetic, which is an external, soluble layer on the rod and begins its action immediately after the rod is inserted into the wound channel.

After the threat of blood loss has passed and the wounded person has been transported to the hospital, the rod is removed manually by simply pulling on the internal reinforcement, to which the spongy material is attached, eliminating its fragmentation in the wound.

The device is applicable to stop bleeding in wounds of the chest and abdominal cavities, reducing or completely eliminating the phenomenon of pneumothorax and hemothorax.

When used on wounds of the extremities, this device does not need an additional tourniquet, and does not block blood circulation.

The shape of the rod allows it to be used to stop bleeding in the interosseous space.

The ease of use of the device does not require any qualifications and certain skills and allows you to provide mutual assistance and self-help in the field and combat conditions.

The advantages also include compactness and minimal weight, allowing you to have it in an individual first aid kit.

The manufacture of the rod does not involve the use of expensive components, which allows minimizing the cost of mass production.

The disadvantages include restrictions on the use of wide shrapnel, mine-explosive and amputation wounds.

Claims (2)

1. A rod for temporarily stopping bleeding in wound channels with penetrating wounds, characterized in that it has an internal frame-reinforcement made of light plastic, with a spiral or sector structure and, in general appearance and dimensions, is a pencil rod made of hygroscopic porous spongy material that, actively absorbing the liquid phase of blood, swells and, increasing in volume, blocks the free flow of blood, and for inserting the rod into the wound channel, the spongy material of the rod is pressed or compressed by sublimation and placed in sectors or in a spiral of the frame-reinforcement and is inextricably linked with him, and the spongy material of the rod throughout the volume contains a dry fraction of the hemostatic drug. 2. Hemostatic rod according to claim 1, characterized in that the outer surface of the spongy material of the rod has a soluble layer of local anesthetic.