RU2093117C1 - Field medical cryopackage producing dosed hypothermal effect - Google Patents

Abstract

FIELD: medicine; hypothermal means used to render emergency medical service. SUBSTANCE: proposed cryopackage comprises hermetically sealed polymer package, interior of which houses several thermoactive chemical substances placed in weighted amounts into containers, some of which are sealed, while some are made of paper. Water in provided in separate containers. Finally, cryopackage comprises sharpened ribbed rod intended to break seal of containers. Hermetically sealed polymer package is disposed on outside package, one side of which carries thermoinsulating coatings and liquid-crystalline thermoindicator, while other side is covered with heat-reflecting layer. EFFECT: hypothermal treatment of patient's tissues can be carried out in dosed manner; prolonged treatment effect. 1 cl, 2 dwg

Description

 The invention relates to medicine, in particular to hypothermic agents used in the provision of medical care to victims and patients.

 Known therapeutic packages for cooling body tissues of two main types. The former are based on the use of an endothermic reaction that occurs when some salts are dissolved in water (U.S. N 4462224, U.S. N 3559416 class 62-4, 1971). Such packages are convenient for use in the field, since they do not require the attraction of cold from the outside. But with a low heat capacity, instantaneous packets are not effective in hot climates and cannot provide the optimal level of hypothermia for various medical indications.

 The action of packages of the second type is based on the preliminary accumulation of cold by the contents of the package (for example, gel) in the refrigerating chamber (Cl. USA N 4595250, 1986, France. N 2589354, 1987). Such bags have a large heat capacity, but cannot provide an instant therapeutic effect without first cooling them for several hours in the freezer.

 In addition, all cooling packages (of the first and second type) have a significant drawback; their device does not allow regulating the heat removal from the body surface in the optimal mode corresponding to one or another medical condition.

 All existing cooling packages remain unadapted to the needs and capabilities of the sick person. Meanwhile, only dosed hypothermia can provide the necessary therapeutic effect and prevent complications associated with overcooling of body tissues. That is why the long-known recommendations on the need for the use of cold in a number of pathological conditions have not yet received widespread practical use in hospitals and have not been used in the field when providing first aid to victims.

 The closest in technical essence and the functions performed to the claimed invention is the "Therapeutic package for thermal exposure" (US patent N 3643665, A61F7 / O2, 1972), which is a hermetically sealed polymer bag containing in its cavity one thermoactive chemical and water which are separated by a polymer diaphragm. The package is actuated by compressing it by hand, as a result of which the specified diaphragm is destroyed. In this case, conditions arise for the endothermic reaction associated with the dissolution of the thermoactive chemical in water. The bag is covered with elastic polystyrene and aluminum foil, which if necessary can be removed selectively in one of the 4 sections of the bag having a different area and configuration.

 However, using the described “Therapeutic package for thermal exposure”, which is a package of simultaneous action, and includes only one portion of a thermoactive chemical substance, it is impossible to prolong its hypothermic effect and achieve sufficient tissue hypothermia with prolonged compression syndrome or provide the necessary heat removal during thermal shock, especially in hot climate conditions. The regulation of the intensity of cold exposure to tissues is limited only by two options: the first one is represented by the application of a cold source through the heat-protective coating of the bag, and the second consists in direct contact of the polymer bag with the skin (after removing the heat-protective layer). In addition, the prototype cryopackage under consideration does not have a simple, portable device for monitoring the degree of tissue cooling, which virtually eliminates the possibility of therapeutic dosing of hypothermia in the field.

 The purpose of the claimed invention is the prolongation of the action of the cryopackage and the provision of dosing taking into account medical indications and climatic conditions of tissue hypothermia.

 The essence of the invention lies in the fact that the cryopackage, made in the form of a hermetically sealed polymer bag, contains water and two thermoactive chemicals (for example, ammonium nitrate and sodium carbonate), packaged in several portions in separate inner bags. At the same time, the first portion of chemicals is packed in paper bags, instantly soaking when wetted, which ensures the immediate onset of a hypothermic reaction. Additional portions of chemicals are contained in sealed containers, opened at the right time.

 The simultaneous dissolution of two thermoactive chemicals (ammonium nitrate and sodium carbonate) potentiates the hypothermic reaction, and the possibility of fractional (batch) dissolution provides a prolonged hypothermic effect.

 Inside the package there is an element of destruction of the tightness of packages made of a polymer material in the form of a pointed ribbed rod.

 The regime of heat removal from the surface of the body that is optimal for each case is carried out using an external thermal protective bag, which has a heat-reflecting layer on the outside (for example, in the form of aluminum foil), and heat-insulating gaskets with different thermal conductivity on the side facing the body.

 On the same side of the bag there is a film-mounted liquid crystal thermal indicator used to measure the heat temperature and monitor the degree of tissue cooling in accordance with medical indications, as well as determine the moment when it is necessary to dissolve additional portions of thermoset chemicals.

 In FIG. 1 is a diagram of a field medical cryopackage with a dosed hypothermic effect.

 The cryopackage (A) is made in the form of a sealed polymer bag (1), inside of which in separate packages are water (2), thermoactive chemicals packaged in several portions, for example, ammonium nitrate nitrate (3, 4), sodium carbonate (5, 6) and the element of destruction of the integrity of the packaging (7). The outer thermal protective bag (B) is covered from the outside with a heat-reflecting layer, for example, aluminum foil (8), and from the side facing the body, it is represented by two heat-insulating gaskets (9) with different thermal conductivity. On the same side facing the body, a film-mounted liquid crystal thermal indicator (10) is fixed.

The cryopackage (A) works as follows: with the aid of the element for breaking the airtightness of the packages (7), the inner sealed package with water (2) is pierced, which is extruded into the general cavity of the cryopackage. Paper bags containing the first portions of chemicals (3, 5) from contact with water instantly soften and within a few seconds the reaction of dissolution of chemicals in water begins, as a result of which the temperature of the cryopackage decreases by 30 ^o C from the initial level. Subsequent batches of chemicals (4, 6) dissolve (after puncturing their packages with an element of breaking the integrity of the packages) at different package temperatures (+10, +15, +20 ^o C) as necessary. A cryopackage (A), already cooled from the first portion of chemicals, is placed in an external thermoprotective bag (B), which, due to gaskets with different thermal conductivity (9), prevents body tissues from cold damage. The degree of hypothermia is monitored using a liquid crystal thermal indicator (10).

Fractional dissolution of chemicals in a cryopackage and the use of a thermal protective bag provide a wide therapeutic range of tissue cooling, taking into account medical indications. So, with thermal burns in the first minutes, the use of a cryopackage with subzero temperatures (-10 -5 ^o C) is shown in order to eliminate hyperthermia (+50, +80 ^o C) in the burnt area of the body as soon as possible and thereby stop the ongoing thermal tissue destruction. After 5-10 minutes, when the need for sub-zero temperatures is eliminated, the application of the cryopackage in the burn area continues with the use of thermally insulating gaskets of the thermal protective bag. Due to this, moderate hypothermia (+ 20, + 30 ^o C) of burnt tissues is achieved, which has anti-inflammatory and analgesic effects.

In case of prolonged compression syndrome, cryopackages are applied to the injured limb using thin pads that provide deeper (+15, +20 ^o C) hypothermia, which increases the resistance of ischemic tissues to hypoxia and reduces the pathogenic effect of traumatic toxicosis.

When heat stroke or diencephalic hyperthermia occurs during traumatic brain injury, cryopackages are applied to various parts of the body using gaskets with low thermal conductivity in order to provide gradual cooling of the body (from +41 +42 ^o C to 37 ^o C). Such gentle cooling allows you to save a person’s life and at the same time prevent possible complications from the internal organs (for example, pneumonia).

 A film-based liquid crystal thermal indicator (10) located between the thermally insulating bag and the human body provides dynamic temperature control over the degree of tissue hypothermia in accordance with medical indications.

 The validity of the above is confirmed by the results of military trials of cryopackages in Afghanistan (150 packets), clinical trials in 3 TsVKG them. A. A. Vishnevsky (15 packets) and laboratory tests in a climatic chamber at various ambient temperature conditions (35 packets).

In FIG. 2 illustrates the test results of cryopackages in a climatic chamber at an ambient temperature of +36 ^o C (A) and +40 ^o C (B).

 The graphs 2.1 and 2.2 show the effect of deepening the prolongation of hypothermia (a 4-fold increase in its duration) when using the claimed cryopackage (2.2) in comparison with a cooling package of simultaneous action (2.1).

The positive effect of the claimed cryopackage is that it allows prolonged hypothermia due to fractional dissolution of chemicals and obtain a therapeutic effect in a desert and tropical climate at a temperature of +40 ^o C. In addition, due to the simultaneous use of a cryopackage and an external thermal protective bag with thermally insulating gaskets , as well as a portable film thermal indicator, it is possible to dispense hypothermia and temperature control over its conduct. Ultimately, the combination of distinctive features allows you to adapt the cryopackage to the needs and capabilities of the body, provide a therapeutic cooling effect and at the same time prevent possible complications associated with hypothermia of tissues and organs.

Claims (1)

 Field medical cryopackage with a dosed hypothermic effect, including a sealed polymer bag, in the cavity of which a thermosetting chemical substance and water are placed in separate packages, an element for breaking the airtightness of the packages, and an outer bag containing heat-reflecting and thermally insulating layers, characterized in that several thermoactive chemicals are packaged on packages, some of which have an airtight shell, and the rest are made of paper, the element of destruction of the integrity of the packages is made in lance de ribbed rod, wherein on one side of the outer package has insulating layers and thermal indicator liquid crystal, and the other thermally reflective layer.

Images