RU195163U1 - BRAIN HYPOTHERMIA APPARATUS - Google Patents

Abstract

The utility model relates to medical equipment, specifically to the field of autonomous non-volatile devices for emergency implementation of craniocerebral hypothermia of the human brain in critical situations. The device contains a thermally insulated working chamber, in a design embodiment made in the form of a sushuar cap, equipped with an input for inputting the head, elastic seal with the possibility of a snug fit around the head and sealing the volume of the working chamber behind the surface introduced tins during the implementation of the act of hypothermic action, a cylinder for placement in a liquid phase state under high pressure of a fluorocarbon refrigerant, a valve installed in a closed state during storage and open state during the implementation of the act of craniocerebral hypothermia, a capillary tube that acts as a discharge pipe connected inlet to the valve outlet and the output is connected to the input of the collector, on the surface of which, facing the head, a set of holes is made with the possibility of installation new to them are removable nozzles in the form of nozzles, an outlet pipe introduced into the volume of the working chamber to discharge the spent refrigerant into the external environment, a disposable cap used in the implementation of the act of craniocerebral hypothermic exposure, an electronic thermometer with two remote temperature sensors. The proposed hypothermic apparatus is different a high degree of mobility, non-volatility, ease of use, provides the ability to change over a wide range of hypothermic parameters about the impact on the brain in order to save life in critical situations, accompanied by cardiac arrest, with strokes, shock conditions, skull injuries, resuscitation, including in case of an accident, etc. 1 zp f-ly, 1 ill.

Description

Apparatus for hypothermia of the brain

The utility model relates to medical equipment, specifically, to the field of autonomous non-volatile devices for emergency implementation of craniocerebral hypothermia of the human brain in critical situations.

A portable device for cooling the brain in patients with cardiovascular disorders at the stage of first aid is known, containing a container with high-pressure fluorocarbon refrigerant, a pipeline for supplying refrigerant to the cooling zone, realizing boiling at low temperatures and lowering the temperature of the object in the zone to the specified values, the pipeline for the discharge of spent refrigerant into the atmosphere (see http://sohmet.ru/news/item/f00/s05/n0000511/index.shtml).

As an object subjected to cooling by boiling a refrigerant in a known device, is a container with oxygen. Further, a stream of chilled oxygen is supplied through tubes inserted into the nostrils of a person, providing a hypothermic effect.

A disadvantage of the known device is the complexity of the applied two-stage scheme of craniocerebral hypothermic exposure, which does not allow to save a person’s life in critical situations associated with cardiac arrest by implementing high-speed cooling modes with specified temperature-time characteristics in the brain, and, as a result, lengthen the gap time allocated to operational resuscitation measures by increasing the duration of a reversible clinical condition oh death.

The closest in technical essence and the achieved result to the proposed device is an apparatus for hypothermia of the brain, containing a coolant unit connected through a discharge pipe to a collector having openings on the surface facing the head and located in a heat-insulated working chamber, made with the possibility of putting on the head and equipped with an elastic seal around the head and a bypass pipe (see "Apparatus for hypothermia of the brain US 2008097560 A1. 2404. 2008).

A disadvantage of the known device adopted as a prototype is the difficulty of its widespread use in medical practice for the treatment of hypothermia.

The technical result of the utility model is the expansion of the arsenal of means for hypothermia of the brain.

The specified technical result is achieved by the fact that in the apparatus for hypothermia of the brain containing a coolant unit, connected through a discharge pipe to a collector having openings on the surface facing the head and located in a heat-insulated working chamber configured to be put on the head and equipped with an elastic a sealant around the head and a discharge pipe, according to a utility model, the coolant supply unit is made in the form of a cylinder for a liquefied gaseous coolant, nabzhennogo valve, the coolant used as the fluorocarbon refrigerant discharge line is designed as a capillary tube, an input connected to the output valve, and manifold holes are arranged to install them in the form of removable nozzles nozzles.

In addition, a disposable cap is placed in the apparatus on the side of the collector surface facing the head, an electronic thermometer is installed on the working chamber, the first temperature sensor of which is located in the cavity of the auricle, and the second is located under the disposable cap.

The essence of the utility model is illustrated by graphic materials.

In FIG. 1 schematically shows a General view of the proposed device.

The proposed device contains a thermally insulated working chamber 1, in a design embodiment made in the form of a sushuar cap, equipped with an elastic seal 2 at the inlet for entering the head with a tight fit around the head and sealing the volume of the working chamber 3 behind the surface of the inserted head during the implementation of the hypothermic act impact, cylinder 4 for placement in a liquid phase state under high pressure of fluorocarbon refrigerant 5, valve 6, installed in a closed container During storage and open state during the implementation of the act of craniocerebral hypothermia, a capillary tube 7, which acts as a discharge pipe, is connected inlet to the outlet of the valve 6 and connected to the inlet of the manifold 8 on the surface of which, facing the head, a set of openings is made with the possibility of installation they have removable nozzles 9 in the form of nozzles, an outlet pipe 10, an input introduced into the volume 3 of the working chamber 2, for removal into the external environment of the spent refrigerant 5, a disposable cap 11, enyaemaya when implementing act kraniotserebralnogo hypothermic exposure, electronic thermometer 12 with two remote temperature sensors 13 and 14.

The proposed device operates as follows.

When a critical situation occurs due to cardiac arrest and cessation of breathing, there is an urgent need for a quick, prompt organization of a set of resuscitation measures.

At the same time, the duration of the period of time, calculated from the beginning of resuscitation measures to the resumption of cardiac activity, should not exceed the duration of the state of clinical death, which depends on the temperature of the cerebral cortex and significantly increases during craniocerebral hypothermia up to one or two hours.

To implement the act of hypothermic operation of the device, a sensor 13 is preliminarily placed on the surface of the skin of the head, fixing it by putting a disposable cap 11 on the head.

A sensor 14 is placed in the cavity of the auricle.

Take out from the packaging a heat-insulated working chamber 1, made, for example, in the form of a sushuar cap, in which a collector 8 is installed, connected to the outlet of the valve 6 of the cylinder 4 by means of a capillary tube 7. The patient’s head is inserted through the entrance to the volume 3 of the working chamber 1 around the head elastic seal 2 and fixing the sensor wires. Open valve 6. In this case, the fluorocarbon refrigerant 5, stored in the cylinder 6 under high pressure in the liquid phase state, begins, throttling to atmospheric pressure, forcibly flow through the capillary tube 7, entering the manifold 8, where it boils at low temperatures.

The resulting low-temperature vapor of the refrigerant 5 through the removable nozzle-nozzles 9 leaves the collector 8 in the form of a combination of cold streams and acts on the outer surface of the disposable cap 11, providing its cooling and further cooling of the scalp.

The spent vapor of the refrigerant 5 is removed from the volume 3 of the working chamber through the bypass pipe 10.

By controlling through the valve 6 the mass flow rate of the refrigerant 5 through the capillary tube 7 and, further, the cooling capacity of the apparatus and the intensity of heat removal from the outer covers of the head, ensure that the temperature conditions determined by the readings of the external sensors 13 and 14 of the electronic thermometer 12 correspond to the values of the temperature conditions recommended medical requirements, throughout the entire process of resuscitation.

The proposed technical solution can be the basis for a new generation of hypothermal craniocerebral devices, characterized by a high degree of mobility, energy independence, ease of use, providing the ability to change over a wide range of parameters of hypothermic effects on the brain in order to save life in critical situations accompanied by cardiac arrest, strokes, shock conditions, skull injuries, resuscitation, including in road accidents, etc.

Claims (2)

1. Apparatus for hypothermia of the brain, containing a coolant unit, connected through an injection pipe to a collector having openings on the surface facing the head and located in a heat-insulated working chamber configured to be put on the head and provided with an elastic sealant around the head and a drain pipe characterized in that the coolant supply unit is made in the form of a cylinder for a liquefied gaseous coolant equipped with a valve, while the fluorocarbon refrigerant is named, the discharge pipe is made in the form of a capillary tube connected inlet to the valve outlet, and the manifold openings are configured to install removable nozzles in the form of nozzles. 2. The apparatus according to claim 1, characterized in that a disposable cap is placed on the side of the collector surface facing the head, an electronic thermometer is installed on the working chamber, the first temperature sensor of which is located in the cavity of the auricle, and the second is located under the disposable cap.

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