SU1113129A1 - Heat-exchange device for artificial blood circulation system - Google Patents

Abstract

1. TF.IlJIOOiSMIiHHOf.-: A DEVICE FOR ARTIFICIAL CIRCULATION, containing a housing and a diaphragm dividing the housing into a blood chamber and a heat transfer chamber with inlet and outlet fittings, characterized in that, in order to prevent an air embolism through Providing simultaneous heat exchange of blood deaeration and case detection of gas bubbles in the blood, the diaphragm is made of a gas-permeable material, and a gas phase concentration sensor is installed at the outlet of the heat transfer chamber. 2. A device according to claim 1, characterized in that the diaphragm is made of porous sheet polyvinyltrimethyrylane. 3. The device according to claim 1, incriminating in that the gas phase concentration sensor is conductometric. g (L 00 you with

Description

The invention relates to medical technology and can be used in extracorporeal circulation systems.

A heat exchanging device is known, which includes blood and heat carrier chambers separated by a partition and a chamber for air removal.

The disadvantage of this ustrostvo-tva is a large amount of filling, which leads to a large hemodilluction in the patient.

A heat exchanging device for cardiopulmonary circulation systems is known, comprising a housing and a diaphragm dividing the housing into the blood chamber and the heat transfer chamber with inlet and discharge valves 2.

The disadvantage of this heat exchanger is the danger of the patient's air embolism by gases generated in the blood when it is heated.

The purpose of the invention is to prevent air embolism by providing blood deaeration simultaneously with the heat exchange and reliably detecting the appearance of gas bubbles in the blood.

This goal is achieved by the fact that in a heat exchanging device for the artificial blood circulation system, comprising a housing and a diaphragm, a separating housing, a blood chamber and a heat transfer chamber with supply and discharge plugs, the diaphragm is made of a gas-permeable material, and at the outlet of the heat transfer fluid installed sensor concentration of the pelvic phase.

The diaphragm is made of porous sheet of polyvinyltrimethysilane.

 The gas phase concentration sensor is made conductometric.

FIG. 1 shows the device, top view; in fig. 2 shows section A-A in FIG. one.

The heat exchange device for the artificial blood circulation system comprises a stacked case 1 consisting of plates 2 and 3, having a chamber 4 for a heat transfer fluid and a chamber 5 for blood, / separated from each other by diaphragms b, which can be made of polyvinyltrimetisilane, fluorine, fluoroplastic and etc.

In addition, the housing has fittings 7 and 8 for supplying and discharging blood and heat carrier, collectors 9-12 for blood and heat carrier fittings 13 and 1 for connecting the heat 5 of the abmenic device to the cardiopulmonary circulation system. At the outlet of the chamber 4 for the coolant, a conductometric sensor 15 of gas bubbles is installed, consisting of two electrodes. Between the plates of the housing 1, sealing strips 16 are installed, and the plates of the housing 1 are mounted with screws 17.

A heat exchange device for the artificial blood circulation system works as follows.

5 The fittings 13 and 14 are connected to the cardiopulmonary bypass system so that the blood exits through the collector 12 located in the lower part of the device in order to remove gas bubbles more reliably due to their ascent. Collectors 10 and 11 are connected to the heat carrier lines. A gas phase concentration sensor 15 installed in the output collector 15 is connected with an indicator detecting the gas phase occurrence in the heat carrier and giving a signal for stopping the cardiopulmonary bypass system. When flowing through the respective chambers of the blood and the coolant between them there is a heat exchange.

Simultaneously through the diaphragm prod0. removal of gas bubbles (if they are in the blood) from the blood into the coolant occurs; when it enters the coolant, the gas phase changes its physical properties — electrical conductivity, optical density, and others. These changes are recorded by sensor 15.

5 A heat exchange device for the artificial blood circulation system prevents air embolism in the patient, since making a diaphragm from a gas-permeable material ensures reliable removal of gas bubbles from the blood while maintaining a small filling volume of the device, and installing a gas phase concentration sensor at the outlet of the heat carrier chamber provides reliable detection the appearance of gas bubbles in the blood and the timely blocking of the system of artificial blood circulation.

Claims (3)

1. HEAT EXCHANGE DEVICE FOR ARTIFICIAL BLOOD CIRCULATION SYSTEMS, comprising a housing and a diaphragm separating the housing into a blood chamber and a coolant chamber, with inlet and outlet fittings, characterized in that, in order to prevent air embolism by ensuring simultaneous deaeration of blood and reliable determination of the appearance of gas bubbles in the blood, diaphragm. It is made of gas-permeable material, and a gas phase concentration sensor is installed at the outlet of the coolant chamber. 2. The device according to π. 1, characterized in that the diaphragm is made of a sheet of porous polyvinyltrimethyrilane. 3. The device according to π. 1, revealing that. that the gas phase concentration sensor is conductometric. ’Q