SU1123710A1 - Filtering device - Google Patents

Abstract

1. A FILTERING DEVICE, comprising a housing with a fitting for bleeding, a filter housed in the housing, as well as a fitting for bleeding and venting, characterized in that, in order to prevent perfluorocarbon from being introduced into the vascular bed, it is provided with a cylindrical element located underneath in the upper part of the body so that its lower part enters the upper part of the body with the formation of a gap between their walls, the fitting for blood outflow is installed in the upper part of the body and communicates with this gap, the filter is made in the form helix, the upper edge of the filter is flush with the upper edge of the shtutsera for blood and fastened with the inner wall of the cylindrical element, while the body in the lower part is equipped with an additional fitting for draining the perfluorocarbon, and the fitting for blood entering and venting parts of a cylindrical element. 2. The device according to claim. 1, characterized in that the filter is made of a grid with a variable schazom cells. 3. The device according to claim 1, characterized by the fact that it is equipped with an additional network (with a filter, in the form of a spherical segment with a tube for venting gas in the center, mounted in a cylindrical element.

Description

The invention relates to medicine and can be used in medical technology, namely, in artificial blood circulation apparatus to remove gas bubbles, perfluorocarbon particles and foreign suspended particles. A device for filtering blood and trapping gas bubbles in heart-lung machines is known, comprising a housing made in the form of a glass with fittings for supplying and discharging blood, a lid with a fitting for removing air and excess blood, a screen filter with a central tube for removing gas bubbles 1. However, this device is unable to retain foreign particles with a size of less than 500 microns and perfluorocarbons, which leads to the drift of the latter into the vascular bed. It is also known to have a device for filtering blood, which contains a filter placed in the housing, as well as a choke for blood entry and gas outlet. The device is designed to filter blood while simultaneously removing gas bubbles 2. However, the design of the device does not allow for the retention and removal of the perfluorocarbon. The purpose of the invention is to prevent the introduction of perfluorocarbons into the bloodstream. The goal is achieved by the fact that the filtering device, comprising a housing with a syringe for blood outlet, a filter placed in the housing, as well as a fitting for blood entry and gas removal, is provided with an open bottom cylindrical element located in the upper part of the housing so that its lower part enters in the upper part of the body with the formation of a gap between their walls, a fitting for the release of blood is installed in the upper part of the body and communicated with this gap, the filter is designed as a spiral, the upper edge of the filter is flush with The upper edge of the blood outlet is attached to the inner wall of the cylindrical element, while the housing in the lower part is provided with an additional brush for discharging the perfluorocarbon, and the blood inlet and gas outlet fitting are located in the upper part of the cylindrical element. The filter is made of a grid with variable .m cell pitch. The device is equipped with an additional mesh filter in the form of a spherical segment with a tube for the removal of gas in the center mounted in a cylindrical element. FIG. 1 shows a view of a filtering device, a section; FIG. 2 shows section A-A in FIG. one; in fig. 3 - a grid with a variable schagom of cells. The device includes a housing 1 with. a choke 2 for the blood outlet, a filter 3 placed in the housing, made of a grid with variable cell pitch and made in the form of a spiral, choke 4 and 5 for the blood inlet and gas outlet, respectively, an additional strainer 6, made in the form of a spherical segment with a tube 7 for exhaust gas in the center and installed in the open bottom cylindrical element 8, an additional fitting 9 for removal of the perfluorocarbon. The cylindrical element 8 is located in the upper part of the housing 1 so that the lower part of the element 8 enters the upper part of the housing 1 with the formation of an annular gap 10 between their walls, serving as a settling chamber for blood and communicating with the outlet 2 located in the upper part of the housing 1 blood. The upper edge of the spiral filter 3, made of a mesh with cells ranging in size from 50 to 250 microns, is flush with the upper edge of the brush 2 to allow blood to flow out and attached to the inner wall of the cylindrical element 8. The device operates as follows. The fitting 4 is connected to the outlet of an oxygenator that uses liquid perfluorocarbon compounds forming liquid gas exchange membranes. The fitting 2 is connected to the patient’s vascular bed. Blood through the nozzle 4 comes from the oxygenator, enters the screen filter 6 and then into the spiral filter 3. On the filter 6 and in the upper part of the filter 3, the blood is released from gas bubbles, which is discharged through the tube 7 through the nozzle 5. The passage through the spiral cells filter 3, the blood is freed from foreign particles and perfluorocarbon, which, when draining along a spiral grid, additionally carries foreign particles into the bottom of the housing. Then the blood enters the gap 10, where it is subjected to additional purification due to sedimentation, and is directed through the fitting 2 into the vascular bed. Accumulating in this part of housing 1. heavier perfluorocarbons with foreign particles are periodically discharged through fitting 9 through a transparent tube connected to it. The proposed filtering device, along with the removal of gas bubbles and foreign suspended particles from the blood, makes it possible to completely eliminate the drift of the perfluorocarbon into the patient’s body during

work with oxygenators based on liquid perfluorocarbon compounds. Chromatographic analysis shows no

perfluorocarbon in the blood supplied from the filtering device to the patient's bloodstream.

Claims (3)

1. FILTERING DEVICE- STVO, comprising a housing with a fitting for the release of blood, a filter located in the housing, as well as a fitting for the release of blood and gas, characterized in that, in order to prevent the introduction of perfluorocarbon into the vascular bed, it is equipped with a cylindrical element open at the bottom located at the top the case so that its lower part enters the upper part of the body with the formation of a gap between their walls, a blood outlet fitting is installed in the upper part of the body and communicated with this gap, the filter is made in the form of a spiral, the upper edge of the filter ra is flush with the upper edge fitting the blood outlet and bonded "to the inner wall of the cylindrical member, the body at the bottom comprises an additional fitting for removal of perfluorocarbon and fitting to enter the blood and gas outlet arranged in the upper part of the cylindrical member. 2. The device according to π.- 1, characterized in that the filter is made of a grid with a variable cell spacing. 3. The device according to π. 1, characterized in that it is equipped with an additional strainer, in the form of a spherical segment with a tube for venting gas in the center, mounted in a cylindrical element. SU „1123710