SU1090414A1 - Column for hemosorption - Google Patents

Abstract

1. COLUMN FOR HEMOSORPTION containing a bottle with sorbent, stopper, filter, inlet and outlet fittings, stopper fixture, hollow blood tube coaxially arranged in the bottle, characterized in that, in order to improve the safety of hemosorption by preventing sorbent particles from entering a hollow tube and enabling the sorbent to be interfacially disconnected from the circulatory system; a pointed tip cap is installed in the upper part of the tube; in the lower disk to fix the position of the tube; a coaxial cavity in the shape of a cup, the bottom of the tube is equipped with a septum forming two nesoobschayuschies chamber associated with the inlet and outlet fittings, each of the chambers has a wall of the hole located at different heights so that they overlap the stopper at vschvizhenii tube from the vial. 2. A column according to claim 1, characterized in that the filter has a coaxially arranged opening with a diameter equal to the outer diameter of the hollow tube.

Description

The invention relates to medicine, in particular, to devices for sorption blood purification from toxic substances. Known columns for hemosorption contain a vial with a sorbent into which inlet and outlet nozzles are inserted through the plug, at the ends of which there are filters (lj. complicates the perfusion system. A known column for hemosorption, containing a vial with a sorbent, a stopper, a filter, inlet and outlet valves, a stopper fixture, coaxially arranged in the vial of a hollow tube for blood f2j. However, in a known column for introducing an inlet and outlet fitting with a filter (nozzle), it is necessary to open the bottle with a sorbent, which increases the possibility of infection, and when the nozzle is dipped into a bottle with a sorbent, the sorbent particles fall into the hollow blood tube and promote destruction of blood corpuscles and thrombosis. The purpose of the invention is to increase the safety of carrying out hemosorption by preventing the sorbent particles from entering the hollow tube and creating the possibility of intraflastic sorbent penetration from the circulatory system. The goal is achieved in that in the column D. p. hemosorption containing a sorbent bottle, stopper, filter, inlet and outlet fittings, stopper fixture, hollow blood tube coaxially arranged in the flask, a pointed stopper is installed in the upper part of the tube, in the bottom there is a disk for fixing the position of the tube; a coaxial cavity in the shape of a hemisphere; the lower part of the tube is equipped with a partition forming two non-communicating chambers connected to the inlet and outlet nipples, each of the chambers has holes in the wall located at different heights, so about them. stopper when the tube is extended from the vial. The filter has a coaxially located hole with a diameter equal to the outer diameter of the hollow tube. Figure 1 shows a column for hemosorption; figure 2 - node a in figure 1, the original position (increased); fig.Z - the same, the working position. The column contains a pointed cap-tip 1, a hollow tube 2 for blood, a coaxially arranged opening 3 in the filter 4, a filter wall 5, a bottle 6 with a sorbent, an upper opening 7 in the tube wall, a hemispherical cavity 8 made in the shape of a hemisphere, a plug 9, a latch 10 plugs, a disk 11 for fixing the position of the tube, the outlet nozzle 12, the lower hole 13 in the wall | Tube, the inlet nozzle 14, the partition 15, chambers 16 and 17, associated respectively with the output and inlet nozzles. The column works in the following way. After removing the protective cap and treating the cork with an antiseptic, the flask with the sorbent and filter is inserted into the tube 2 with the tip 1 by piercing the stopper 9, and the tube 2 is advanced through the opening 3 until the disc 11 stops into the stopper 9. The pointed end of the stopper 1 is located at a distance of 2-3 mm from the bottom of the bottle 6, and the holes 7 and 13 of chambers 16 and 17, connected respectively to the outlet and inlet nozzles, are in the hemispherical cavity 8. Inlet nozzle 14 and outlet 12 are connected by means of a perfusion system to tanks with fiziol cal solution. Saline enters through the inlet fitting 14 and the orifice 13 into the cavity 8 and forces air out of it through the opening 7 and the outlet fitting 12. Even with significant pressure in the drive part of the perfusion system, the cap-tip 1 is not removed from the tube 2, because This is prevented by the bottom of the bottle 6. Then the tube 2 is displaced to a certain distance between the disk 11 and the stopper 9 as shown in FIG. In this case, the lower opening 13 will be blocked by a plug 9. The pressure in the driving part of the pipeline is

Claims (2)

1. A HEMOSORPTION column containing a sorbent vial, a stopper, a filter, inlet and outlet fittings, a stopper cork, a hollow blood tube coaxially located in the vial, characterized in that, in order to increase the safety of hemosorbtion by preventing particles of the sorbent from entering the hollow the tube and creating the possibility of intra-vial shutdown of the sorbent from the circulatory system, a pointed stopper-tip is installed in the upper part of the tube, in the lower disk to fix the position of the tube, it is made in the tube. -axial cavity in the shape of a cup, the bottom of the tube is equipped with a septum forming two noncommunicating chamber associated with the inlet and outlet spout E, each of the chambers has a wall aperture located at different heights so that they overlap when extended tube stopper of the vial. 2. Column pop. 1, characterized in that the filter has a coaxially located hole with a diameter equal to the outer diameter of the hollow tube.