SU902753A1 - Device for separating blood - Google Patents

Description

(54) DEVICE FOR DIVIDE BLOOD

The invention relates to the field of medicine, namely to devices for separating blood into plasma and cellular particles, and is intended for plasma exchange and processing of blood with the release of its fractions.

A device for dividing blood into plasma and suspension of cellular particles is known, comprising a reservoir for red blood cells, made in the shape of a centrifugal chamber, and a reservoir for plasma arranged coaxially with it, and operating according to the principle of blood fractionation under centrifugal force 1.

However, the known device for separating blood by centrifuging is difficult, has a large mass and significant dimensions. In addition, continuous centrifuges for blood separation are expensive equipment.

These deficiencies do not allow the widely used device to be used outside of centralized blood processing points and large clinics.

A device for separating plasma from blood cells is known, comprising a communication filter and pumps 2.

In this device, the separation of blood is carried out by filtration, which is provided by the pressure created by the pump, and the filters can be made of cellulose, fiberglass, cellulose acetate and other materials.

However, this device clogs the filter pores with cell particles, which necessitates the use of additional filtering devices in a stable manner.

The purpose of the invention is to provide a stable regimen of blood separation by preventing the cell pores from clogging the filter pores.

The goal is achieved by the fact that a device for separating blood, containing a housing, a filter, devices for blood supply and plasma removal and suspension of cellular particles, is equipped with a rotor ensuring the creation of a tangential stress in the blood to be divided, and the filter is placed around the last 20 and made from isoporous polymeric material.

A tangential stress created by the rotation of the rotor in the blood prevents the cell particles from getting stuck in the pores of the filter. FIG. 1 shows a blood separation device, a general view. The device contains a filter of isoporous polymeric material 1, a rotor 2, an electric motor 3, a gearbox 4, a chamber 5 with a fitting 6, a roller pump 7, a drain branch pipe 8 with a crane 9. The gap between the filter 1 and the rotor 2 is filled with blood. The device works as follows. The separated blood is supplied to the gap between the filter 1 and the rotor 2, which is driven in rotation by the electric motor 3 through the gearbox 4. The rotation of the rotor 2 causes a tangential stress at the surface of the filter. Incorporating a roller pump 7 creates a vacuum in chamber 5, as a result of which there is a pressure differential on both sides of the filter 1. Under the action of an overpressure, the plasma passes through the filter into the chamber 5, and then through the brush 6 through a flexible hose using a pump 7 is logged out. The suspension enriched in shaped elements formed in the gap between the filter and the rotor flows down and out through the pipe 8, the flow rate being regulated by the valve 9. The relative volumetric content of the formed elements in the enriched cell suspension is determined by the speed of its flow through the pipe 8 and the plasma suction rate through the filter 1. In this device, by controlling the speed of rotation of the rotor, creating a tangential stress, and the performance of the vacuum pump, it is possible to choose the optimum General separation conditions for selected blood sample and filter used. It has been established experimentally that the stable operation of the device can be carried out for 2 hours. The device is simple in construction, has a low mass and low cost. It can be used for processing the blood of farm animals with the purpose of obtaining drugs, and the economic effect of its use is approximately 30-40 thousand. Formula of the invention A device for blood separation, comprising a housing, a filter, devices for blood supply and plasma removal and a suspension of cellular particles, characterized in that, in order to ensure a stable blood separation regime by preventing the filter particles from clogging the pores of the filter, it is provided with a rotor, providing This creates a tangential stress in the blood to be divided, and the filter is placed around the latter and is made of isoporous polymeric material. Sources of information taken into account in the examination 1. US PET. No. 4059108, cl. 128-214 R 1977. 2. Published in the Federal Republic of Germany No. 2725608. Cl. A 6.1 M 1/03, published. 1978

Claims (1)

Claim A device for separating blood, comprising a housing, a filter, devices for blood supply and removal of plasma and suspension of cellular particles, characterized in that, in order to ensure a stable blood separation regime by preventing clogging of the filter pores with cellular particles, it is equipped with a rotor ensuring the creation of shear stress in shared blood, and the filter is placed around the latter and is made of isoporous polymeric material.