SU1671315A1 - Device for detoxication of biologic liquid by filtration - Google Patents

Abstract

The invention relates to medical technology, namely to devices for removing toxic substances from biological fluids, such as blood plasma and lymph. The purpose of the invention is to expand the range of detoxification control. The device contains a dielectric body 1, fittings for inlet 2 and outlet 3 of biological fluid, inlet 4 and outlet 5 of the filtrate, a set of membranes (for example, hollow fibers) 6, dielectric seals 7, elastic dielectric tubes 8, electrodes 9-12, arranged in pairs in fittings 2 and 4, 3, and 5, and the polarity of the electrodes installed in fittings 2 and 3 is the same, unrelated DC sources 13 and 14. The device allows to accelerate detoxification, increase the selectivity of fractionation, change the physic -Chemical properties the purified liquid and the phase equilibrium of its protein components. 2 Il.

Description

The invention relates to medical hechnik, namely to devices for removing toxic substances from biological fluids, such as blood plasma and lymph.

The purpose of the invention is to expand the range of detoxification control.

Fig. 1 shows a diagram of a device for filtering detoxification of a biological fluid (based on a capillary plasma filter): Fig. 2 shows pH dependencies and redox potential ((p) of a biological fluid obtained by detoxifying it in a device depending on the amount of electricity (q ) passed through it during the filtering process.

The hollow fiber plasma filter (Fig. 1) consists of dielectric body 1, fittings for inlet 2 and outlet 3 of the filtered liquid, fittings for inlet 4 and outlet 5 of the filtrate, hollow filtering dielectric fibers 6, dielectric seals 7 It is connected to the filtration detoxification system liquids using elastic dielectric tubes 8.

Electrodes 9-12 of a material resistant to electrochemical wear, such as platinum, gold, and graphite, are introduced into the fittings 2-5.

The electrodes 10, 12, and 9, 11 are pairwise connected to two different, unrelated galvanically, sources 13 and 14 of direct current. An electrical circuit created using electrode pairs 9, 11 and 10, 12 passes through all cross sections of the plasma filter, which ensures a uniform distribution of current density over the entire filtering surface of hollow fibers and allows for minimal ohmic resistance between the pairs of electrodes 9, 11 and 10 ,12.

A device for filtering detoxification of biological fluids works as follows.

The cleaned fluid, such as blood plasma, lymph, is introduced into the capillary fibers of the device through fitting 2 and withdrawn from fitting 3 in a continuous flow using a peristaltic pump (not shown). The perfusion can be either single or multiple (with a closed biological fluid circuit). The circulating dialysing solution or filtrate of the detoxicant fluid is established by pumping it through nozzles 4 (inlet) and 5 (outlet) also in a continuous flow. Source 13 is turned on when necessary before filtration detoxification.

electrochemical effects change the physicochemical properties of the detoxified liquid, in particular, cause partial coagulation of toxic peptides.

If the electrochemical modification of the detoxicated liquid is to be carried out after filtration detoxification, include source 14. Thus, acid-base equilibrium is adjusted.

0 detoxifying liquid or its filtrate.

At the same time solving these problems include both sources 13 and 14 of the current. The strength of the current set within

5 3-10 mA providing the required pH values and redox potential at the outlet of the choke 3 of the biological fluid from the device. The polarity of the electrodes 9-12 choose the outcome

0 of the problem to be solved as follows. In the case when it is necessary to reduce the pH of the liquid to be purified, before feeding it into the capillary fibers, the electrode 10 is supplied with a positive potential from the current source 13, and if it is necessary to increase the pH before filtration, a negative potential from the same source.

Similarly, the issue is resolved in the regulation of acid-base equilibrium

0 dialysis solution or filtrate flowing from the fitting 3 through the electrode 9 connected to the current source 14.

The device has a high degree of unification, since it can be obtained5 but using a wide variety of plasma and hemofilter biofilters and dialyzers with membranes in the form of both hollow fiber and film. The only requirement is the absence of

0 conductors of the first kind, which are not electrodes, in the design of the biofilter.

The pH values experimentally obtained using the proposed device and in plasma and physiological solution (Fig. 2) show the possible limits of regulation of the physicochemical properties and, consequently, the phase equilibrium of biological fluids by these two parameters.

0 Dependencies 15 and 16 characterize the change in pH of the biological fluid at the output of the device in accordance with the amount of electricity consumed during cathodic (15) and anodic (16) electrochemical processing

Dependencies 17 and 18 characterize the change in the redox potential of a biological fluid at the plasma filter output in accordance with the amount of electricity consumed during

cathode (17) and anodic (18) electrochemical processing.

The use of the proposed device allows extending the range of detoxification control and speeding it up by 30-50%. to increase the selectivity of fractionation, to change in the required direction the physicochemical properties, the phase equilibrium of the protein components of the biological fluid, and the nature of its interaction with the filter.

Claims (1)

The invention The device for filtration detoxification of biological fluids, containing a housing with fittings for entering and exiting fluid and filtrate, a set of filtering membranes located in the housing, electrodes connected to a DC source, characterized in that, in order to extend the range of detoxification control, heteropolar electrodes are arranged in pairs in the fittings for liquid entry and to enter the filtrate and in the fittings to exit the liquid and to exit the filtrate, and the polarity of the electrodes installed in the biological fluid is the same. ЪмВ r ph 600 300 -300 -g