RU167888U1 - Dialyzer - Google Patents

Abstract

The utility model relates to medicine, namely to dialyzers with hollow-fiber filtering elements for extrarenal blood purification. The dialyzer includes a cylindrical body with dialyzate fittings, two union nuts with o-rings and a dialyzing part containing two cylindrical glasses with a bundle of flexible hollow fibers fixed to them. The union nuts are made with fittings for supplying and draining blood; a screw is coaxially mounted in the fitting for supplying blood. A vibro module is mounted on the dialyzer case with the possibility of longitudinal movement and rotation by 180 ° relative to its own axis. The inventive dialyzer compared with the prototype provides a higher productivity of blood filtration and has a longer service life.

Description

The utility model relates to medicine, namely to devices for extrarenal blood purification.

Dialyzers with hollow-fiber filtering elements are widely known in medicine, in particular for extrarenal blood purification (Fresenius Medical Care product catalog. Hemodialysis. Dialyzers and filters. Moscow, 2013). Known dialyzers comprise a housing, union nuts, fittings for blood and dialysate, and a hollow fiber filter element.

The disadvantages are low productivity and the life of the dialyzer.

Known capillary dialyzer, taken as a prototype, including a cylindrical body with a nozzle for dialysate and with two union nuts and o-rings, a dialyzing part containing two cylindrical glasses with a bundle of flexible hollow fibers fixed to them, an annular groove is made in each glass, and both sides of the casing are made annular grooves (AS USSR No. 1003846, A61M 1/03, publ. 1983).

The disadvantages of the prototype are low productivity and the life of the dialyzer. These disadvantages are associated with the fact that blood clots cause blood clots to clog the internal channels of the bundle of flexible hollow fibers. The pressure drop in the blood flow on the dialyzer can be more than 400 mm Hg, this leads to the fact that the blood flow constantly “hits” the center of the bundle of hollow fibers. The dialysate unevenly removes ultrafiltrate over the cross section and length of the beam, only the peripheral zone of the bundle of hollow fibers is washed intensively. As a result, thrombosis occurs primarily of the fibers of the central zone, while the effective filtration area is reduced, that is, productivity and service life are reduced.

The objective of the utility model is to increase the productivity of blood filtration and the life of the dialyzer.

The problem is solved in that in the dialyzer, which includes a cylindrical body with dialyzate fittings and with two union nuts with o-rings, a dialyzing part containing two cylindrical glasses with a bundle of flexible hollow fibers fixed to them, according to a utility model, an additional vibration module with with the possibility of longitudinal movement and rotation of 180 ° relative to its own axis, the union nuts are made with fittings for supplying and draining blood, while in the fitting for supplying blood coaxially a screw is installed.

The technical result of solving the problem is to increase the productivity of blood filtration and the life of the dialyzer by an average of 50%.

The essence of the utility model is as follows. In the proposed dialyzer, the screw installed in the blood supply fitting spins the blood flow, therefore, the filtered blood is evenly distributed over the cross section of the fiber bundle from the periphery to the center. The dialysate also uniformly washes the fiber bundle from the periphery to the center. This leads to more active ultrafiltration, which is equivalent to an increase in the effective filtration area, that is, to an increase in productivity. In addition, premature thrombosis of the central zone of the fiber bundle is excluded due to the fact that all the fibers of the dialysing part work under equally loaded conditions, i.e., the life of the dialyzer increases. However, it is impossible to completely exclude the process of thrombosis of the fibers. This process can be slowed down by installing a vibration module on the dialyzer case. The vibromodule generates vibrations that are transmitted through the body to the bundle of hollow fibers, blood and dialysate flows, which leads to the purification of the internal channels of the fibers from blood clots and intensifies the process of ultrafiltrate removal (excess water in the blood, metabolites, etc.), that is, productivity increases and device life. Installing a vibration module with the possibility of longitudinal movement and rotation around its own axis allows you to choose its optimal position on the housing, providing maximum performance.

Thus, the installation of the auger in the nozzle for supplying blood and a vibration module on the dialyzer case allows to increase the blood filtration performance and the life of the dialyzer compared to the prototype.

In FIG. 1 is a general diagram of a dialyzer; FIG. 2 is a diagram of a union nut.

The dialyzer contains a cylindrical body 1 with fittings for the inlet 2 and outlet 3 of the dialysate, union nuts 4 and 5 with fittings for the supply 6 and outlet 7 of the blood, dialyzing part 8 (Fig. 1), consisting of a bundle of hollow fibers 9 (Fig. 2), fixed in a glass 10. For the tightness of the dialyzer assembly, o-rings 11 are installed in the union nuts 4 and 5 11. In the supply connection 6, a screw 12 is installed.

On the dialyzer case 1, a vibration module 13 is installed, to which pulses of a given frequency and amplitude are supplied from the power and control device (UPU) 14 (Fig. 1). The vibromodule is fixed in such a way that it can move along the longitudinal axis of the dialyzer and rotate up to 180 ° relative to its own axis, but is rigidly fixed to the cylindrical body without backlash, for reliable transmission of vibration from the vibromodule to the dialyzer.

The device operates as follows. Blood is supplied to the dialyzer under pressure through the nozzle 6, twisted in the screw 12 and fed to the end of the bundle of hollow fibers 9. The dialysate, supplied and discharged through the nozzles 2 and 3, washes the bundle of hollow fibers 9. During the dialysis process, the ultrafiltrate passes through the walls of the hollow fibers and removed by dialysate, and purified blood through the nozzle 7 returns to the patient. When the dialyser productivity decreases due to thrombosis of hollow fibers, a vibration module 13 mounted on the housing 1 is switched on, the vibration frequency and amplitude of which is set using the power supply and control device 14. At the same time, the vibration module 13 is selected by moving along the housing or rotating around its own axis, which provides maximum performance.

Thus, the inventive dialyzer compared with the prototype provides a higher productivity of blood filtration and has a longer service life.

Claims (1)

A dialyzer comprising a cylindrical body with dialyzate fittings and with two union nuts with o-rings, a dialyzing part containing two cylindrical glasses with a bundle of flexible hollow fibers fixed to them, characterized in that the dialyzer is additionally equipped with a vibration module mounted on the body with the possibility of longitudinal movement and rotation of 180 ° relative to its own axis, the union nuts are made with fittings for supplying and draining blood, while a screw is coaxially mounted in the fitting for supplying blood.

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