SU1445734A2 - Filter for extracorporal circulation system - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for filtering blood. The aim of the invention is to increase the degree of filtration of blood. The blood filter consists of a flexible tubular body 1, in which the filtering element -2 is fixed, made in the form of a flexible multilayer tube closed on one side and woven from flat strands formed of several

Description

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threads. An annular insert 3 is provided to ensure that all of the filter element’s blood enters the blood filter. Blood comes from. flexible tubular housing 1, falls into the filter

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The invention relates to the field of medical technology, namely to blood filters, can be used in extracorporeal blood circulation systems and is an improvement of the filter according to the main author. St. No. 772549.

The purpose of the invention is to increase the degree of filtration. .

FIG. 1 shows the filter, longitudinal axial section; in fig. 2 — node I in FIG. 1 (multi-oiled filter element).

The filter is a flexible tubular body 1, the walls of which simultaneously form a segment of the blood line. The tubular body 1 has an inlet (top) and an outlet (bottom) opening, the inlet opening communicating with the inner cavity of the filter element 2, and the outlet opening with a gap between the filter head and the element 2 and the body 1. 3 layers) in the form of a flexible cylindrical tube, closed on one side and having a length to diameter ratio of 10-100. The outer diameter of the filter element is smaller than the inner diameter of the body by an amount sufficient to form a gap allowing free passage of the filtered blood. To ensure that all the blood entering the filter gets inside the filter element, at the inlet of the filter element between it and the body there is an annular insert 3 representing two coaxial coaxial sleeves in which the multilayer filter element is clamped.

The filter works as follows. Blood through the inlet of the housing enters the internal cavity.

element 2 and, successively rounding the flat strands from which it is woven, is filtered not only by an extraordinary filtering mechanism, but also by an adhesive one. .2 il.

the filter element 2 fills it and, under the action of the excess pressure that is formed here, passes through the side walls of the multilayer filter element 2.

Let us consider the mechanism of supersubmarc increase in filtration efficiency.

The blood, having passed through the pores of the first layer, encounters an obstacle in the form of flat strands of the second layer and makes an E-shaped turn, bending around the flat strands of the second layer. Aggregates having pore sizes larger than the pore sizes of the first layer are filtered on its inlet surface (Fig. 1). The microaggregates, whose dimensions are smaller than the pores of the first layer, move through its pores along with the blood flow, making different turns inside the filter between adjacent layers and fixing themselves on the adjacent surfaces of both layers. The retention of microaggregates on the filter is due to their pronounced adhesive properties, which are provided by active platelets constituting the microaggregates. The process of filtration of the blood is carried out. The blood thus purified enters the gap between the filter element 2 and the housing 1, moves along it towards the outlet orifice and flows through it in the continuation of the blood line.

Claims (1)

Invention Formula Filter for extracorporeal circulation systems by author. St. No. 772549, different  1445734 the fact that, in order to increase the degree of shadow in which it is made of flat filtration, it has several trenches formed from several layers lying on each other, interlacing monofilaments. 0ife.Z