RU2297825C1 - All-purpose cartridge - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has hollow parallelepiped casing open from above and having separating partitions having fastening means engageable with rod-like supporting members mounted on casing end walls along lateral walls in parallel to bottom. The fastening means of the separating partitions are holes or hooks, which shape and dimensions are the structure and which sizes allow the separating partitions to freely move along rods. Distances between holes or hooks symmetry centers are equal to distances between rod cross-section symmetry axes.

EFFECT: increased filled up cartridge working volume factor value when storing medical and biologic material.

4 cl, 9 dwg

Description

The invention relates to the field of medical equipment, and in particular to devices for placing and carrying polymer containers with biomedical material in a frozen or liquid state, for example, with frozen plasma cooled by donated blood.

The closest in technical essence and the achieved result to the proposed device is a multifunctional cartridge containing a body in the form of a hollow parallelepiped, spacers, bearings for shells mounted on the walls of the body, landing elements made on the shells and interacting with supports (see USSR copyright certificate No. 1143663 A, IPC B65D 25/10.07.03.1985).

A disadvantage of the known device adopted for the prototype is the impossibility of ensuring high values of the fill factor of the working volume of the cartridge when placing products of various sizes and capacities, determined from the ratio of the total volume of the nth number of containers with biomedical material placed in the cartridge to the volume of the cassettes:

This disadvantage is determined by the fact that the known cartridge does not provide for the possibility of resizing between adjacent spacer inserts; the distance between them, determined by the step between the supports rigidly mounted on the sides of the side walls of the cartridge, is made unchanged.

When using such cartridges, for example, for placement of polymer containers of various types, it is impossible to provide a high value of the fill factor K of the cartridge volume with biomedical material.

With approximately the same size across the width of polymer containers, usually not exceeding 130 mm when empty (see, for example, GOST R 51622-2000 (ISO 3826-93) "Polymer containers for blood and its single-use components. Technical requirements. Test methods ”. Page 9), their thickness can vary widely depending on the dose of the medico-biological material poured into it.

So, for example, in containers produced by the Synthesis enterprise (Kurgan) in accordance with the specified GOST, Gemakon or Compoplast with a nominal capacity of 250 ml, from acts of blood collection from donors after centrifugation, pour from 0.2 l to 0.35 l of plasma, which, in turn, determines the overall size by thickness of the filled container from 20 mm to 30 ÷ 40 mm.

For optimal placement of dual polymer containers in the cassette, one of which is empty and the other is filled with no more than 50 ml cryoprecipitate (a component isolated from freshly prepared blood containing the main part of factor VIII von Willebrand factor, fibrinogen, factor XIII and fibronectin), the distance between the inserts should be less than 15 mm.

In known cassettes, the distance between the rigidly mounted spacers should be such (and this is how it is usually done), so that it is possible to place the most “thick” containers with biomedical material.

However, the practical need for the simultaneous use of containers of different thicknesses, provided that cassettes are used with a maximum gap between the spacers, causes a low coefficient of usability of the working space both inside the cassette and inside the working chambers - thermostats, freezers in which the cassettes are placed.

The objective of the invention is to increase the fill factor of the working volume of the cartridge with biomedical material when using polymer containers of various capacities.

The specified technical result is achieved in that the cartridge contains a housing made in the form of a hollow parallelepiped open on top, inside of which are placed spacers with landing elements interacting with supports made in the form of rods mounted on the end walls of the housing along the side walls parallel to the bottom. In this case, the landing elements of the liners are made in the form of holes or hooks, the profile and dimensions of which are selected so that the liners can freely move along the rods. The distances between the centers of symmetry of the holes or hooks are made equal to the distances between the axes of symmetry of the cross sections of the rods. Along each side wall, a pair of rods can be installed one above the other, or a pair of rods can be installed one above the other along one side, and one rod can be installed along each side wall, and the seating elements are located on level above the center of gravity of the liner. The liners may be made of sheet material or wire. The liners can be made in the form of a rectangular plate with a horizontal bar attached to its upper part, and the seating elements are made at the ends of the bar protruding from the plate. The liners can also be made of two pieces of wire, and the piece of wire having the upper landing elements along the edges is made with a bend downward, and the piece of wire having the lower landing elements along the edges is bent upward, while the lower section of the upper section and the upper the lower section is interconnected.

Figure 1 presents a top view of the cassette; figure 2 is a view of the cassette from the side of the side wall along which two support rods are installed; figure 3 is a view of the cassette from the side of the side wall along which one support rod is installed; figure 4 is a view a of figure 2; figure 5 is a view B of figure 3; figure 6 presents the spacer liner, made in the form of a plate with two rods equipped at the ends with landing elements; Fig.7 presents a spacer liner with one rod with landing elements; on Fig presents a spacer liner made of two pieces of wire with four landing elements; figure 9 presents the spacer liner made of sheet material with landing elements in the form of profile slots.

The cartridge contains a housing made in the form of a hollow parallelepiped open from above, made of sheet material, for example, stainless steel sheet having end walls 1, side walls 2 and bottom 3. Side walls 2 can be made in height less than the height of end walls 1 , while above the side walls 2 can be located on top of each other horizontal boundary wire segments or mesh limiters attached to the end walls 1 (not shown). The cartridge may be provided with carrying handles pivotally attached to the end walls 1, or slots (not shown) are made in the end walls 1 for carrying.

To improve air circulation inside the cassette housing and reduce its mass in the walls 1 and 2, as well as in the bottom 3, openings can be made (without reducing the overall stiffness of the housing) holes, the location and shape of which are determined by considerations, primarily of design (in the drawings of the hole not shown).

On the end walls 1 of the cassette are fixed using a welding threaded or some other method of pairing (not shown in the drawings) rods 4 placed along the side walls 2 parallel to the bottom 3 and serving as supports for spacer liners 5, between which polymer containers 11 are placed, filled with biomedical material.

The supporting rods 4 can be made of wire with different cross sections, for example, in the form of a circle, rectangle, hexagon, etc. (not shown in the drawings).

The choice of the cross-sectional profile of the support rods 4 is determined by the specific features of the production base and the selected cassette manufacturing technology.

The spacer liners 5 are made with mounting elements in the form of holes 8 of circular, rectangular, hexagonal and other profiles, in the form of profile slots 12 or hooks 6 or 7, having a circular or rectangular shape, respectively. The distances between the centers of symmetry of the holes 8, slots 12, hooks 6 and 7 are made coinciding with the distances between the axes of symmetry of the support rods 4, and the profile and dimensions of the seating elements are made with the possibility of free movement of the liners 5 along the support rods 4.

Application on inserts 5 of various types of planting elements, i.e. either in the form of holes 8, profile slots 12, or in the form of hooks 6 and 7 determines, in turn, the degree of their interface with the elements of the cartridge.

Inserts 5 with seating elements in the form of only round holes 8 or having hooks 6 after assembly of the cassette are inextricably linked to the support rods 4 and can only move along them.

The liners 5 with the seating elements in the form of only hooks 7 or profile slots 12 are not rigidly connected to the support rods 4 and they can be inserted into the cassette to form additional cells and removed from it.

Along each side wall 2 can be installed one above the other on a pair of rods 4; or along one of the side walls 2, a pair of rods 4 is installed one above the other, and one rod 4 is installed along the other; and along each side wall 2, one rod 4 can be installed in the upper part, and the seating elements are located at a level located above the center of gravity of the insert 5. The inserts 5 can be made of sheet material or wire. The liners 5 can also be made in the form of a rectangular plate attached to its upper part or to the upper and lower horizontal wire rods 10, and the seating elements in the form of hooks 6 and 7 are made on the ends of the bar protruding from the plate 10. The liners 5 can be made of two wire segments 9, the wire segment having the upper landing elements along the edges, bent downward, and the wire segment having the lower landing elements along the edges, bent upward, while the lower portion of the upper ezka lower and an upper portion interconnected

The steps between the inserts 5 when they are dispersed inside the cartridge on the support rods 4 should provide for the possibility of placing any thickness of the polymer containers 11 filled with biomedical material.

The cassette is used as follows.

In the assembled cassette, supplied to the consumer, on the support rods 4 are placed such a number of spacer inserts 5, the step between which, when they are evenly distributed inside the case, turns out to correspond to the maximum possible thickness of the polymer container 11 with biomedical material.

Initially, all the movable spacer liners 5 located in the cassette body on the support rods 4 are shifted to one of the end walls 1, for example, to the rear end wall 1.

The first polymer container 11 is placed in the cassette, filled with biomedical material, pressing it to the plane of the front end wall 1.

The first insert 5 is moved along the support rods 4 and is pressed against the second side surface of the polymer container 11 by one side, fixing it in the cartridge.

A second polymer container 11 is placed in the cassette, pressing its first side surface to the second side of the first liner 5. Moving along the supporting rods 4 of the second liner 5, press it on one side to the second side surface of the second polymer container 11, fixing it in the cassette.

Similarly, all subsequent operations are carried out to sequentially place polymer containers 11 with biomedical material inside the cartridge case and tightly fix them by means of movable spacers 5.

If all the polymer containers 11 with biomedical material placed in the cassette have the maximum possible thickness, then the entire working volume of the cassette will be filled completely with a fairly tight packaging.

If some of the polymer containers 11 intended for placement in the cartridge have a thickness less than the maximum, then part of the volume in the cartridge after full use of all the movable inserts 5 will be empty.

To place additional polymer containers 11 in the cassette while ensuring their spacing, additional inserts 5 are used, made, for example, of sheet material with landing elements in the form of profile slots that can be inserted from above (see Fig. 9). In this case, the inserts 5 are preliminarily placed on the support rods 4 in an amount necessary for discrete spacing of the polymer containers 11 intended for placement, having a thickness less than the maximum.

Performing one after another the operations described above, placed in the cassette until it is fully loaded filled polymer containers 11 to ensure discreteness and the desired packing density.

The proposed cartridge can be used for placement of polymer containers 11 with frozen blood plasma during quarantine during storage in stationary freezers.

Ensuring a clear spacing of the polymer containers 11 in the cassettes allows you to create a multi-purpose computer database of components of biomedical material stored in freezers and thermostats. In particular, the use of such cassettes in the blood service allows you to:

- to carry out the differentiation of containers 11 with blood or plasma according to biological indicators;

- automatically generate information about donors, the timing of the preparation of a portion of blood;

- to ensure the rapid issuance of containers 11 with blood components with the required rates;

- exercise full control over the issue and dispatch;

- make an express selection of orders in progress, according to various criteria, etc .;

- reduce the time during the manipulation of the batches of containers 11 to eliminate temperature violations during transfers from the working chambers of the freezers to the pre-chilled and equipped with the corresponding frozen cold cells working volumes of thermal containers;

- rationally use the working volume of the freezer or thermostat, etc.

Claims (7)

1. A universal cassette, primarily for placing polymer containers with biomedical material, containing a casing in the form of a hollow parallelepiped open on top, inside of which are placed spacers with landing elements interacting with supports made in the form of rods mounted on the end walls of the casing along the side walls parallel to the bottom, while the landing elements of the liners are made in the form of holes or hooks, the profile and dimensions of which are selected to ensure and free movement of the inserts along the rods, and the distance between the centers of symmetry of holes or hooks are made equal to the distances between the axes of symmetry of the cross-sectional rods. 2. The device according to claim 1, characterized in that the liners are made of sheet material. 3. The device according to claim 1, characterized in that the liners are made in the form of a rectangular plate with a horizontal bar attached to its upper part, and the seating elements are made on the ends of the bar protruding from the plate. 4. The device according to claim 1, characterized in that along each side wall is mounted one above the other along a pair of rods. 5. The device according to claim 1, characterized in that a pair of rods is installed one above the other along one of the side walls, and one is installed along the other. 6. The device according to claim 1 or 3, characterized in that along each side wall one rod is installed, and the landing elements are located at a level located above the center of gravity of the liner. 7. The device according to claim 1 or 4, characterized in that the liners are made of two pieces of wire, and the piece of wire having the edges of the upper landing elements made with a bend downward, and the length of the wire having the edges of the lower landing elements made with bending upward, while the lower portion of the upper segment and the upper portion of the lower are interconnected.

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