SE463639B - DEVICE FOR CONTROL OF CELLS SUSPENDED IN SCIENCE - Google Patents

Description

463 // v 6% 2 DESCRIPTION OF THE INVENTION TECHNICAL PROBLEM There are problems in being able to continuously analyze a large number of concentrates continuously which can be given different start times in the test process and can be subjected to different length test times. It is also essential that the construction of the unit and the application of the concentrates can be carried out so that a continuous ongoing control of individual concentrates becomes independent of the structure of the unit and the packages, the application of the packages, etc.

The quality of the concentrate must be read in the respective rotation sequence of rotations at a point on the packaging which is exposed to labels and similar markings. Only the transparent or translucent wall or casing of the package and the entrapped concentrate must be exposed at the reading point. In addition, it must be possible to read at the part of the inner volume of the package where an optimal amount of liquid is present at the time of reading. It is essential that the amount of liquid or concentrate is substantially the same at each reading occasion or passage of the reading means and that the liquid is kept in motion in a manner optimal for the measurement.

It must be possible to apply, remove and change the concentrate in an appropriate manner during the unit's ongoing movement rotation, which places demands on the unit as such. Changing the concentrate must also not cause other concentrates to be disturbed or affected. The actual replacement must be able to take place quickly and smoothly to enable routine control function. The respective concentrate must also not be disturbed / change position when the appliance moves / rotates.

THE SOLUTION The object of the present invention is to propose a device which solves all or parts of the problems stated above. What can then mainly be considered to be characteristic of the new device is e.g. that the unit comprises two or more storage planes for packaging and that each plan comprises a number of storage stations arranged preferably next to its outer edge. In addition, each station shall comprise in storage means applicable cassette-like means arranged to support a packaging unit so that the liquid is exposed to the sensing means in a similar manner at each passage thereof. The cassette-like member is preferably arranged to support a package in the form of a translucent bag containing human cells or other cells (eg blood bag) and of varying size. In this case, the cassette-like member comprises a fixing member for the bag which can be adjusted in the longitudinal direction of the member for adaptation to the length of the current bag. In one embodiment, the fixing means may be releasably anchorable to the body of the cassette-like member at different portions thereof, e.g. releasably anchored in various holes which are part of a row of holes extending in the longitudinal direction of the frame.

The invention also takes note of embodiments of the fixing means, which can be provided with first holding hooks for the package / blood bag. The arrangement enables a simplified and smooth removal of the package / bag. The fixing means can e.g. comprise a longitudinally displaceable part on the body of the cassette-like member which supports said first retaining hooks.

This part is anchored to the body by means of holding means in the form of a screw, to which the part is connected via a spring which is to guarantee that only a predetermined minor tension without folds of the bag is present so that liquid or concentrate in the blood bag can circulate during rotation of the unit. rocking, etc.

The cassette-like member may be in the form of a plate which is stored in storage means in the form of guide guides, between which the plate can be slid into a fully slid position. At the outer edge of the laying plane, there is also a holding member or locking member which comes into operation with the rear edge of the plate when it assumes the fully inserted position. The plate is provided at its end edges which are located at the outer edge of the laying plane with one or more second holding hooks for the blood bag or the like which are thus applied between said first and second holding hooks.

The cassette-like member / plate and the laying plane at each laying station comprise continuous recesses that enable the concentrate to be illuminated at the reading point. The latter is arranged in the vicinity of the lowest point of each layout plan. Each station is equipped with an initiating means which at the reading point affects additional sensing means. This influence is individual for each storage station and is intended to identify in the computer equipment the station which is in turn to be read.

Further embodiments appear from the following claims. u. 4-63 659 ADVANTAGES Through the invention, packages of different sizes can be applied in the unit. The packages are not tensioned on the cassette so that the inner space of the packages is divided into sub-spaces, the partitions of which would prevent a necessary circulation inside the package / blood pass during the movement / rotation of the unit, which is used precisely to achieve said circulation. The application of the package is also carried out so that creasing or tendencies to this are eliminated. Such creasing would impair the measurement result or, in the worst case, make the measurement completely impossible. Through the cassette system, the floor height can be made small in the unit and it is possible to make changes during movement / rotation. Respective packaging or concentrate occupies unambiguous positions and is not disturbed by adjacent concentrates at e.g. byten. The reading function can thus be made unambiguous, which gives a prominent good result for the blood analysis function as such.

FIGURE DESCRIPTION A presently proposed embodiment of a device having the features significant to the invention will be described below with reference at the same time to the accompanying drawings, in which: Figure 1 shows in principle from the side the structure of the unit and computer equipment connected to sensing means in the unit; figure 1, figure 3 shows in longitudinal section a cassette-like member which is arranged on the unit according to figure 1 and carries a package in the form of a blood piece, figure 4 in horizontal view shows the cassette-like member according to figure 3. figure 5 in longitudinal section shows the cassette-like member according to figure 4. figure 6 in horizontal view shows a holding part arranged on the cassette-like member, 465 639 figure 7 from the side shows the holding part according to figure 6, and figure 8 in cross section and end view shows parts of the cassette-like member with associated storage means arranged on a the device according to the figure n 1 detailed layout plan for packaging units.

PREFERRED STRUCTURE FORM Figure 1 shows in principle a unit with 1. The unit comprises an axis of rotation 2 and on this support planes 3, 4 and 5 arranged in storeys one above the other. eight, storage stations 6-11. The axis of rotation 2 is arranged inclined and comprises a drive wheel 12, via which a drive device 13, e.g. in the form of an electric motor is connected via a drive wheel 14 for driving the unit around the axis of rotation.

The unit 1 is provided with a sensing or reading station, at which lamps 15, 16 and 17 are arranged to illuminate packages applied to the storage stations as they pass the reading station. Said lamps 15, 16 and 17 are arranged at one side of each package so that they can illuminate the respective package. At the other side of the package, in this case below the respective floor level, photodiodes 18, 19 and 20 are arranged. Said photodiodes or the like are connected via lines 21 to a computer equipment 22. The computer equipment may be of a kind known per se and may comprise printing unit, screen, etc. for presentation of the analysis performed by the unit 1. The respective station is provided with an activating means 23 which, during the passage of the reading station, influences, e.g. inductively, a sensing means 24. By means of the means 23, the computer equipment 22 can identify the station which will be closest in the reading mode. The member 23 is thus arranged in front of the loading station seen in the direction of rotation (cf. R in figure 2). In one embodiment, a marking system with two markings is arranged, the first marking being attributable to the position of a continuous recess at the respective station described below and the second marking being attributable to the first position (station) on the layout plane.

In Figure 2, a station is indicated by 25. Each station comprises a cassette-like member 26 which is insertable into storage means 27 in the form of guide guides, by means of which the member 26 is cooperable via “its edge surfaces. In Figure 2, 26 is shown in its fully retracted position. In this position the member 26 is locked by means of a locking lug 28 arranged on a spring which is arranged on the lower surface 3 of the support plane 3 in question. When the member 26 is to be pulled out (in the radial direction) from the storage means, the locking lug 28 is actuated downwards manually so that the end surface of the member 26 in question is exposed.

The respective laying plan is provided with a number of cassette-laying laying stations 25. Both the cassette-like member 26 and the laying-out plane are provided with a continuous recess 29 to enable the function shown in Figure 1 where the lamps 15, 16 and 17 illuminate a package placed on the member 26. and the transparency or transparency is indicated by the photodiodes 18, 19 and 20. In Figure 2, additional storage stations are symbolized by recesses 30, 31 in the layout plane. All stations have the same design as the station 25. The design of the leaf spring carrying the respective stop means 28 'is shown at least 32. In Fig. 2, the reading station is arranged at the location of the sensing means 24 (cf. Fig. 1). The outer circle point 33 consists of the lowest point of the layout plane 3. The reading station is located near this point, preferably between 15-30 ° before this point. The means 23 actuates the means 24 before the x cassette-like means enters the reading position.

In Figure 3, the cassette-like member 26 'carries a package in the form of a blood bag 34 known per se which contains a concentrate 35 which may consist of cells suspended in a liquid. Examples of concentrates are platelet concentrate, any other blood product or cells suspended in fluid. The cassette-like member has the shape of a disc or plate 26 'which may be made of light metal, e.g. aluminum or similar. The continuous recess of the member 26 'is shown with 29'. The continuous recess of the laying plane 3 'is shown with 3l'. Thanks to the slopes of the laying plane 3 'and the member 26', an optimal amount of concentrate 35 accumulates at the part of the portion of the package 34 which is illuminated by the lamp 15 '. The change of turbidity. or the transparency depends in a known way on the status of the cells, ie on the quantity and quality of the cells. The photodiode 18 'provides a sensing signal i which is dependent on the transparency. The greater the transparency, the greater the signal obtained and vice versa. The transillumination and sensing take place at the outer edges 36 of the laying plane 3 'and the member 26'. The cassette-like member is provided with holding means for the packaging unit. First holding means in the form of first projecting hooks 37 are arranged on a radially displaceable part 38 which is anchored via a spring 39 in a screw 40.

The screw can be screwed into any hole 41-44 which is located at different distances from the outer edges 36. In this way, adaptation can be made to different blood lengths. The holding means also comprise a second projecting hook H 7 465 659 45. At its short ends 34a and 34b the blood bag is provided with an edge which has continuous recesses for said projecting hooks. With the structure shown, the blood bag can be held so that a desired less fold-free tension is obtained. The clamping is selected so that the concentrate 35 can circulate inside the inner volume of the blood bag 34 during the rotation of the unit 1 about the axis of rotation 2. The circulation also occurs so that substantially the same amount of concentrate is present at the reading point, i.e. the thickness and cell amount (cf. distance a) is substantially the same each time the blood bag passes the reading point. For other types of bags, e.g. plasmapheresis bags, another type of suspension / storage is used.

Figure 4 shows the cassette-like member or plate 26 'in more detail. The anterior and posterior edges of the blood sac are indicated by 34a 'and 34b'.

These edges support said through recesses for the holding hooks 37, 37 'and 45, respectively. The part 38 is formed as a thin disc in light material, e.g. aluminum. The part carries at its front edge said hooks 37, 37 'and is at its rear edge connected to the spring 39. The part 38 is also provided with a projecting tongue 38a which is arranged at the lower surface 26a' of the member 26 '. The tongue is connected via a portion 38b extending from the upper surface 26a "of the member 26 'to said lower surface 26a' via a slot 46 extending in the column longitudinal direction of the plate. By this arrangement the portion 38 is kept in close contact with the upper surface 26a 'of the plate 26'. This helps to fix the position of the blood bag which can be kept abutting against the upper surface 26a "despite said rotation and inclination. The projecting hooks 37, 37 'are slightly pivoted backwards to prevent the bag from slipping off the hooks. Said holes 41-44 are included in a row of holes 47 which extend in the longitudinal direction of the plate 26a '. The part 38 also has the task of holding the aluminum part in place when the bag / concentrate is removed. The holding hook 45 also serves as a manual actuating means when the bag / concentrate is removed and as a marking of the number of the station / the continuous recess.

Figures 6 and 7 show the part 38 in detail. Figure 8 shows one of the control guides 27 in the storage means (cf. Figure 2). The guide can be designed as a horizontal U or have another design that provides a corresponding function.

The insertion position of the plate 26 'is determined by a front surface 48 (see figure 4) which cooperates with a stop part 49 on one of the guide guides. l fi dÄi fi i 1: »65 / o 9 a LN! The unit can alternatively or additionally be arranged with a movement that differs from the rotational movement, e.g. rocking and / or reciprocating motion. The light source (s) can be arranged to compensate for a change in the emitted radiation from the light source due to its age and / or voltage variations. The movements of the packages are also such that the discooid sides of the cells are exposed to the light, ie that the cells are substantially perpendicular to the direction of radiation. In this way, changes in discoidity can be followed with the measurement procedure. Cells in the form of lymphocytes and bacteria can also be observed with the equipment. When these cells are observed, it is not the discoidity but the amount of cells that changes. It is thus a change in the turbidity that is measured over the observation period and the change is due to the fact that the discoidness of the cells decreases, that the amount of cells increases, etc.

The invention is not limited to the embodiment shown above as an example, but may be subjected to modifications within the scope of the appended claims and the inventive concept. _ '

Claims (7)

1965 659 PATENT CLAIMS A device for controlling cells suspended in liquid and comprising a movable unit (1), to which packages (34) enclosing such liquid from different individuals are applicable and can be passed, at intervals determined by the movement of the unit, t .ex. rotation or rocking, sensing means (eg 15, 18) which for the liquid in the respective packaging gives one of a factor, e.g. translucency, which is attributable to cell quality and / or cell amount depending on sensing signal (i), and a sensing signal receiving and processing equipment / data equipment (22) arranged to provide information, preferably continuously such, attributable to the quality of the cells and / or quantity in the various packages, characterized in that the unit comprises two or more storage planes (3, 4, 5) for packages, that each plan comprises a number of storage stations (25, 30, 31) preferably arranged next to its outer edge. for packaging, and that each station comprises in cassette-like means (27) applicable cassette-like means (26) arranged to carry a package which can vary in size and so that the liquid is exposed to the sensing means in a similar manner at each passage thereof, and that the cassette-like member comprises, for the package, for adaptation to the length of the current package, an in-length length of the organ and by releasably anchoring to the body of the storage means adjustable fixing means (38) which comprises partly a part (38) provided with projecting first holding hooks (37, 37 ') which is guided in its longitudinal movement in the body of the cassette-like means, and partly holding means (40 ), by means of which the part (38) is releasably fixable in the body, and that the holding means (38) comprises, in addition to a part / screw anchorable in the body, a part provided with the projecting first holding hooks and the anchorable part / screw (40) arranged spring (39) which for the package / ensures a predetermined fold-free minor tension which means that the liquid / concentrate in the package can circulate freely in the inner volume of the package, a disturbance-free measurement is obtained and a smooth removal of the package is made possible. 463: / 0 659 Device according to claim 1, characterized in that the cassette-like member (26 ') has the shape of a plate which is stored via its side edges in storage means in the form of guide guides (27, 27'), between which the plate is retractable from the outer edge of the plane towards the center of the plane to a fully retracted position of the plate where resilient locking means (28) arranged in the plane interact with the edge located at the outer edge of the plate, and that the plate (26 ') at its end edge located at the outer edge of the support plane is formed with one or more projecting second holding hooks (45) for the package / a blood bag, which respective other holding hooks also serve as a manual actuating or holding means when applying and removing the cassette-like member. 3I of, that both the cassette-like member / plate and the respective layout plan Device according to claim 1 or 2, characterized in that it comprises continuous recesses, over which at least a part of the package / blood bag extends when it is arranged on the cassette-like organ / plate by means of the holding means / the first and second the retaining hooks cooperating with the package / blood vessel at its ends (34a ', 34b'), and that the unit with the laying plan (3-5) is arranged with an inclined axis of rotation (2), that said through recesses (29 ', 3l') are arranged closest to the periphery of the respective laying plane, and that the inclination of the unit, the laying of the packages and the through recesses are arranged so that when passing the sensing or reading means (15, 18, 16, 19 and 17, 20) optimal amount of liquid / concentrate is located in the part of the inner space of the package / blood bag that is exposed / illuminated at the passage and so that the liquid / concentrate partly circulates continuously inside the package / bl the bag during the respective rotational turns of the unit, and is in motion to enable the respective discoid cell to assume a position where the discooid side of the cell is substantially perpendicular to the direction of transillumination. 4. n a d of the fact that the longitudinally displaceable fixing means (38) is arranged. Device according to one of the preceding claims, characterized in - e.g. with a part (38a) projecting through an elongate heel (46) in the cassette-like member / / plate (26 ') which is cooperable with a lower surface (26a') of the body of the cassette-like member, to pour the package / blood bag abutting against the upper surface (26a ") of the cassette-like member / plate and to enable the removal of the package / bag in a smooth manner. 'f 465 639 Device according to one of the preceding claims, characterized in that the unit (1) is arranged with three or more lay-up planes (3-5) arranged one above the other and that the cassette-like means are arranged to allow a small floor height. , e.g. a floor height corresponding to the total thickness of ten packages / blood bags with simultaneous easy placement and removal of the cassette-like members / plates during ongoing rotation of the unit. Device according to one of the preceding claims, characterized in that the cassette-like means and associated storage means and holding means (27, 27 ') for the packages / blood bags on the cassette-like members are arranged so that the packages / blood bags are not disturbed. during ongoing rotation / inspection and / or that the packages / b1od bags are not too tense and / or folded over the continuous recesses (29 ', 3l') of the cassette-like members and the layout plane. Device according to claim 8 or 9, characterized in that the sensing or reading station is located at least near the lowest point (33) of the respective plane and / or that the respective cassette station is arranged with an actuating means, e.g. an inductive one which identifies the station's passage of the sensing or reading station so that the values read during the passage become attributable to the package / concentrate applied to the station.