DE2953696C2 - Incubation device for the treatment of histological specimens - Google Patents

Description

The invention relates to a incubation device for the treatment of histological specimens, in particular for use in automatically operating storage devices, with at least one receiving chamber for several specimens into which an inlet line and an outlet for reagents open.

A treatment device with the features mentioned above is from DE-OS 15 98 706 for Coloring of biological preparations and from DE-OS 27 18 946 for fixation, contrasting and Embedding of tissue particles known. The specimen receiving chambers are the same in both institutions designed that the reagents used for treatment are introduced into the chamber, there for a

to linger for a certain reaction time and then be derived again from the chamber. With such devices, however, exactly the same and also sufficient treatment of the multiple preparations cannot be guaranteed in all cases. They also do not ensure optimal utilization of the reagents, which are often very expensive. For the treatment, a relatively large amount of reagents is required to fill the preparation receiving chambers, which cannot be used uniformly and optimally in a treatment with standing liquid, but can not be reused after the treatment because of the absorption of substances from the preparations.

The invention is based on the object, while avoiding the disadvantages mentioned above

_>) To train the incubation device so that with it a simultaneous treatment of several preparations while ensuring the same effect on all preparations can be carried out with optimal utilization and without wasting reagents.

The object set is achieved according to the invention with an incubation device of the type mentioned at the outset in that the separate inlet and the separate outlet are arranged at and / or wipe at opposite ends of the receiving chamber

j) at least one flow channel with a relatively low Receiving volume is formed in the receiving chamber. in which the preparations alongside or are arranged one behind the other.

In an incubation system designed according to the invention

4 (in the device, the reagents can be run in a continuous flow process use, whereby through the formation of passageways with a low uptake volume for the reagents are in excess of those which are often very expensive for the treatment of historical preparations

4Ί reagents are avoided. By building the Incubation device with inlet and outlet on opposite sides of the receiving chamber Use the incubation device in automatically operating treatment devices, where by means of

■ vi Feed pumps or suction pumps circulate a reagent is effected. This insert in automatic handling equipment is still through the preferred arrangement of controllable cut-off and / or switching valves on the inlets and

v> favors processes that, for example, on a computer-equipped Control device can be connected, as described in the associated parent application DE-OS 29 15 248 is described.

The receiving chambers can be

NO before adapting the slide and adapting it, for example, to slide in the form of small glass plates or in the form of screw caps that are impervious to gas and liquid. Advantageous Ausliihningsli>rmt'ii and further developments of the lnkub.itn> nseiii '"n.hii.ir ⁱ L'

■ "> are listed in subclaims.

The following are AusluhrungsheiMiicv er!: ·! duly trained incuhatn i ^ on: n ¹ M k'l'c ¹ · based on the schematic drawings near ¹ "er!. ·!, -

th. In detail shows

F i g. 1 shows a schematic plan view of a first embodiment of an incubation device;

FIG. 2 shows a cross-section, enlarged compared to FIG. 1, through the incubation device along the line Line M-II in Fig. 1:

3 shows a central longitudinal section through a receiving chamber of a second embodiment of Incubation facility;

Fig. Yes, a section through one in the receiving chamber according to FIG. 3 slide used;

F i g. 4 shows a longitudinal section through a receiving chamber a third embodiment of the incubation device:

F i g. 5 shows a section along the line VV in FIG. 4. FIGS. 1 and 2 show an incubation device 14 which is used for treating histological section preparations applied to microscope slides in the form of small glass slides. The incubation device 14 has a body 17 made of a chemically stable material such as plastic or stainless steel. in which six trough-like and upwardly open receiving chambers 18.) - 18 / "are formed next to one another and separated from one another. Each treatment chamber has a reagent inlet 19 ;; ... 19 /" and on the opposite narrow side a reagent outlet 20 ;; ... 20 ^ aUf. The incubation device is for a parallel equalization of section preparations in the individual receiving chambers 18 ;; ... 18 / designed, which is why the drainage lines 20 ;; - 20; all open into a collecting drain line 21. The separation of the individual receiving chambers could also refer to the drainage lines.

In each supply line 19; / ... \ 9f there is a only symbolically indicated switchover valve 22.7 ... 22f , with which the supply lines can optionally be switched to a common drain line 23, which is connected to a suction line of an automatically operating treatment line via a suction connection 24 can be connected.

Each receiving chamber 18.7 ... ISf has holding rails 25 for the specimen slide along its two long sides. As the longitudinal section of FIG. 2 shows through one of the receiving chambers, the glass plates 26 serving as specimen carriers are arranged in a row in four planes. The backs of the glass plates 26 of the two middle levels lie tightly against one another, while a narrow passage gap 27 and 28 for reagents remains between their upper side, which is provided with the preparations, and the upper sides of the glass plates of the lowest and uppermost levels, which are opposite their upper sides. In Fig. 2 is the flow rate of the reagents through the receiving chamber 18 ;; from the inlet line 19.) to the outlet line 20; (indicated by arrows.

FIG. 2 also shows that the body 17 with the receiving chambers 18; / ... 18A on a base plate 29 is arranged. which has a cavity 30 for the flow of a heating or cooling medium. Unless for the for the intended area of application, no preparation cooling is required. can be in the interior room 30 of the Base plate 29 can also have electrical heating elements arranged on one longitudinal side of the base plate 29 a hood-like cover by means of a Schaniicres 31 32 attached. which covers all reception chambers 18 ^ and in a manner not shown in detail also one can cause tight seal of the Incubationseinrichiung to the outside.

In Fig. 3 shows a receiving chamber 33 of another incubation device 14 ′, which is connected with further similar receiving chambers 33 can be provided. The receiving chamber 33 is located inside of the tube 34, which is arranged concentrically in an outer tube 35. At one end of the pipe is one Reagent feed line 36 connected. A high piston rod 37 protrudes through the other end of the pipe ι in the tube 34 sealingly introduced piston 38, the has a central through opening 39 communicating with the hollow piston rod 37. In the receiving chamber 33 formed by the tube 34 are several preparation capsules 40 one behind the other ordered, one of which is shown individually in section in FIG. 3a. The cylindrical preparation capsules 40 have a sieve bottom 41 and a detachable sieve cover 42. by a thread or a Bayonet lock on the preparation capsule 40 can be secured. In the preparation capsules 40 are closed treated tissue parts 43 introduced. The preparation capsules 40 are lined up in the tube 34 so that the sieve bottom 41 of the adjacent capsule is connected to the sieve cover 42 of one capsule 40. Using the Piston 38, the preparation capsules 40 are held in close contact with one another. The one via the inlet pipe 36 in the tube 34 entering reagents flow through all preparation capsules 40 and then arrive through the through opening 39 of the piston 38 and the hollow piston rod 37 into one at the end of the Piston rod 37 connected drain line 44.

The ends of the outer tube 35 are closed. By between the Inncnrohr 34 and the Annular space 45 located on the outside of the pipe 35 can, via a feed line 46 and a discharge line 47, be a leiz- or Cooling medium passed through graze.

The fig. 4 and 5 show a third embodiment example an incubation enrichment 14 "with a receiving chamber for on plate-shaped glass object carriers 60 arranged preparations. As in the exemplary embodiment according to FIGS. 1 and 2 are the Glass slide 60, with the exception of the slide located on the edge, in pairs back to back arranged, and between each pair of glass slides is a narrow one by means of spacers 61 Passage gap 62 formed for reagents. The glass slides 60 are arranged vertically so that the narrow Diirehlaulspalte 62 also run vertically. The reagent inlet 63 is formed at the bottom of the receiving chamber. Be in the receiving chamber the reagents by means of suction elements, not shown, in the with a cover, also not shown tightly closed incubation device from the bottom surface through all pass-through spaces 62 pulled up. Overflow gutters 64 are provided around the upper opening of the housing 68 of the receiving chamber formed, which leads to an overflow channel 64 ;; lead that ends in a drain opening 65 of the housing 68 near the bottom. The receiving chamber is also equipped with a Riser pipe 66 provided, through which larger gas accumulations, which get into the chamber can flow away. There is also an additional emptying opening 67 provided in the floor area of the storage chamber.

The housing tier treatment chamber is made of plastic and can be used for temperature control be hung in a water bath, for example.

For this purpose 4 sheets of drawings

Claims (7)

Patent claims: 1. Incubation device for the treatment of histological specimens, in particular for use in automatically working treatment facilities, with at least one receiving chamber for several preparations in which an inlet line and an outlet line for reagents open out, characterized in that the separate inlet (19, 36, 63) and the separate outlet (20, 44, 64) on opposite sides Ends of the receiving chamber (18, 33, 68) are arranged and between them at least one Passage channel (27, 28; 39, 41, 42; 62) with a relatively small receiving volume in the receiving chamber is formed, in which the preparations are arranged next to or behind one another. 2. Incubation device according to claim 1, characterized in that the receiving chamber for sliced specimens applied to small glass plates (26, 60) and holding frames (25) or Stops for detecting or for placing the glass plates (26, 60) on opposite sides Has sides in such a way that the sides provided with the sliced preparations of mindcslens two glass plates or rows of glass plates are opposite each other at a small distance and delimit a narrow flow gap (27, 28, 62) for the reagents. 3. Incubation device according to claim 1, characterized in that the receiving chamber in a tube (34) is formed. in which the preparations (43) in a row! gas and liquid permeable Preparation capsules (40) are introduced, which by means of an inlet or outlet (39) forming Hohlkolbcns (38) are held in mutual contact. 4. Incubation device, laughing at claim 3, characterized in that the receiving chamber (33) forming tube (34) concentrically in a tube through which a temperature-controlled liquid can flow Heating tube (35) of larger diameter is arranged. 5. Incubation facility according to claim J or 4. characterized in that the specimen carriers are screw caps (40) with a sieve base (41) and Sieve covers (42) are formed. 6. Incubation device according to one of claims 1 to 5, characterized in that the inlet (e.g. 19; i-190 and processes (/ .. B. 20.J-20 / '; all their receiving chambers (e.g. 18 ;; - 18 / ^ each with a controllable shut-off and / or switching valve (z. B. 22a-22 // are given away. 7. Incubalionscinrichtung according to any one of claims 1 to 6, characterized in that the Receiving chamber (18) has a heatable bottom part (29) and is sealed by means of a cover (32) is lockable.