DE102008056584B4 - Method and device for treating objects - Google Patents

Abstract

Method for treating objects, namely cytological and / or histological preparations, consisting of the following steps: specification of a treatment program which has several treatment parameters for treating the objects, bringing the objects into several treatment stations (3) by means of a transport device (4) according to the treatment program, acquisition of process data relating to the time and / or the number in relation to the objects and / or the treatment stations during the execution of the treatment program, evaluation of the acquired process data after the execution of each treatment program, determination of an optimization for the treatment program and / or the treatment stations from the evaluation, characterized in that it is determined for the evaluation in which treatment stations (3) no objects are introduced, that for the evaluation it is determined in which treatment station (3) objects are most frequently introduced and that, for optimization, treatment stations (1) into which no objects are introduced are replaced by treatment stations (3) into which objects are introduced most frequently.

Description

State of the art

The invention relates to a method and a device for the treatment of objects, namely of cytological and / or histological specimens, which are preferably arranged on slides and in slide magazines.

Cytological and histological methods are used to examine cells obtained, for example, via a smear, surgical specimens, biopsy material or other tissue specimens. An analysis of the preparations is usually for diagnostic purposes in medicine. The preparation, processing and staining of such preparations is in most cases associated with a complex preparation of the material using a variety of reagents. For example, techniques for identifying disease-related altered tissue require a whole series of steps. This includes the preparation of a tissue section with fixation, dehydration, embedding and cutting of the tissue, as well as the dewaxing, rehydration and staining of tissue sections and the covering of the finished preparations. Typical reagents that are used are formalin, butanol, xylene and paraffin. Further, dyes such as hematoxylin, methylene blue, azure, cresyl violet, toluidine blue, alcian blue, eosin, azo carmine, acid fuchsin, ponceau, orange G, picric acid or Schiff's reagent are used. In addition, antibodies are used to identify and histologically localize substances responsible for an antigen-antibody reaction. The antibodies can in turn be detected directly or indirectly via specific color reactions in the preparation.

Devices for treating the objects, in particular cytological and histological preparations, have a plurality of treatment stations, which serve the processing of cells, tissues or organs. This includes, among other things, the coloring. The treatment stations are arranged side by side in several rows. The arrangement is usually rigid. Swapping or moving the treatment stations is possible. In order to transport, treat and store the objects, each object is placed on a support, in particular on a slide. Multiple slides that undergo the same treatment may be placed in a slide magazine. The treatment stations are equipped with different reagents. The transport takes place by means of a transport device from one treatment station to the next. The course of treatment in the various treatment stations is determined by a treatment program. Treatment parameters, such as the type and order of the treatment stations and the treatment time per treatment station are part of a treatment program. The treatment program with its treatment parameters and the location of the treatment stations in the device is predetermined by a user or user based on his experience.

A disadvantage is that the experience of the user is often not sufficient to optimize a treatment in terms of their quality, the total duration of treatment, the number of samples to be treated and the prioritization of individual, additional samples. If, for example, the residence times in individual treatment stations are longer than in other treatment stations, this leads to a jam of the objects in front of the individual treatment stations and to corresponding waiting times. The individual treatment stations represent a bottleneck in the entire treatment. Such waiting times can lead to different treatment results depending on the length of the waiting period. Thus, the treatment result is no longer reproducible but dependent on the respective bottlenecks in the treatment. For example, if the treatment is a stain, too long a staging time in a water station may result in leaching of the stain.

The US 2008/0113440 A1 discloses a method and apparatus for transporting tissue samples through a modular automated laboratory system. Treatment stations in the modules serve to process the tissue samples, which are analyzed by medical and / or diagnostic means. The route of the samples through the laboratory system is influenced by process data, which is collected and processed directly during the transport of the samples. A disadvantage here proves that the treatment program with its treatment parameters can not be adapted to a changing need for treatment stations.

It is an object of the present invention to provide a method and apparatus for treating objects which enable an automatic and continuous improvement of a treatment program to improve the quality of the treatment, shorten the duration of the treatment and the concomitant treatment to allow multiple objects.

The invention and its advantages

The inventive method with the features of claim 1 characterized by in that the process data concerning the time and / or the number in relation to the objects and / or the treatment stations are detected during the execution of the treatment program. This includes, for example, the time during which an object is located in the individual treatment stations, possibly a waiting time before an object can be introduced into a treatment station because it is otherwise occupied, the entire duration of the treatment in all treatment stations included in the treatment, the sum of the waiting times before all treatment stations of a treatment and the start time of a treatment. With regard to the number, for example, the number of objects per treatment is recorded, the throughput per treatment station as well as the sample volume or object volume. The sensors used to acquire the process data are, for example, a time recording device, a light barrier or other devices for detecting specific events. The recorded process data are then evaluated. The result of the evaluation provides, for example, information about which treatment stations there is a bottleneck and thus particularly long waiting times occur. In addition, it can be determined, for example, which of the treatment stations are not or rarely used. Furthermore, from the time elapsing between the individual treatments, without any waiting time, it is possible to obtain information about the length of the route which an object has to cover from one treatment station to the next. From the evaluation, finally, an optimization for the treatment program and / or the treatment stations is determined. An optimization consists, for example, of increasing or reducing the number of specific treatment stations or of changing the position of the treatment stations, depending on the evaluation.

An advantage of the method according to the invention is that the treatment program and / or the treatment stations are not only adapted once to changing requirements, but that a continuous and automatic optimization takes place. The method therefore offers the possibility of continuously responding to changes, such as an increased or reduced amount of objects. The optimization is not based on the experience of a user or user, but on a continuous analysis of the process data obtained during the execution of the method. The ongoing process is a self-learning process. The procedure can thus also respond to short-term changes and optimize the course of treatment.

Another advantage of the method according to the invention is to prioritize a particular object and to perform the treatment of this object preferred. Individual objects, which require the result of a treatment very quickly, can be treated in parallel with other objects without interrupting the treatment of these other objects. For this purpose, the two parallel treatments are coordinated so that the lowest possible waiting times occur before the individual treatment stations and the quality of the samples is not affected. The treatment of the single object can be started while the treatment of other objects is already ongoing.

The samples are often unique, which represent a certain value. It is therefore of great importance that the quality of the objects during the treatment is not impaired, and that a reproducible result is achieved by the treatment. The inventive method contributes to the bill and meets the necessary requirements. Further, the process protects the treatment stations filled with expensive reagents from avoidable contamination. This guarantees a high quality treatment. In addition, the reagents rarely need to be replaced, which is environmentally friendly. Finally, the treatment is carried out as quickly as possible taking into account the predetermined parameters. Thus, the result of the treatment can be submitted quickly.

For evaluation it is determined in which treatment stations no objects are introduced during a treatment.

For evaluation, it is also determined in which treatment station objects are introduced most frequently. For optimization, treatment stations into which no objects are introduced are replaced by treatment stations in which objects are introduced most frequently. The user is then given a recommendation to exchange the corresponding treatment stations with each other.

According to an advantageous embodiment of the invention, the optimization is output to the user. For this purpose, for example, an optical display device is provided on which the recommendation concerning the optimization is displayed. In this way, the user receives, for example, the information to increase or reduce the number of specific treatment stations or to change the position of individual treatment stations. The user can then carry out the changes necessary for the optimization himself. In addition, there is the possibility to automatically tune the treatment program on which the treatment is based on the optimization. These include, for example, optimizations concerning the sequence of particular treatment stations in the treatment program.

According to a further advantageous embodiment of the invention, the treatment program for the treatment of objects subsequent to the determination of the optimization is automatically modified according to the optimization.

According to a further advantageous embodiment of the invention, the waiting time before a treatment station, the cycle time through all treatment stations, the process duration of the entire treatment and / or the start time of a treatment are recorded as process data. This process data relates to the time in relation to the treatment and / or in relation to the individual treatment stations.

According to a further advantageous embodiment of the invention, the number of objects in a treatment station, the number of objects in a slide magazine, the frequency with which an object is introduced into a treatment station during a treatment and / or the throughput per treatment station are recorded as process data. This process data does not concern the time but the objects and the treatment stations. This process data is detected by a light barrier or other sensor to detect an event or automatically derived from the treatment program. The data concerning the time and the data concerning the number can also be combined with each other.

According to a further advantageous embodiment of the invention, the lengths of the paths traveled between two treatment stations, into which the object is introduced successively according to the treatment program, are recorded as process data. This path can be determined, for example, by a transmitter or a sensor on the transport device. In addition, the length of the path can be calculated from the positions of the treatment stations, if they are known. Some information about the length of the path also provides the time that elapses between removing an object from a first treatment station and placing the object in the second treatment station. However, it is difficult to separate the time required for the object to travel the distance between the two treatment stations from any waiting time before the second station. The determination of the actually traveled path therefore provides a more accurate result.

According to a further advantageous embodiment of the invention, the fill level is determined for each of the treatment stations filled with a liquid treatment bath. As a result, there is continuous information regarding the reagents contained in the treatment stations, in particular the amount of reagents. The user can be continuously informed about the level. In addition, it is possible to issue a warning to the user if the level falls below a predetermined limit.

According to a further advantageous embodiment of the invention, the treatment program contains a plurality of treatment parameters, including the order in which an object is introduced into the various treatment stations, and the duration of the treatment per treatment station counts. Other treatment parameters may also be predetermined and represent a part of the treatment program. In contrast to the process data, the treatment parameters are specified together with the treatment.

According to a further advantageous embodiment of the invention, a number and an arrangement of treatment stations is determined for the optimization, in which the waiting times between the treatment stations is minimal. The minimum waiting time shortens the entire process or treatment time without compromising the quality of the sample or the object.

According to a further advantageous embodiment of the invention, a number and an arrangement of treatment stations is determined for the optimization, which allows the simultaneous treatment of as many objects as possible. In this way it is possible to treat not only one but several objects parallel to an already ongoing treatment. The treatment of one or more objects is made possible without the treatments of the individual objects being interrupted for this purpose. In this way, certain objects can be treated preferentially, without other objects already in the treatment being impaired with regard to their treatment or their quality. The treatments can be run according to the same treatment program or different treatment programs.

According to a further advantageous embodiment of the invention, each object is equipped prior to treatment with an individual machine-readable mark. The label can be attached directly to the object, to the slide or to the slide magazine. The marking is recorded before the beginning of the treatment and / or at all or individual treatment stations and / or at the end of the treatment. That's it it is possible to interrogate and verify the current treatment station or other position of an object at any time during treatment. This is also known as data tracking.

According to a further advantageous embodiment of the invention, the treatment stations are equipped with reagents treatment stations of a stainer. Such a stainer is also referred to as stainer. The processing stations of a stainer are typically reagent-equipped stations, water stations, heating stations or ovens, unloading stations and loading stations.

According to a further advantageous embodiment of the invention, the objects are arranged on slides and / or in slide magazines.

The device according to the invention for the treatment of objects, namely cytological and / or histological specimens, is characterized in that it comprises at least one sensor for acquiring process data concerning the time and / or the number in relation to the objects and / or the treatment stations while running a treatment program. The sensor detects, for example, the time during which an object is located in the individual treatment stations, optionally a waiting time before an object can be introduced into a treatment station, the total duration of the treatment in all treatment stations included in the treatment, the sum of the waiting times before all Treatment stations of a treatment and the start time of a treatment. With regard to the number, for example, the number of objects per treatment is recorded, the throughput per treatment station as well as the amount of samples or objects. For time recording is a time detection device, such as a clock. The time tracking is triggered by a specific event. This event is either also detected by a sensor or specified by the treatment program. An event is, for example, the introduction of an object into a treatment station or the removal of an object from a treatment station. In addition, the device for treating objects is equipped with a device for evaluating the acquired process data and for optimizing the treatment program and / or treatment stations. The device for evaluation and optimization may, for example, be a computer or a computer. This is equipped with suitable software to compare the process data with given reference values. In addition, the device can calculate its own guide values from changed arrangements of treatment stations.

The device is used in particular for carrying out the method according to the invention.

According to an advantageous embodiment of the device according to the invention this is equipped with a device for detecting machine-readable markings. These markers are located on the objects, slides, or slide magazines. In this way, the treatment station at which an object is currently located can be determined at any time during the treatment. The device or devices for detecting machine-readable markings are arranged for this purpose at several or all treatment stations.

According to a further advantageous embodiment of the device according to the invention, the objects are arranged on microscope slides and / or slide magazines.

Further advantages and advantageous embodiments of the invention will become apparent from the following description, the drawings and the claims.

drawing

In the drawing, an embodiment of a device according to the invention is shown. Show it:

1 Device in a front view,

2 Device according to 1 in a view from the side,

3 Slide carrier with several slides of the device according to 1 .

4 Calculator and sensor of the device according to 1 ,

Description of the embodiment

In the 1 and 2 a device for the treatment of objects, in particular of cytological and histological specimens is shown, wherein the objects on slides 1 are arranged. The slides 1 are for treatment in the device in slide magazines 2 arranged. The arrangement of several slides 1 in a slide magazine is in 3 shown. The device according to 1 and 2 has several treatment stations 3 into which the on the slides 1 arranged objects are introduced according to a predetermined treatment program. The treatment stations 3 are in the device next to each other. They are filled with various treatment baths. A transport device 4 is located in the device above the treatment stations. She reaches from the top of the slide magazines 2 picks up the slide magazines and transports them from a treatment station 3 to the next. In addition, the transport device takes 4 a slide magazine at the beginning of a treatment to bring it to the first treatment station 3 introduce. Furthermore, the transport device leads 4 a slide magazine after completion of treatment and leaving the last treatment station out of the device.

The device is equipped with an optical sensor 5 equipped with the markings on the slides 1 and on the slide magazine 2 can be detected. The through the sensor 5 captured data are with a computer 6 evaluated. The sensor 5 is with the calculator 6 via a data line 7 connected sensor 5 , Computer 6 and data line 7 are together with a slide in 4 shown.

All features may be essential to the invention both individually and in any combination.

LIST OF REFERENCE NUMBERS

1

slides

2

Slides magazine

3

treatment station

4

transport means

5

sensor

6

computer

7

data line

Claims (18)

Method for treating objects, namely cytological and / or histological specimens, consisting of the following steps: specifying a treatment program which has a plurality of treatment parameters for treating the objects, introducing the objects into a plurality of treatment stations ( 3 ) by means of a transport device ( 4 ) according to the treatment program, acquisition of process data concerning the time and / or the number in relation to the objects and / or the treatment stations during the execution of the treatment program, evaluation of the acquired process data after the execution of each treatment program, determination of an optimization for the treatment program and / or the treatment stations from the evaluation, characterized in that it is determined for evaluation in which treatment stations ( 3 ) no objects are introduced, which is determined for evaluation, in which treatment station ( 3 ) most frequently objects are introduced and that for optimization treatment stations ( 1 ), in which no objects are introduced, are replaced by treatment stations ( 3 ), in which objects are most often introduced. A method according to claim 1, characterized in that the optimization is output to the user. A method according to claim 1 or 2, characterized in that the treatment program for the subsequent treatment of objects is modified according to the optimization. Method according to claim 1, 2 or 3, characterized in that as process data the waiting time before a treatment station, the cycle time through all treatment stations ( 3 ), the process duration of the entire treatment and / or the start time of a treatment are recorded. Method according to one of the preceding claims, characterized in that the number of objects in a treatment station ( 3 ), the number of objects in a slide magazine ( 2 ), the frequency with which an object enters a treatment center ( 3 ) is introduced during a treatment and / or the throughput per treatment station ( 3 ). Method according to one of the preceding claims, characterized in that the length of the process between two treatment stations ( 3 ), in which the object is introduced successively according to the treatment program, covered path is detected. Method according to one of the preceding claims, characterized in that each of the treatment stations ( 3 ) is filled with a liquid treatment bath, and that the level of the treatment stations ( 3 ) is determined. Method according to one of the preceding claims, characterized in that the treatment program as a treatment parameter, the order of the treatment stations ( 3 ) and the duration of treatment per treatment center ( 3 ) contains. Method according to one of the preceding claims, characterized in that for optimization a number and an arrangement of treatment stations ( 3 ) is determined at which the Waiting times between the treatment stations ( 3 ) is minimal. Method according to one of the preceding claims, characterized in that for optimization a number and an arrangement of treatment stations ( 3 ), which enables the simultaneous treatment of as many objects as possible. Method according to one of the preceding claims, characterized in that for optimization a number and an arrangement of treatment stations ( 3 ), which allows the treatment of a single object during the treatment of one or more other objects without interrupting the treatments therefor. Method according to one of the preceding claims, characterized in that each object is provided before the treatment with an individual, machine-readable marking, and that the marking before the treatment and / or at all or individual treatment stations ( 3 ) and / or at the end of the treatment. Method according to one of the preceding claims, characterized in that it is at the treatment stations ( 3 ) are handling stations equipped with reagents of a stainer. Method according to one of the preceding claims, characterized in that the objects on slides ( 1 ) and / or in slide magazines ( 2 ) are arranged. Apparatus for treating objects, namely cytological and / or histological preparations, with a plurality of treatment stations ( 3 ), in which the objects are introduced according to a predetermined treatment program, with a transport device ( 4 ), which transfer the objects to the individual treatment stations ( 3 ) and the objects from a treatment station ( 3 ) to the next treatment station ( 3 ), with at least one sensor ( 5 ) for acquiring process data concerning the time and / or the number in relation to the objects and / or the treatment stations ( 3 ) during the execution of the treatment program, with a facility ( 6 ) for the evaluation of the acquired process data after the execution of each treatment program and for the optimization of the treatment program and / or the processing stations ( 3 ) with regard to the time and / or the number from the evaluation, characterized in that the sensor is a time detection device. Apparatus according to claim 15, characterized in that at least one further sensor ( 5 ) is a device for detecting machine-readable markings. Device according to claim 15 or 16, characterized in that the device for evaluating the process data is a computer ( 6 ) and that the computer with the sensors ( 5 ) is connected via an interface. Device according to one of claims 15 to 17, characterized in that the objects on slides ( 1 ) and / or in slide magazines ( 2 ) are arranged.

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