EP1730486A2 - Incubation device for serology and histology slides - Google Patents

Abstract

The invention relates to an incubation device for serology or histology supports. The invention also relates to any apparatus comprising one such device, and to the use of said apparatuses and/or devices in analysis or diagnosis methods.

Description

 Incubation device for serology and histology slides

The present application relates to an incubation device for serology or histology supports. It also relates to any device comprising such a device, as well as the use of these devices and / or devices in methods of analysis or diagnosis.

Invention Background

Many diagnostic tests are based on the reaction in heterogeneous phase, between a flat and solid surface (typically a microscope slide) and a liquid phase. In a first variant (such as, for example, serological tests), the biological sample to be tested is contained in the liquid phase, and reacts with a slide carrying reactive elements, for example proteins, cells, DNA sequences, bacteria , viruses, etc., previously deposited on the slide. After a first reaction, the slide is brought into contact with a developing reagent. According to another variant, the biological sample to be tested is deposited on the slide, the reactive elements (antibodies, DNA or RNA probes, etc.) and developers then being in the liquid phase. This is the case, for example, in histological tests where the sample is a section of tissue (s) from the body of a patient.

Today, these various operations for handling the solid phase and the liquid phase are essentially manual. Certain reagents are directly deposited on the slide or, in the serological mode, it is the biological sample itself, then the slide (s) are soaked in successive baths which carry out the staining operations necessary for the observation. This results in various drawbacks, and in particular: - a risk of false manipulation when a sample of a few microliters is deposited on a slide and can slip outside the reactive zone, - a lack of reproducibility because it is impossible to precisely control the shear forces to which the deposit is subjected on the slide, - a drift of the reagents, which, for cost reasons, are not renewed at each soaking.

Currently available devices treat the slides openly, with liquid jets or baths, resulting in high reagent consumption and a high risk of contamination. They are not suitable for random access use, which is the only one capable of responding to an emergency. Such are, for example, the devices described in patents or patent applications No. WO03 / 052386, US6,352,861 and US6,495,106 from Lab Vision, Ventana and BioGenex. They are suitable for immunohistology and are not used in serology. There is therefore a real need for improved incubation devices for serology or histology slides, allowing rapid, reliable and automated analysis. In the serological field, there is in particular an unmet need for a random access blade incubator, which can treat a blade in a short time (typically in less than an hour), and respond to emergency diagnoses in terms of infectious diseases. The present invention provides a solution to these needs.

Summary of the Invention The present application relates to a new incubation device for serology or histology slides. It also relates to any device comprising such a device, as well as the use of these devices and / or devices in methods of analysis or diagnosis. The object of the present invention is in particular to provide an incubation device for serology or histology slides which avoids the disadvantages mentioned above, ensuring contacting of the reactive elements in a reliable and automatic manner.

A first object of the invention lies more particularly in an incubation device for serology or histology slides having a reactive zone, characterized in that: - it comprises a solid support (1) having a flat surface on its face upper, in which is arranged at least one alvélole (2) open on the surface of the support, the opening having an area greater than that of the reactive zone of the blade and less than that of the surface of the blade, - the bottom of the cell comprises at least two orifices (4) allowing the circulation of fluid (s) in the cell, - the contour of the opening of the cell is advantageously provided with a means making it possible to ensure a seal, preferably a seal (5); and - the device also comprises means for placing and / or blocking a serology or histology slide (6) so that the reactive area of the slide is opposite the opening of the cell to the surface of the support, the blade and the support thus cooperating to form a sealed incubation chamber. In particularly preferred embodiments of the invention: - the device also comprises means for supplying fluid (s) to the cell (or the incubation chamber), and / or - the support comprises a plurality of cells as defined above, allowing the incubation in parallel of several samples, arranged on the same slide or on separate slides, and / or - the device further comprises means for automatic feeding of slides and, optionally, a blade identifier reader, and / or - the device further comprises blade transfer means towards a signal reading device, and / or - the bottom of the cell comprises three orifices, one for the fluid outlet, one for the inlet of liquids and one for the inlet of gases. In a particularly advantageous manner, in the device of the invention, the object-slide (6) constitutes the removable upper face of an incubation chamber, said chamber being sealed and provided with orifices (4) allowing the circulation of the various fluids necessary for the development of serology or histology reactions. Thus in particular, according to the invention: - the placing of the sample (in serological mode) or of the reagents (in histological mode) is not done on the slide but directly in the device at a location provided for this purpose, - the successive reagents are brought into contact with the slide by a laminar sweep strictly limiting the shearing, - the operations follow one another "with lost reagent", after each reaction the reagent used (or the excess of the reagent) is removed, and n is not reused. These characteristics are particularly advantageous and allow contacting of the reactive elements in a reliable and automatic manner, and to provide reproducible results.

Another subject of the invention relates to a method of serological analysis comprising the incubation of a serology slide comprising a reactive zone comprising a series of deposits of infectious agents, pathogens, allergens or autoantigens with a serum sample of a patient, or a dilution thereof, then the revelation of the antibodies of the sample fixed on the deposits by means of labeled reagents, characterized in that the incubation is carried out in a device as defined above. The sample to be tested can be introduced into a cell before the positioning of the slide, then the slide is applied to the surface of the support so as to form the sealed incubation chamber in which the reactive area of the slide is at sample contact. As a variant, the sample to be tested can be introduced (pumped) into the incubation chamber formed by the blade placed on the cell. Another subject of the invention relates to a method of histological analysis comprising the incubation of a histology slide comprising a reactive zone comprising a tissue sample from a patient with a solution of specific antibodies, then the revelation of the antibodies of the solution fixed on the sample by means of labeled reagents, characterized in that the incubation is carried out in a device as defined above.

The invention also relates to the use of a device as defined above for serological or histological analysis.

Another aspect of the invention relates to kits, in particular biological analysis kits, comprising a device as defined above.

The invention is applicable in numerous fields, in particular for histological or serological analysis in a medical, veterinary, environmental, food-processing, etc. context.

Detailed description of the invention As indicated above, the invention relates to a device suitable for the analysis of serology or histology slides. The device advantageously comprises a solid support (1) having a flat surface on its upper face in which is arranged at least one alvélole (2) open on the surface of the support, the support cooperating with the surface of the blade to form, at the level of the cell, a sealed incubation chamber whose blade represents the removable upper face, the bottom (that is to say the entire wall constituting the cell) of the cell further comprising at least two orifices (4) allowing the circulation of fluid (s) (liquids, gases) in the incubation chamber thus formed. The support used can be of various shapes and sizes, insofar as it has a flat surface, preferably on the upper face. The support is typically rectangular in shape, adapted to the usual shape of the serology or histology slides, even if any other shape can be envisaged (square, circular, triangular, etc.). Thus, when the positioning of the blade is ensured by the cover, the support of the cell can be of size limited to the contour of the surface ensuring the seal, typically a joint limiting the cell. The thickness of the support must be sufficient to accommodate the cell (a cavity), of a suitable volume to form an incubation chamber. Typically, the incubation chamber (and therefore the cell) has a volume of between 5 and 500 μl, for example between 10 and 350 μl, and the support should have a thickness greater than 3 mm, for example between 0, 5 and 3 cm. The solid support can be produced from various materials, possibly mixed. It can in particular be composed (or based on) plastic material, metal and / or any rigid material resistant to saline solutions and to temperatures greater than or equal to 37 ° C. In a preferred embodiment, the solid support is composed (or based, that is to say comprises) of polymethacrylate, polyester, polycarbonate, nylon (delrin, rilsan) or stainless steel, alone or in mixtures.

The cell formed in the support can take different forms, depending on the applications envisaged and / or according to the type of support used. A priori, there is no specific constraint as to the shape of the cell, provided that the opening has an area greater than that of the reactive zone of the blade and less than that of the surface of the blade, to allow the formation of the incubation chamber. Furthermore, as described in the following text, the support may include a plurality of cells, allowing the separate analysis of several samples. In preferred implementation variants, the cell (and its opening) has a circular or elongated shape, with radii of curvature as large as possible. It is understood that other shapes can be envisaged (rectangular, elliptical, etc.).

On the other hand, as indicated above, the contour of the opening of the cell is preferably provided with a seal (5), making it possible to seal the incubation chamber. The seal can be produced, for example, in or from any flexible material, preferably latex, synthetic rubber or silicone. In addition, the seal can be flat or O-shaped. It can have a variable diameter or thickness, typically between 0.5 and 5 mm.

The orifices (4) provided in the bottom of the cell preferably have a small diameter, since they are essentially intended to ensure the circulation of liquids and / or gases. Typically, their diameter is between 0.1 and 3 mm, preferably between 0.3 and 2 mm, more preferably between 0.5 and 2 mm. To ensure better circulation of the fluids in the incubation chamber, and in particular in order to carry out a sweep, the orifices are advantageously arranged on either side of the cell, that is to say typically diametrically opposite. Thus, when the incubation chamber is formed by placing the blade, the orifices are located on either side of the reactive zone, and allow scanning of the latter.

In a preferred embodiment of the device of the invention, the cell comprises two diametrically opposite orifices, one for the inlet of the fluids, the other for the outlet of the fluids.

It is understood that additional orifices (for example 1 or 2) may be provided, either for the supply of liquid (s), or for drying or the supply of gas, for example, or even to improve the flow or scanning within the incubation chamber. Thus, in a preferred embodiment of the device of the invention, the bottom of the cell comprises three ports: one outlet port and two inlet ports, one for liquids and the other for gases, especially for drying air. More preferably, in this embodiment, the outlet orifice is arranged on one side of the bottom of the cell and the two inlet orifices are arranged on the diametrically opposite side, typically close to one another. (see Figure 8A).

According to a particularly preferred embodiment of the invention, the device further comprises means for placing and / or blocking a serology or histology slide so that the reactive area of the slide (6) is in face of the opening of the cell on the surface of the support, the blade and the support thus cooperating to form a sealed incubation chamber. The means for placing and / or blocking the blade on the support may consist, for example, of a countersink, a shoulder or pins. Such means make it possible to force a correct positioning of the blade so that the reactive zone is located opposite the opening of the cell. In a preferred embodiment, a recess (13) is provided in the support, at one end of the location of the blade, to facilitate disengagement by simple pressure, and / or a movable and articulated cover (7) makes it possible to block the blade (support and hold), once in position. In a particular variant, the means for arranging and / or blocking the blade comprise an articulated frame (14), in particular with a slide and, possibly, locking means. The articulated frame advantageously comprises an articulation or a hinge allowing the easy and guided positioning of the blade (and thus the opening and closing of the incubation chamber), as well as, optionally, a cover (141). The locking means may comprise, for example, a thumb wheel (142) actuating a locking cam, or even an electromagnet. In another particular variant, the means for placing and / or blocking the blade consist of a fixed cover (7) provided with a location (71) allowing the blade to be put in place (6), the support block of the cell being movable relative to said cover. In this case, it is the support of the cell which can be moved in the vertical direction so as to close the incubation chamber when the blade is in place. In this variant, the blades are advantageously slid into a location (71) (for example a groove) formed in the cover, and the mounting of the support closes the incubation chamber (and places the reactive zone in contact with liquids before or after introduced in it). Preferably, in the device of the invention according to this embodiment, the support and the fixed cover are linked by means for guiding the movement of the support and advantageously comprises means for controlling this movement, for example electrical or mechanical. On the other hand, in this variant, the cover is advantageously pierced with an opening (3) perpendicular to the incubation cell, so as to allow the introduction of the sample into said cell before placing in place of the blade, if applicable. Figure 4 shows this arrangement in perspective.

Thus, a particular object of the present invention relates to a device for incubating serology or histology slides presenting a reactive zone, characterized in that it comprises: - a solid support (1) movable having a flat surface on its upper face, in which is arranged at least one cell (2) open on the surface of the support, the opening having an area greater than that of the reactive zone of the blade and less than that of the surface of the blade, in which the bottom of the cell comprises at least two orifices (4) allowing the circulation of fluid (s) in the cell and the contour of the opening of the cell is provided with a means making it possible to ensure a seal; - a fixed cover (7) provided with a location (71) allowing the positioning of the blade, and with an opening (3); and - means for guiding the essentially vertical movement of the movable support (1) towards the fixed cover (7) to allow forming a sealed incubation chamber between the cell and the blade, when the latter is in place, the reactive area of the slide being contained in said incubation chamber. In a preferred embodiment, the means for guiding the vertical movement of the support comprise a hinge, preferably consisting of a steel blade, placed at a sufficient distance from the reactive zone of the blade when the latter is in place to ensure essentially uniform pressure on the cell seal, typically at least 5, 6, or 7 cm, 10 cm for example, and fixed to both the cover and the cell support (see Figure 8B) . The mounting of the support, of the order of 3 mm, can be ensured manually, for example a cam lever, or mechanically by an electric motor or a jack.

In a preferred embodiment, the device of the invention further comprises means for ensuring a supply of fluid (s) to the incubation chamber. These supply means typically comprise at least one fluid supply reservoir (8) connected to a first orifice of the cell, called the inlet orifice, by a tubing system for the introduction of fluid (s) into the alveolus, and a fluid recovery tank (9) connected to a second orifice of the alveolus, said outlet orifice, by a system of tubing, for the elimination of fluids, said systems being connected to one or more pumps (10, 11). In an implementation variant, a single pump (preferably a suction pump) is used to control the entry and exit of the fluids. In another embodiment, the pressurization of the tanks is used to move the fluids, each supply channel is then provided not only with a valve but also with a flow adjustment element such as a needle. Advantageously, the device comprises several (eg 2 to 6) fluid supply reservoirs (8) connected to the inlet orifice, each reservoir being connected to a valve (12). The presence of several supply tanks allows the introduction of different reagents (liquids, gases) in the incubation chamber, according to kinetics, doses and / or suitable programs. The presence of valves makes it possible to individually regulate the supply of each of the fluids (or from each of the supply tanks present). In a preferred variant, a pump of the peristaltic type is used, preferably with reversible movement, ensuring the successive placement of the liquids by suction, each liquid being under the control of a valve. The pump flow can vary for example from 0.1 to 10 ml / min. A syringe-type pump can be used, with the same flow rates. On the other hand, in a particular variant of the invention, the device further comprises an additional pump (11) for drying the blade or for cleaning the device. It is advantageously a non-volumetric air pump, with a flow rate of, for example, between 100 and 3000 ml / min. It is understood that these figures are provided for information only, and that certain embodiments may go beyond these limits and be adapted by those skilled in the art. Both pumps can be connected to the same outlet tubing, each controlled by a valve. In the case of a peristaltic pump the valve is not necessary. The air pump for drying can be either suction, in which case it is connected on the same side as the liquid suction pump, or of the blowing type, in which case it is connected on the other side (as it is shown in Figure 5). The valves used are advantageously electrically controlled.

According to the embodiments, 3 to 6 valves control the arrival of the reagents, 0 to 3 valves control the suction pumps. In a preferred embodiment, one of the valves is used to ensure the atmospheric pressure, facilitating the opening and closing of the incubation chamber.

In a particular embodiment of the invention, the suction circuit can be switched directly to one or the other fluid supply tanks (8) by a three-way valve (Figure 9). The presence of this auxiliary circuit eliminates bubbles which can enter the system when changing or filling the tank. The device can be limited to a single slide but, in an advantageous embodiment, several slides are incubated in parallel. In this case, several cells are advantageously provided in the support (or several supports are used), each cell comprising its set of solenoid valves (12). In a particular embodiment, the solenoid valves are controlled synchronously and a multi-channel preristaltic pump ensures the transfer of the reagents simultaneously into the different cells. An auxiliary contact may be provided to prevent the opening of the valves on an unused cell.

Thus, a particular object of the invention resides in a device in which the support comprises a plurality of cells as defined above, allowing the incubation in parallel of several serology or histology slides. Typically, each cell is provided with fluid supply means and the cell-supply system units thus formed are arranged to operate in parallel, using the same fluids, according to synchronous or offset sequences. In a preferred embodiment of the invention, the liquid transfer pump is suction, the air pump is blower and connected to the inlet port of the cell, so that the fluids always circulate in the same direction and s 'discharge into a single receptacle (9). In a particular embodiment, the device of the invention further comprises means for automatically feeding blades and, optionally, a blade identifier reader. The blade can be identified by a bar code or, preferably, by an electronic label.

In another particular mode of implementation, which can be combined with any of the preceding, the device of the invention further comprises means for transferring the blade to a signal reading device, in particular an optical reader in order to carry out observations and measurements of the biological characteristics of the samples. Advantageously, the signal reading device is integrated in the support and / or the cover of the incubation device according to the invention. In a particular embodiment of the invention, the support material is transparent and the bottom of the cell is polished so that the optical observation device can be integrated into the incubation device. By way of example, the incubation device of FIG. 4 can be provided with a fluorescence detection optic with a light-emitting diode integrated in the support and a retractable objective coming into contact with the blade. Such optical devices are greatly facilitated by the provision of optical fiber to solve the problems of space as those skilled in the art know how to do it. In a particular embodiment of the invention, the bottom of the cell in line with the reactive zone of the blade consists of the plane side of a plano-convex lens, the first lens of an objective for collecting the light emitted by the sample. According to this embodiment, for the fluorescence measurements, the excitation source is placed above the slide.

The devices according to the invention are suitable for any type of serology or histology slide. In this context, within the meaning of the present application, the term "blade" means any rigid object-carrying element which can be used to immobilize a biological deposit, thus delimiting a reactive zone. It can be for example a solid coverslip, a membrane, a filter, etc. The blade can be made of (or based on) any known and conventional material, such as plastic, glass, nylon, ceramic, metal, biological polymers, silica, etc. Preferred slides are glass microscope slides. Their dimensions are generally standard, about 25mm x 75mm. In a preferred embodiment, the blades are provided with a polarizing device, for example in the form of a notch in a corner.

Commercial automatic pipettors, such as those manufactured by Cavro, Hamilton, or Gilson, can be used to introduce the sample (serology version) or the monoclonal antibody (histology version) at the appropriate dilution. Different embodiments and uses of the invention are described in the examples and in the appended figures, in which: FIG. 1 is a top view of the incubation cell in serology version. Scale drawing. (1): hollowed out support for the incubation cell (2) and a blade imprint. (4): inlet and outlet ports for liquids and gases. (5): seal. (13): release of the blade. Figure 2 is a top view of the incubation cell in histology version. Scale drawing.

Figure 3 shows a block carrying the incubation cell according to the invention with fixed support and movable cover. (1): hollowed out support for the incubation cell (2) and a blade imprint. (4): inlet and outlet ports for liquids and gases. (5): seal. (6): blade, shown out of place. (7): cover, shown without the joints. (13): release of the blade.

FIG. 4 represents a device according to the invention with fixed cover (7) and mobile cell support (1), provided with means for guiding and positioning the blade; (3) opening of the cover, allowing the introduction of the sample into the cell. The mechanism for raising and lowering the block is not shown.

Figure 5 represents a schematic section of principle of circulation in serology version. The solenoid valve block (12) consists of a methacrylate base pierced with fine pipes and on which the valves are bolted.

The block is itself bolted to the cell support. Tubing is represented by dotted lines. The electrical circuit is not shown. Figure 6 is a block diagram of the circulation in histology version. There is no drying device, considered optional in histology. Figure 7 shows an arrangement of a four-slide incubator according to the invention, seen from above on a 1 / 2- scale. The slide locking devices are shown in gray. Each device consists of a hinged (metal) frame (14) carrying a transparent cover (141), as well as a thumb wheel (142) actuating the locking cam (not shown). The large circles are the locations of the buffer and water bottles, the small shaded circles are the locations of the restricted use reagents, such as the staining agents.

FIG. 8A represents a diagram of a cell with three orifices, two for the entry of fluids and one for their exit; Figure 8B shows a device according to the invention provided with means for guiding and positioning the blade (6), consisting of a hinge comprising a steel blade (foil) fixed to the cover (7) and to the support of the socket (1). In this representation, the support is mounted manually by a cam lever. FIG. 9 represents a hydraulic assembly diagram (fluid wiring) of a device of the invention comprising three-way valves (symbol Y) making it possible to switch a suction circuit directly to one or the other of the tanks. supply of liquids (8) by an auxiliary circuit. FIG. 10 represents an arrangement of an incubator with four blades according to the invention, seen in perspective perspective. The incubation units correspond to the block diagrams in Figure 8.

As illustrated in the figures, the invention can be implemented for the analysis of serology slides. In the serological mode, the slide carries a series of biological deposits ("spots"), for example of infectious, pathogenic agents, autoantigens or allergens. Deposits are carefully identified, this identification constituting an identification code. The liquid sample to be tested is a patient serum, generally diluted in an appropriate buffer. The reagents used are: 1) The agents for revealing the antibodies of the patient possibly attached to the slide and, preferably, antibodies of animal origin coupled to marker molecules, for example fluorescent. Antibodies of animal origin (goat, mouse, rat, rabbit) are preferably of two types: some recognize type M immunoglobulin, others type G immunoglobulin. Each type of antibody is coupled to a specific marker. For example, the former are coupled to fluorescein and the latter to rhodamine. It is understood that other combinations of dyes and / or markers are possible, such as the fluorochromes Alexa Fluor 488 and Alexa Fluor 594, provided that the excitation or emission spectra differ. Such dyes and / or markers can be found commercially, for example from Sigma (Saint-Louis, Mo, USA), Molecular Probes (Eugène, Oregon, USA) or FluoProbes, including in form conjugated to anti IgG antibodies and anti IgM. In the invention they are preferably used in diluted mixtures so as to carry out rapid and specific labeling, according to the procedures known to those skilled in the art. 2) The rinsing solutions which are used, slightly detergent saline solutions according to compositions known to those skilled in the art, for rinsing the reagents in contact with the slide, and more astringent solutions and distilled water for rinsing the device.

Incubations can be carried out at laboratory temperature, or at 37 ° C if an accelerating effect is sought. They proceed in successive phases: the first step is the placing in the cell (2) or in the incubation chamber of the liquid sample to be tested, generally between 10 and 100 μl. The sample can be introduced automatically by means of the pumping system or, in a preferred mode, by pipetting into the open cell, before the application of the blade. Then, the blade (6) is put in place, ensuring that the reactive zone is brought into contact with the liquid sample to be tested. The blade is applied to the contour of the cell so as to provide a seal. After an appropriate incubation time, the device rinses the slide with a rinsing solution, then supplies the labeled development reagents (eg, fluorescent antibody conjugates). After a new incubation, the incubation chamber is rinsed again. In a preferred mode, the last operation is air sweep drying. During the automatic incubation process, the reagents are therefore successively introduced by pumping and come into contact with the reactive area of the slide, with pause times allowing the reaction-diffusion coupling. At the end of the process, the blade may or may not be dried by a gas stream. To ensure high sensitivity, each reaction must be as complete as possible, with the exception of the first, which can be "controlled by kinetics" to better reflect the differences from one patient to another. The invention also allows great specificity, that is to say in particular the absence of artifacts due to the persistence of the previous reagent in the following incubation. In a preferred mode, several incubation units, alveolus-blade holder-pumping system, are combined to operate in parallel according to synchronous or offset sequences, using common reagent reservoirs.

The invention can also be implemented for the analysis of histology slides. In the histological mode, the slide carries a sample of tissue from a patient, which can be in the form of a frozen and dried section or a dewormed section, for example. The reagents used in this embodiment are: 1) The specific antibody or antibodies recognizing the elements of interest on the sample section. These antibodies are preferably monoclonal, they recognize either differentiation antigens, such as cytokeratin, or tumor antigens, such as carcinoembryonic antigen. They can be directly labeled or revealed by secondary antibodies themselves labeled either with fluorescent molecules or with enzymes. 2) The rinsing solutions used, slightly detergent saline solutions according to compositions known to those skilled in the art, for rinsing the reagents in contact with the slide, and more astringent solutions and distilled water for rinsing the device.

Incubations can be carried out at laboratory temperature, or at 37 ° C if an accelerating effect is sought. They proceed in successive phases: the first step is the establishment of the specific antibody, which can be a monoclonal antibody suitably diluted according to the rules known to those skilled in the art. The antibody can be introduced automatically by means of the pumping system, or in a preferred mode by pipetting into the open cell, before application of the slide. Several antibodies can be successively brought into contact with the slide, by means of the incubator, provided that in fine the markings are distinguished from each other. Those skilled in the art will have no trouble programming the appropriate sequence to carry out the markings that they have chosen. In a particular mode, drying by air sweeping is carried out to clean the device, after removal of the blade.

In a preferred mode, several incubation units, alveolus-blade holder-pumping system, are combined to operate in parallel according to synchronous or offset sequences, using common reagent reservoirs. Other aspects and advantages of the present invention will appear on reading the examples of mode of use which follow, which should be considered as illustrative and not limiting.

Example 1 - Description of a serology incubation

This mode of implementation is described in relation to Figure 5. Outside the cell, the serum is heated for 30 minutes at 57 ° C (decomplementation) and then stored at 4 ° C. Step 1- The serum is diluted 1/100 in PBS-milk (0.15 M NaCl, phosphate pH 7 0; 01 M, 50 ml + 1.5 g of milk). Step 2- 40 μl of sample (diluted serum) are introduced into the open chamber. The test slide (Inodiag) is placed above, the spots in contact with the sample. The cell (incubation chamber) is closed and the incubation is continued for 20 minutes. Step 3- The “buffer” solenoid valve is then opened and the suction pump (10) put into action. The rinsing is carried out with 100 μl of PBS buffer containing 0.05% tween 20, for a period of approximately 30 seconds. This is done three times in succession. Step 4- The “anti IgM + IgG” solenoid valve is then opened and the suction pump (10) put into action. This allows the introduction into the incubation chamber of a mixture of anti IgG and anti IgM antibodies (80 μl, diluted in PBS).

The incubation is continued for approximately 10 minutes. This reagent is fluorescent.

Then, rinses identical to the previous step are carried out. Step 5- The "water" solenoid valve is open and the suction pump (10) is activated for approximately 30 seconds. Step 6- Finally, the solenoid valve linked to the blower air pump (11) is open, as well as the solenoid valve directly linked to the outlet tank (9). The air pump (11) is operated for 20 seconds to dry the blade.

Example 2 - Description of a histological incubation

This mode of implementation is described more particularly in relation to Figure n ° 6. Outside the cell, the section is dewaxed, rehydrated and pretreated according to the rules of immunolabelling known to those skilled in the art. Step 1- The sample (100 μl of primary antibody (ref .: 10032.1, clone: B56, Histopathology, Pécs, Hungary) diluted 1/100) is introduced into the open chamber.

Step 2- The slide (6) object holder (tissue section 4 μm thick, human lymph node) is placed above, the section in contact with the diluted antibody. The cell (incubation chamber) is closed and the incubation is continued for 20 minutes.

Step 3- The “buffer” solenoid valve is open and the suction pump (10) is started. Rinse with 100 μl of buffer, wait 3 minutes. This is done three times in succession.

Step 4- The “Detection reagent” solenoid valve is then opened and the suction pump (10) put into action. This allows the introduction into the incubation chamber of the detection reagent (100 μl, polymer conjugated to the enzyme peroxidase). Incubation 20 minutes. Step 5- Then, rinses identical to the previous step are carried out.

Step 6- The “chromogenic substrate” solenoid valve is then opened and the suction pump (10) activated. This allows the introduction into the incubation chamber of the development reagent of a mixture of diamino-benzidine and hydrogen peroxide (100 μl). Incubation 20 minutes. Step 7- The “water” solenoid valve is open and the suction pump (10) is started. Add distilled water to stop the enzymatic action.

Claims

claims

1. Device for incubating serology or histology slides having a reactive zone, characterized in that: - it comprises a solid support (1) having a planar surface on its upper face, in which at least one cell is arranged (2) open on the surface of the support, the opening having an area greater than that of the reactive zone of the blade and less than that of the surface of the blade, - The bottom of the cell comprises at least two holes ( 4) allowing the circulation of fluid (s) in the cell, - the contour of the opening of the cell is provided with a means making it possible to ensure a seal; and - the device also comprises means for placing and / or blocking a serology or histology slide (6) so that the reactive area of the slide is opposite the opening of the cell to the surface of the support, the blade and the support thus cooperating to form a sealed incubation chamber.

2. Device according to claim 1, characterized in that the means making it possible to arrange and / or block the blade on the support so that the reactive zone is located opposite the opening of the cell consist of a counterbore, a shoulder or spikes, and possibly a movable and articulated cover (7) making it possible to block the blade once in position.

3. Device according to claim 1 or 2, characterized in that a clearance (13) is provided in the support, at one end of the location of the blade, to facilitate the release of the blade by simple pressure.

4. Device according to claim 1, characterized in that the means for arranging and / or blocking the blade comprise an articulated frame (14), in particular with a slide and, possibly, locking means.

5. Device according to Claim 1, characterized in that the means for placing and / or blocking the blade consist of a fixed cover (7) provided with a location (71) allowing the blade to be put in place (6) , the support block of the cell being movable relative to said cover.

6. Device according to claim 5, characterized in that the support and the fixed cover are linked by means for guiding the movement of the support and in that it also comprises means for controlling this movement, for example electrical or mechanical .

7. Device according to claim 5 or 6, characterized in that the fixed cover is pierced with an opening (3) directly above the incubation cell.

8. Device for incubating serology or histology slides having a reactive zone, characterized in that it comprises: - a solid support (1) mobile having a flat surface on its upper face, in which is arranged at least a cell (2) open on the surface of the support, the opening having an area greater than that of the reactive zone of the blade and less than that of the surface of the blade, in which the bottom of the cell comprises at least two orifices (4) allowing the circulation of fluid (s) in the cell and the outline of the opening of the cell is provided with a means making it possible to ensure a seal; - a fixed cover (7) provided with a location (71) allowing the positioning of the blade, and with an opening (3); and - means for guiding the essentially vertical movement of the movable support (1) towards the fixed cover (7) to allow forming a sealed incubation chamber between the cell and the blade, when the latter is in place, the reactive area of the slide being contained in said incubation chamber.

9. Device according to any one of the preceding claims, characterized in that the cell has a circular or elongated shape.

10. Device according to any one of the preceding claims, characterized in that the cell has a volume of between 5 and 500 μl.

11. Device according to any one of the preceding claims, characterized in that the means for ensuring a seal comprises a seal (5).

12. Device according to claim 11, characterized in that the seal is made of a flexible material, preferably latex, synthetic rubber or silicone, and / or in that it is of planar or toric shape.

13. Device according to any one of the preceding claims, characterized in that the solid support is composed of plastic material, metal and / or any rigid material resistant to saline solutions and at a temperature greater than or equal to 37 ° C.

14. Device according to claim 13, characterized in that the solid support is composed of polymethacrylate, polyester, polycarbonate, nylon (delrin, rilsan) or stainless steel, alone or in mixtures.

15. Device according to any one of the preceding claims, characterized in that the orifices (4) of the cell have a diameter between 0.1 and 3 mm and / or are arranged on either side of the cell, in order to carry out a sweep.

16. Device according to claim 15, characterized in that the cell comprises two diametrically opposite orifices, one for the entry of fluids, the other for the exit of fluids.

17. Device according to claim 1 or 15, characterized in that the cell comprises three orifices, one for the outlet of the fluids, the other two, close to one another, for the inlet of the liquids and gases respectively.

18. Device according to any one of the preceding claims, characterized in that it further comprises means for ensuring a supply of fluid (s) to the incubation chamber.

19. Device according to claim 18, characterized in that the supply means comprise at least one fluid supply tank (8) connected to a first orifice of the cell, said inlet port, by a system of tubing for the introduction of fluid (s) into the cell, and a fluid recovery tank (9) connected to a second orifice of the cell, called outlet port, by a tubing system, for elimination fluids, said systems being connected to one or more pumps (10, 11).

20. Device according to claim 19, characterized in that it comprises several fluid supply reservoirs connected to the inlet orifice, each reservoir being connected to a valve (12).

21. Device according to claim 19 or 20, characterized in that the supply means comprise one (or more) three-way valve (s) making it possible to switch a suction circuit directly to one or the other of the tanks. 'liquid supply (8) by an auxiliary circuit.

22. Device characterized in that the support comprises a plurality of cells as defined in any one of the preceding claims.

23. Device according to claim 22, characterized in that each cell is provided with fluid supply means and in that the cell-supply system units thus formed are arranged to operate in parallel, using the same fluids, according to synchronous or offset sequences.

24. Device according to any one of the preceding claims, characterized in that it further comprises means for automatic feeding of blades and, optionally, a blade identifier reader.

25. Device according to any one of the preceding claims, characterized in that it also comprises means for transferring the blade to a signal reading device.

26. Device according to any one of claims 1 to 24, characterized in that it comprises a signal reading device integrated in the support and / or the cover.

27. A method of serological analysis comprising the incubation of a serology slide comprising a reactive zone comprising a series of deposits of infectious agents, pathogens, allergens or autoantigens with a sample of a patient's serum, or a dilution of this, then the revelation of the antibodies of the sample fixed on the deposits by means of labeled reagents, characterized in that the incubation is carried out in a device according to any one of claims 1 to 26.

28. The method of claim 27, characterized in that the test sample is introduced into a cell before the introduction of the slide, then the slide is applied to the surface of the support so as to form the incubation chamber waterproof in which the reactive zone of the slide is in contact with the sample.

29. Method according to claim 27, characterized in that the test sample is pumped into the incubation chamber formed by the blade placed on the cell.

30. A method of histological analysis comprising the incubation of a histology slide comprising a reactive zone comprising a sample of tissue from a patient with a solution of specific antibodies, then the revelation of the antibodies of the solution fixed to the sample by means of labeled reagents, characterized in that the incubation is carried out in a device according to any one of claims 1 to 26.

31. Use of a device according to any one of claims 1 to 26 for serological or histological analysis.

32. Kit comprising a device according to any one of claims 1 to 26.