EP2021808A2

EP2021808A2 - Biological analysis packaging device

Info

Publication number: EP2021808A2
Application number: EP07731459A
Authority: EP
Inventors: Sylvie Veriac; Valérie PAYA-SOUQUET; François DUPOTEAU
Original assignee: Horiba ABX SAS
Current assignee: Horiba ABX SAS
Priority date: 2006-05-16
Filing date: 2007-05-15
Publication date: 2009-02-11
Also published as: US20100062521A1; CN101490561A; WO2007132095A2; JP5286253B2; JP2013140176A; BRPI0712407A2; JP2009537808A; FR2901360A1; WO2007132095A3

Abstract

The invention relates to an automated biological analysis packaging device, characterised in that it comprises the samples under analysis, the reagent(s), and the information required to perform one or more analyses of a biological fluid sample and a location intended to receive, and if applicable process, the waste from the analysis.

Description

PACKAGING DEVICE FOR BIOLOGICAL ANALYSIS

The present invention is in the field of biological fluid analysis and more particularly in the field of automated systems for analyzing biological liquids. It relates very particularly to a device (or support) intended to be introduced into an analysis automaton, said device comprising not only the sample to be analyzed and the reagents necessary for the analysis of said sample and / or the neutralization of the waste but also the information necessary for carrying out said analysis by the automaton, and at least one container intended to receive and possibly neutralize the waste at the end of the analysis. It is known in the prior art devices to support the samples to be analyzed by an automaton.

European Patent Application EP0567093 of TORAY INDUSTRIES discloses a rack system containing a plurality of cartridges each containing three reaction tubes, a dilution tube and a tube for the sample. This device, adapted for an automatic analyzer, requires an additional unit called "reagent dispensing unit" which will draw the reagents into a container, and which distributes them in said cartridges of the rack using needles motorized.

In addition, this device does not include an integrated system of information relating to the analysis to be performed on the sample and does not provide a container for receiving the waste at the end of analysis.

The international application WO8 / 606488, HICHEM DIAGNOSTICS, describes an analysis kit, rectangular in shape, comprising several cavities in which are arranged closed containers, plastic, containing the various reagents or antibodies according to the required analysis. The bottom of the cavities comprises a point intended to perforate the underside of said container when pressure is applied by a technician, on the upper face of said container thus releasing the reagent.

This kit allows a simple type of analysis, and above all requires the intervention of a person who releases the reagents in an established order according to the protocol of the desired analysis.

In addition, this kit does not provide integrated means for quality control, is not suitable for an automatic analyzer and does not contain a container. intended to receive the waste at the end of the analysis. No method of reading the results is indicated

The patent application DE4313807A of Olympus Optical describes a compact system which may contain reagents or antibodies, comprising a bar code system containing certain validity period information, of use, etc. The blood-reactive reaction n ' is not carried out in the containers of the system. This system does not contain a container for receiving the waste at the end of analysis.

US5788928 of CHIRON DIAGNOSTIC CORPORATION discloses a pack having a specific form facilitating the mixing of liquids, for receiving doses of reagents. A rocking stirring device allows the reagents to be mixed automatically.

Reagents are not included directly in the pack and its form is intended to fit into a particular analytical device. Finally, this device does not include an information system relating to the analysis to be performed on the sample or container to receive the waste at the end of analysis.

The US5578272 patent of HOFFMAN LA ROCHE describes the characteristics of a reagent kit integrated into a cartridge that can be used in a biochemistry analysis machine. The sample to be analyzed is not included in the cartridge. The reagents, integrated in the cartridge, are pierced by a needle which takes the liquid to transfer it into a reaction tank, itself not included in the cartridge. The kit is also equipped with a bar code that reads the reagent data. The reaction is mixed separately, using a stirring system. The reaction tank is not integrated in the pack. The barcode does not contain information on the type of analysis to be performed or the method to be used. This kit does not contain a container intended to receive the waste at the end of the analysis.

Thus, although devices for automated liquid sample analysis exist, it is understood that there remains a need for a device comprising not only the sample to be analyzed and the reagents necessary for the analysis of said sample, but also a container allowing recovery. waste and, if necessary, their neutralization, but also the information necessary to carry out said analysis by the automaton, particularly in the context of biological analysis.

The subject of the invention is a conditioning device for biological analysis, characterized in that it comprises at least one sample to be analyzed, at least one reagent, at least one container for recovering the waste resulting from the analysis, and at least one least an information system containing the information necessary to perform at least one analysis of said sample to be analyzed.

The device according to the invention is particularly well suited to the analysis of sample (s) biological fluids, particularly blood, very particularly whole blood.

The device according to the invention has the advantage that it can be prepared in advance. It thus contains in a manner available, the (or the reagents) necessary (s) for the analysis (or the analyzes) which will have to be realized (s), possibly already diluted (s) and ready (s) to the use in the quantity necessary and sufficient for carrying out the analysis (or analyzes) envisaged, as well as all the information necessary for the automaton into which it will be introduced for carrying out the analysis (or analysis). In addition, it allows the recovery of waste analysis. In this regard, the device according to the invention may further comprise at least one means for neutralizing the waste.

Thus prepared, the device can be stored under conditions compatible with the preservation of the elements it contains, until the sample to be analyzed is introduced therein.

In a particular form of use of the device according to the invention, the quantity of sample to be analyzed necessary for the analysis whose parameters are stored in the information means can be introduced into the device by the manipulator beforehand. introduction of the device into the automaton.

The device according to the invention thus makes it possible to reduce to the maximum the intervention of the manipulator which only has to introduce the sample to be analyzed into the device, to place said device in the automaton and to start it, the automaton being responsible for interpreting the information contained in the information means and carrying out the analysis. In another form of use of the device according to the invention, the sample to be analyzed can be introduced into the device and the quantity of said sample necessary for the analysis whose parameters are stored in the information means can be automatically taken. by the automaton. It is understood that in this version, the information means further comprises information on the amount of sample to be taken by the controller.

The object of the invention is particularly useful in a small automaton. It allows for specific analyzes at a lower cost. In addition, the presence of the information system directly on the support, as well as all the reagents in the containers, allows a use of the invention completely independently and reliably. In the case of use in a PLC, the operator does not need to intervene to enter or select data concerning the measuring method or the reagents, which saves time and reduces errors in handling. The object of the invention can be used one or more times. It can be disposable after analysis or reusable once cleaned and sterilized. This type of device is particularly suitable for specific analyzes or for devices that do little analysis ("Doctor Test" concept).

The device according to the invention is particularly well suited to immunotyping assays using antibodies.

More specifically, the device according to the invention comprises

at least one location for receiving a reagent,

at least one location intended to receive a biological sample to be analyzed; at least one location intended to receive the waste resulting from the analysis;

and at least one support of the information necessary for performing said analysis by the automaton.

According to the invention, at least one of the reagents may be a neutralizing agent for the waste of the analysis.

According to a particular embodiment of the invention, the neutralizing agent can be introduced directly into the location intended to receive the waste. In a particular embodiment, the device according to the invention may further comprise at least one location for receiving a reference.

In yet another particular embodiment, the device according to the invention may further comprise at least one location in which the reactions necessary for the analysis will be carried out. In this text we mean by:

- Support: the envelope to maintain all the containers. This envelope is also the support of the information system.

- containing: a tube or cavity directly in the holder, which may contain the reagent (s), the reference (s) and the sample (s), the control (s) ( s) quality and waste analysis. The set of containers can be integrated in the support; - Reagents: all the products necessary for the intended reaction and / or the neutralization of waste, for example chemical compounds, antibodies, dyes or enzymes;

- reference: the reagent (s) allowing calibration of the device (calibrator) and / or the positive or negative control of the analysis. This is a measurement and / or reaction reference that allows internal quality control;

- information system: any device that allows the reading and / or rewriting of information relating to the targeted analysis, particularly by the analysis automaton: - whole blood analyzer: the analyzers performing the analyzes on a test tube blood containing all elements of the blood in opposition to devices operating on plasma or serum (devices called "for biochemistry"). As an example of a whole blood analyzer, mention may be made of the cell counter; - incubator: a space for storing and optionally stirring a solution contained in a container during the period necessary for the chemical or biochemical reaction. The temperature, the brightness, pressure and agitation that can be controlled inside the incubator;

- pre-analytical functions: the actions that prepare the sample before it passes into the whole blood analyzer. The actions on the whole blood sample may be aeration of the container, agitation, reading of the information related to the analysis, the management of quality control, the search for clots in the sample and the displacement of the samples , control of the level of blood in the container, preparation of a chemical reaction requiring an incubation, bringing to a certain temperature of the sample;

- diagnostic profile: the combination of several hematological, biochemical and / or immunological parameters to guide the diagnosis;

- Neutralizing agent: any chemical or biological or organic molecule, or any composition containing one of these molecules in solid or liquid form, to inactivate at least one of the components of the reaction. For example a microorganism neutralizing agent, or a disinfectant or detoxifier for preserving the environment. According to the invention, the information carrier can be any means capable of storing information concerning the analysis to be performed. It can be placed on the support and can be read by a suitable reader, possibly integrated in the analysis apparatus in which the device according to the invention will be integrated. Thus said information carrier may be a bar code, an electronic chip such as an RFID chip, a magnetic strip or tag or a combination of at least two of these elements.

Said information carrier may comprise information relating to the measurement method and / or the use of the reagents and / or the treatment of the sample to be analyzed. It may also include any information relating to the preservation of the products it contains, such as in particular an expiry date. For example, the information system may comprise the information necessary for triggering and / or the duration of the agitation and / or incubation necessary for the good progress of the reaction, and / or information on the method of use and / or the characteristics of the reagent (s) contained in the device, and / or may make it possible to manage the calibration and / or the quality control of the different types of analyze and / or provide historical information. It may still include any information necessary for waste management and / or their neutralization.

In a particular embodiment, the device according to the invention may further comprise at least one or more means (s), possibly mechanical (s), to facilitate handling and / or agitation and / or thermal regulation substances contained in the device. By means for facilitating handling means any means that allows to introduce or remove the device from the analyzer among which a sliding rail or a side door to access the device.

By means allowing agitation is meant a mechanical system consisting of a rigid platform and a movable axis on which the device is positioned and allowing a rotation of this device on this axis.

By means allowing the thermal regulation means any means that allows to drive the sample to be analyzed and / or the reagent or reagents at a temperature compatible with the analysis to be performed. This means can therefore be heating or cooling. In this respect, mention may be made of a Peltier apparatus. According to the invention, the support may be rigid or flexible. It can be any material having good resistance to temperature, shocks and / or chemical reagents. It may be preferentially plastic.

Among these so-called technical plastics, mention may be made of the main fluorocarbon resins including polytetrafluoroethylene (PTFE), fluorinated ethylene-propylene (FEP), perfluoroalkoxy (PFA), polyfluorovinylidene (PVDF), a modified copolymer of ethylene and tetrafluoroethylene (ETFE) or ethylene / chlorotri-fluoroethylene (ECTFE). Certain thermoplastics of the high density polyethylene (HDPE) type can also be used. According to the invention, the device can take any imaginable form insofar as these remain compatible with the automaton intended to receive it. The skilled person knows how to adapt the shape of the device according to said automaton. According to the invention, the locations intended, in the device, to receive the reagent or the sample to be analyzed or the waste or possibly the location where the reaction is carried out, simultaneously or not, may be a cavity, of any shape, which can receive either directly the reagent and / or the sample and / or the waste and / or the reaction mixture is a container, for example a tube, in which the reagent and / or the sample and / or the waste is located and / or the reaction mixture.

It is understood that as needed, either or both of these locations may receive directly or indirectly the reagent and / or sample. By way of example, a device is mentioned in which the reagent (s) are introduced directly into the site (s) intended for the recipient (s) and the sample is introduced into a container, for example a tube, itself introduced into the location of the device intended to receive it.

Preferably according to the invention, the location intended to receive the sample of biological fluid to be analyzed is shaped to receive a container in which said sample is located.

In the particular embodiment in which the reagent and / or the sample is (are) directly introduced into the location, it can furthermore receive any means of closing it. For example, a plug adapting perfectly to the location, possibly screwing into the location, or a cap made of any suitable material, sealed on the device to completely obstruct the location containing the reagent.

It is understood that the means for closing the location in which the reagent is located can either be removed before the introduction of the device into the PLC or be provided in a material that can be pierced for example by a needle directly controlled by the PLC.

The device according to the invention can be used in any biological analysis apparatus including using a manual mode. Advantageously, the device can be used in an automatic or semi-automatic mode apparatus.

Among the devices in which one can use the device according to the invention include a hematology automaton. The device according to the invention can be envisaged in at least two versions:

A first version in which the medium comprises a series of locations all containing the same reagent allowing a series of identical tests and a location containing a reference. In this version, several different samples can therefore undergo the same analysis.

A second version in which the medium comprises a series of locations each containing different reagents each allowing a single test and a location containing a reference. In this version, the same sample can therefore undergo several treatments.

The invention also relates to a biological analysis method characterized in that it implements a device as described above.

The subject of the invention is also a biological analysis automaton, particularly a biological fluid analysis automaton, characterized in that it implements a device as described above.

The figures show support in a certain configuration that may vary depending on the implementation. In particular, the shape of the support is only indicative; one can think to achieve a circular support in which the containers are positioned in a circle. In addition, the shape, number and arrangement of the different containers may vary.

Objects, characteristics and advantages of the invention appear from the description which follows, given by way of nonlimiting illustration, with reference to the appended drawings, in which:

FIG. 1 represents a device according to the invention, presented in perspective (1A) or in a side view (1B),

Figure 2 shows in perspective (2A) or in a side view (2B), corresponds to a device according to the invention.

Figure 3 schematically shows an analyzer with a device according to the integrated invention. Figure (1) corresponds to a device according to the invention, presented in perspective (1A) or in a side view (1B), dimensioned with integrated containers 2 and a location dimensioned 11 to accommodate a conventional tube for the sample . The device 1 is made of rigid plastic, the locations 2 and 4 are directly molded inside the support and form an integral part thereof. Two types of locations are shown here, a location 4 for receiving the reference and locations 2 containing the reagents for analysis. The information system 3 (here, an RFID chip) containing the information on the reagents and the method of use thereof is disposed along the device so that it can be read by a suitable reader disposed in the analyzer. . Hermetically sealed locations will be drilled with or without percussion to allow reagent access. The doses of reagent (s) required for the analysis are then automatically transferred to the location containing the sample where the reaction takes place. Such a device also allows the analysis to be performed by automatic transfer of predetermined dose of the sample to be analyzed in each of the locations which then contain the required dose of reagent. In this example the device is also equipped with a container 14 intended to receive, after use, the biological and chemical liquids used during the analysis of the sample, this container may be equipped with a solid or liquid reagent which will allow the neutralization of the waste resulting from the analysis.

In this example, the device is housed in a compartment dedicated to it in the device and its positioning is via several notches 5.

Figure 2 presented in perspective (2A) or in a side view (2B), corresponds to a device according to the invention 1 dimensioned with locations integrated in the support. The device 1 is here made of rigid plastic, the locations 9, 10 and 12 are directly molded inside the support and form an integral part thereof. Three types of locations are shown here, a location 9 for receiving the reference, a location for receiving the sample to be analyzed and locations 12 containing the reagents for analysis. The information system 8 (here, an RFID chip) ₁ containing the information on the reagents and the method of use thereof, is disposed along the support so that it can be read by a suitable reader arranged in the analyzer. Hermetically sealed locations will be drilled with or without percussion to allow reagent access. The modes of use of this variant of the device according to the invention are identical to those described for the variant of FIG.

Figure (3) schematically shows an analyzer with a device according to the integrated invention. The device 1 in automatic mode comes in this case to be integrated in a blood cell counter on whole blood equipped with a dedicated location for this purpose. The device can be introduced into the blood cell counter by the front face thereof. but configurations can allow an introduction from the side or the back. The device is positioned in the extension of the analysis block.

The following examples of use of the device according to the invention illustrate the invention without limiting it. Example 1

A blood sample is analyzed on an automatic device according to the multiparametric methods described in French Patent No. 01/02489. Following the analysis of white blood cells in a whole blood sample, it is observed the presence of elements in an area that does not allow their separation and precise enumeration because of the proximity of contiguous subpopulations: monocytes and blood cells. lymphocytes. This observation may or may not generate an alarm on the analyzer, nevertheless a complementary control analysis is necessary to separate and possibly identify the elements of this zone.

In such cases, control would consist of smearing and counting the leucocyte count under a microscope on a few hundred cells at most. An only supputatory and statistical relationship is made between the result obtained and the result of the automatic analysis.

If it is indeed possible to obtain substantially the same result in flow cytometry, once again, the direct relationship with the first analysis obtained routinely does not exist and reduces the interest and accuracy of the whole.

The invention makes it possible to provide additional control and therefore additional information to a first analysis. It consists in highlighting by specific marking one or more sub-population (s) in superposition to normal analysis. To carry out the differentiation in our example, the anti-CD45 antibody is used simultaneously with the routine analysis to positively mark the normal elements. This marker is specifically expressed on leukocyte elements such as lymphocytes, eosinophilic polynuclear cells, monocytes, basophilic polynuclear cells and neutrophils (decreasing order of expression).

In this case, the device used is a mono-reactive device (first version) containing the anti-CD45 antibody, the reagents, possibly washing solutions, a reference and a location for receiving the waste.

In a pre-analytical phase it is possible to control the device thanks to the reference contained in the device, this reference makes it possible to check the quality of the optical measuring devices before the passage of the sample. Given the incubation time of the sample, this calibration can be done in masked time.

This analysis is done as follows: *> Implementation of the device according to the invention in the device •> Reading information contained on the information system (here a chip) stuck on the support *> Recording data concerning the method of analysis and the characteristics of the reagent

*> Collection of 50μl of the whole blood to be analyzed *> Mixing with 50μl of anti-CD45 monoclonal antibody solution conjugated to a fluorescent dye in one of the containers of the device * Cleaning of the sampling needle

* Agitation of the device to allow a better reaction

* Incubation of the solution in the device at room temperature, maintained by the temperature maintenance system around the device

•> Taking the reference in the device *> Calibration of the measuring cell during incubation

*> Cleaning the sampling needle

<* Collection of the blood / antibody solution by the needle of the sampling analyzer. *> Injection of nucleic acid staining reagent for routine leukocyte analysis and identification

*> Transfer of the solution thus obtained to the optical bench for analysis <* Injection of the solution into the circulating optical tank for the measurement of the following parameters

- Volume of impedance elements (RES) allowing cell counting

- Measurement of diffracted light in the axis (FSC) - Measurement of orthogonal scattered light (SSC)

- Measurement of Orthogonal Fluorescence of the Nucleic Acid Dye (FL1)

- Measurement of the orthogonal fluorescence of the dye conjugated to the anti-CD45 antibody (FL2). •> Acquisition and processing of data. Rendered results and imagery.

* Return to the needle of the solution containing the blood sample and the reagents used during the analysis

*> Deposit in the container intended for the recovery and neutralization of the biological and chemical fluids resulting from the analysis

The first four parameters are parameters used routinely and the last parameter (FL2) is reserved for cell identification verification functions as explained above.

Example 2 In this version, the device according to the invention used contains several reagents plus a reference (second version).

It has been shown that expression of the CD64 surface antigen on the neutrophil leukocyte cell population is a biological response characteristic of inflammatory phenomena. In addition, the CD163 surface antigen is highly expressed on the surface of macrophages. It is also characteristic of inflammatory phenomena. The reagents used are 2 monoclonal antibodies (an anti-CD64 and an anti-CD163) which make it possible to highlight the inflammatory characteristics of the leucocyte cell surface antigen expression.

The reference is a suspension of fluorescent beads used for the calibration of the instrument and the standardization of the reactive method

The analysis is done as follows:

*> Setting up the device in the device

•> Reading the information contained on the chip glued on the support of the device *> Recording the data concerning the method of analysis

*> Collection of 50μl of whole blood to be analyzed

<* Mix with 50μl of anti-CD64 and anti-CD163 monoclonal antibody solution, each of which is conjugated to a different fluorescent dye, in a container *> Cleaning of the sampling needle

*> Sampling the calibrated bead solution in the device

»> Agitation of the device to allow a better reaction

<* Incubation of the solution in the device at room temperature maintained by the temperature maintenance system around the device *> Calibration of the measuring cell during incubation

<* Injection of the erythrolytic solution (lysis of red blood cells)

•> Collection of the blood / antibody solution by the sampling needle

*> Transfer of the solution thus obtained to the optical bench for analysis

<* Injecting the solution into the optical flow cell of the optical bench for the measurement of the following parameters:

- Volume of elements by impedance (RESj and counting

Orthogonal fluorescence measurement of dyes conjugated to anti-CD64 and anti-CD163 antibodies (FL1 vs FL2). *> Acquisition and processing of data. Rendered results and imagery.

* Return to the needle of the solution containing the blood sample and the reagents used during the analysis *> Deposit in the container intended for the recovery and neutralization of the biological and chemical fluids resulting from the analysis.

Claims

1 - Packaging device for biological analysis (1), comprising at least one sample to be analyzed (10, 11), at least one reagent, at least one container (14) for recovering the waste resulting from the analysis, and at least one at least one information system (3, 8) containing the information necessary for performing at least one analysis of said sample to be analyzed, characterized in that at least one of the reagents is an agent neutralizing the waste of the analysis. 2 - Device according to claim 1, characterized in that it comprises

at least one location for receiving a reagent,

at least one location intended to receive a biological sample to be analyzed;

at least one location intended to receive the waste resulting from the analysis;

and a support of the information necessary for performing said analysis by an automaton.

3 - Device according to any one of claims 1 or 2, characterized in that the (e) sample (s) biological (s) is a sample of biological fluids, particularly blood, very particularly whole blood.

4 - Device according to any one of claims 1 to 3, characterized in that the neutralizing agent is directly introduced into the location for receiving the waste.

5 - Device according to any one of claims 1 to 4, characterized in that it further comprises at least one location for receiving a reference.

6 - Device according to any one of claims 1 to 5, characterized in that it further comprises at least one location in which the reactions necessary for the analysis are carried out. 7 - Device according to any one of claims 1 to 6, characterized in that the location for receiving the reagent and / or the sample to be analyzed and / or waste from the analysis and / or possibly the location where the reaction takes place, is a cavity that can receive either directly the reagent and / or the sample and / or waste and / or the reaction mixture is a container in which the reagent and / or the sample and / or the waste and / or the reaction mixture.

8 - Device according to any one of claims 1 to 7, characterized in that the information carrier makes it possible to store the information relating to the measurement method and / or the use of the reagents and / or the treatment of the sample to be analyzed and / or information relating to the preservation of the products it contains.

9 - Device according to any one of claims 1 to 8, characterized in that the information contained in the information carrier is information necessary for triggering and / or the duration of agitation and / or incubation necessary for the good progress of the reaction, and / or information on the method of use and / or the characteristics of the reagent (s) contained in the device, and / or information that makes it possible to manage calibration and / or quality control of the different types of analysis and / or to establish the history of the information.

10 - Device according to any one of claims 1 to 9, characterized in that the information medium is an electronic chip, a bar code, a magnetic tag or a combination of at least two of these elements.

11 - Device according to any one of claims 1 to 10, characterized in that it further comprises a system, possibly mechanical, to facilitate the handling and / or agitation and / or thermal regulation of the substances contained in the device. 12 - Device according to any one of claims 1 to 11, characterized in that it is a material having good impact resistance and / or chemical reagents, preferably plastic. 13 - Device according to claim 12, characterized in that it is fluorocarbon resin. 14 - Device according to claim 13, characterized in that the fluorocarbon resin is selected from polytetrafluoroethylene (PTFE), fluorinated ethylene-propylene (FEP), perfluoroalkoxy (PFA), polyfluorovinylidene (PVDF), a modified copolymer of ethylene and tetrafluoroethylene (ETFE) or ethylene / chlorotri-fluoroethylene (ECTFE).

15 - Device according to any one of claims 1 to 14, characterized in that it comprises a series of locations all containing the same reagent for a series of identical tests, a location containing a reference and a location for receiving the waste.

16 - Device according to any one of claims 1 to 14, characterized in that it comprises a series of locations each containing different reagents each allowing a single type of test, a location containing a reference and a location for receiving waste. 17 - Biological analysis method characterized in that it implements a device as described in any one of claims 1 to 16. 18 - Automate biological fluid analysis, characterized in that it puts in implement a device as described in any one of claims 1 to 16.