EP0625189A1 - Device for biochemical characterization and/or bacterial culture and/or antibiogrammes and/or concurrent chemical tests in different environments - Google Patents

Abstract

The subject of the present invention is a device for the biochemical characterization, and/or culturing of bacteria, and/or antibiograms, and/or simultaneous chemical tests under different atmospheres. It is constituted by the combination of a base (1) and a lid preferably made of plastic material molded by injection or thermoformed, the base comprising, on the one hand, indentations capable of forming wells (3, 4 ) for chemical or biochemical tests, housings (10) for atmosphere control products (8) and possibly locations for biological culture, and on the other hand, grooves or ribs (12) and studs (13) or shims delimiting zones isolated from each other, the lid cooperating with the base, thanks to complementary grooves or ribs to make some of these zones sealed between themselves and/or with respect to the outside atmosphere. It concerns laboratory equipment for bacteriological and/or chemical analyses.

Description

 DEVICE FOR BIOCHEMICAL CHARACTERIZATION, AND / OR CULTURE OF BACTERIA, AND / OR ANTIBIOGRAMS, AND / OR SIMULTANEOUS CHEMICAL TESTS UNDER DIFFERENT ATMOSPHERES

The present invention for ^"object biochemical characterization device, and / or culturing of bacteria, and / or susceptibility, and / or simultaneous chemical tests under various atmospheres.

It concerns laboratory equipment for bacteriological and / or chemical analyzes.

During biological research, the initial sample to be studied is placed on one or, more often, several different culture media adapted to the type of research carried out and, if the germs analyzed require it, under different atmospheres, namely aerobic, anaerobic, enriched in C02, micro-aerophilic, etc., and sometimes without humidity.

In the case where the culture is positive, even on a selective medium, it is usually necessary to carry out additional biochemical tests in order to specifically identify the germs highlighted by the culture, most of the germs having specific biochemical characters making it possible to identify them, the study of some of these characteristics can very well be carried out from the start, at the same time as the cultivation. These tests are also frequently supplemented by an antibiogram.

For example, from urine 1. We can search for all germs with a nitrite + or - character, or other biochemical characters, while proceeding to culture on a broad spectrum and / or selective medium, all under atmosphere. aerobic. The result will be facilitated by determining at least one specific biochemical character in addition to the general characters determined using the pre-identification culture medium (lactose, suchrose, for example) making it possible to give the count, that is to say the quantity of germs per unit, and thus to know the infection rate ^* in the case of medical bacteriology, or the contamination rate in the case of industrial bacteriology.

Another example, research of urogenital Mycoplasmas in biomedical analysis: test of biochemical characters in an atmosphere enriched in C02. Detection using arginine, urea, glucose, will confirm the presence of urogenital Mycoplasmas, as well as the type of Mycoplasma, urea + or arginine + corresponding to Ureaplasma urealiticum or Mycoplasma hominis, etc. The immediate interest of this test is the screening with identification of the ^" germ, but for the counting the technician will have to inoculate agar (type A7 for mycoplasmas) under an anaerobic atmosphere. In the same way, for the study of chemicals it is often necessary to carry out tests with several reagents in ^'different atmospheres.

Experience also shows that it is sometimes necessary to provide a location for an oxygen generator, an atmosphere coding generator and / or a moisture-absorbing product (desiccant), the latter possibly being able, during storage. and the transport of the product, be placed in the housings provided for the oxygen generators. Tests of chemical or biochemical characters generally only require small containers commonly called "reaction wells" or "spots" generally having a low reagent capacity, conversely, organic cultures require a certain surface in order to distribute well the sample biological with a view to isolation (media allowing pre-identification) and / or counting, often using calibrated plates for inoculating the sample. Currently, to carry out an organic culture and biochemical tests, it is necessary to have recourse to at least one box of. ^{1 -} culture, for example Petri dish, and one or more test tubes or the like, these equipments and their respective accessories having to be multiplied in the event of research under different atmospheres. These constraints require, for the same sample, the manipulation of a series of elements, which, in addition to a high price and a significant loss of time, involves risks of diagnostic errors. Many patents describe culture dishes which can be used under an aerobic or anaerobic atmosphere (for example the patents Nos FR 1 572 527, EP 119 984, EP 171 174.pu US 3 183 553), others claim several dishes. compartments which may include different culture media (Nos FR 2 157 050, EP 045 041, GB 1 026 253, US 4 072 577, etc.), others still propose supports ^" provided with several test tubes, or zones, with reagents for chemical or biochemical tests (Nos FR 2 384 023, WO 89/02 927 ....). Patent No. FR88 05 191, filed by the applicant, describes a culture dish with several compartments making it possible to perform analyzes at the same time under aerobic and anaerobic atmospheres or controlled atmosphere. However, to our knowledge, there is no unique material allowing simultaneous biological cultures, biochemical or chemical tests and / or antibiograms, and this under several different atmospheres. The invention consists of a single device, simple and inexpensive, making it possible either to carry out biochemical tests under one or more atmospheres and, simultaneously, one or more biological cultures, also under one or more atmospheres, the atmospheres being both tests biochemical ^' that growth / isolation / identification media may be different, or to simultaneously perform several chemical tests under different atmospheres.

It consists of the combination of a base and a cover preferably made of injection-molded or thermoformed plastic, the base comprising, on the one hand, hollow imprints capable of forming wells for chemical or biochemical tests, Flats for atmosphere control products and optionally Worldwide Locations for ^{'cultivation "biological,} and secondly, grooves or ribs and blocks or spacers delimiting isolated areas therebetween, the cover cooperating with the base, thanks to complementary grooves or ribs to make some of these zones sealed from one another and / or from the outside atmosphere.

In the accompanying drawings, given by way of nonlimiting example of one of the embodiments of the object of the invention: FIG. 1 represents the device without cover, seen from above, and FIGS. 2 and 3 are vertical cross sections, respectively according to arrows AA and BB of Figure 1, showing the base and the cover not assembled. The device, Figures 1 to 3, consists of a flat rectangular housing composed of a base 1 and a cover 2 each formed in one piece and can be made of various materials such as glass or metal. However, being mainly intended for "single use", the device will preferably be made of injection-molded or thermoformed plastic.

The base 1 comprises hollow shapes with concavity directed upwards constituting wells 3, 4 for chemical or biochemical tests, locations or receptacles 5, 6 for biological culture or antibiograms as well as, where appropriate, housings 10 intended for receive desiccant products 8 or atmosphere controllers 9. The wells 3, 4 or spots for reading chemical or biochemical tests and / or the locations 5,6 for organic culture can be provided with bottoms comprising a finish, optically transparent, necessary for reading by nephelometry, spectrometry or other optical systems, the corresponding part of the cover will in this case receive the same finish. The locations for organic culture can be either the equivalent of a culture dish, or receptacles 6 that can receive culture dishes of the Petri dish type. In this case, recesses 7 allowing the passage of the fingers may advantageously be provided at the periphery of the receptacle to facilitate gripping of the box. Housing 10 will be present to receive the atmosphere controllers 9 such as oxygen generators, or desiccants 8 or moisture absorber.

Ribs 12 and studs 13 or ventilation wedges respectively delimit aerobic 15 and anaerobic 14 (or controlled atmosphere) zones. Some wells 4 may include a specific and unitary seal located at the single well by a male profile 11 formed in the cover 2 and coming to fit on the periphery of the upper edge of the well. This arrangement creates an anaerobiosis, if the male profile is flush with the volume of the reagent (including inoculum) contained in the well, which eliminates the use of paraffin oil or other similar product, usually deposited on the reagent to obtain anaerobiosis, this in particular in the case where said well is located in a compartment where the reaction carried out produces a gaseous evolution harmful to other reactions or cultures.

The cover 2 has grooves 16 which fit tightly on the ribs 12 of the base 1 surrounding the anaerobic zones 14 or with controlled atmosphere, as well as pads 17 serving as support for the studs 13 or ventilation wedges allowing the air circulating freely in the aerobic zones 15. It is obvious that the grooves can be carried by the cover and the ribs by the base without modifying the operation of the system. Likewise, the ventilation studs 13 can either be located on the cover or on the base. The assembly is preferably made of injection molded plastic, for example polystyrene, or of thermoformed plastic, preferably of polyethylene or co-polyester, the only material known to date sterilizable by ionizing gamma rays without altering the transparency quality of these films, or PVC or other material sterilizable by chemical decontamination, in the case where an optically transparent box turns out to be necessary (example: counting of mycoplasmas on agar type A7, this is done using a microscope, the box overturned, that is to say that one reads the agar by transparency through the bottom of the box plated with the objective of the microscope), because the thermoformed materials are not always optically transparent; the same can be said for the spots for reading chemical or biochemical characters, so that these can be read on an optical, nephelemic, spectrometric or other system.

The base 1 and / or the cover 2 can advantageously be fitted with lugs 18 in relief enabling the housing to be held on the plate holder of a microscope using the system provided for fixing said blades.

The device described can be produced in a multitude of different versions, specifically adapted to a well-defined type of analysis or, on the contrary, allowing different searches to be carried out with a single model, so as to facilitate storage and reduce the cost price. It can be applied to biochemical analyzes as well as chemical analyzes of all kinds.

The positioning of the various constituent elements gives the object of the invention a maximum of useful effects which had not, to date, been obtained by similar devices.

Claims

1 °. Device for culture, antibiograms, biochemical characterization of simultaneous bacteria under different atmospheres, intended for the manufacture of laboratory equipment for bacteriological analyzes, characterized by the combination of a housing composed of a base (1) and a cover {'2) each formed, in one piece, the base comprising, on the one hand, hollow imprints with concavity directed upwards capable of forming wells (3, 4) for biochemical tests, locations (5 , 6) for organic culture or antibiograms and, optionally housings (10) for atmosphere control products (8, 9) and, on the other hand grooves or ribs (12) and studs (13) or wedges delimiting isolated anaerobic or controlled atmosphere (14) and aerobic (15) areas respectively, the cover cooperating with the base, by means of complementary grooves or ribs (Vf) to make the different areas anaerobic or atmospheric controlled sphere (14) leaktight to each other and / or to the outside atmosphere, the base (1) or the cover (2) being fitted with raised lugs (18) enabling the housing to be held on the door plate -blades of a microscope using the system provided for fixing said blades.

2 °. Device according to claim 1, characterized in that it is made of injection molded plastic, for example polystyrene, or of thermoformed plastic, preferably of polyethylene or co-polyester, or else of PVC or other material _ sterilizable by chemical decontamination. 3 °. Device according to claim 2, characterized in that the plastic material used is transparent.

4 °. Device according to claims 2 and

3, characterized by the fact that ^" the bottom of the wells (3, 4) for reading biochemical tests and / or the locations (5, 6) for organic culture, as well as the corresponding area of the cover (2), have a optically transparent finish allowing reading by nephelometry, spectrometry or other optical systems.

5 °. Device according to any one of the preceding claims, characterized in that certain wells (4) for biochemical tests include a specific and unitary seal located at the single well by means of a male profile (11) formed in the cover (2) and coming to fit on the periphery of the upper edge of the well (4).

6 °. Device according to claim 5, characterized in that the male profile (11) comes flush with the volume of the reagent (including inoculum) contained in the well (4), so as to create an anaerobiosis without the use of paraffin oil or the like similar product, usually deposited on the reagent to obtain an anaerobiosis.

7 °. Device according to any one of the preceding claims, characterized in that certain locations for organic culture are receptacles (6) capable of receiving culture dishes of the Petri dish type, recesses (7) allowing passage fingers being provided at the periphery of the receptacle to facilitate gripping of said box.

8 °. Device for simultaneous chemical tests under different atmospheres, intended for the manufacture of laboratory equipment, characterized by the combination of a housing composed of a base (1) and a cover (2) each formed in one piece in molded or thermoformed transparent plastic, the base comprising, on the one hand ^'of indentations with concavity directed upwards capable of forming wells (3, 4) for chemical testing, the housing (10) for control products of atmosphere (8, 9) and, on the other hand of the grooves or ribs (12) and of the studs (13) or wedges delimiting isolated zones respectively anaerobic or with controlled atmosphere (14) and aerobic (15), the cover cooperating with the base, by means of complementary grooves or ribs (17) to make the different anaerobic or controlled atmosphere zones (14) waterproof to each other and / or with respect to the external atmosphere, the base (l) _. or the cover (2) being fitted with lugs (18) enabling the housing to be held on the microscope slide stage using the system provided for fixing said blades.

9 °. Device according to claim 8, characterized in that certain wells (4) for chemical tests include a specific and unitary seal located at the single well. Thanks to a male profile (11) formed in the cover (2) and coming from fit on the periphery of the upper edge of the well (4).

10 °. Device according to claim 9, characterized in that the male profile (11) is flush with the volume of the reagent (including inoculum) contained the well (4), so as to create an anaerobiosis without the use of paraffin oil or other similar product, usually deposited on the reagent to obtain the same result.