TR202009267A2 - Eight Compartment Petri Box - Google Patents

Abstract

The present invention relates to an eight-compartment petri dish designed for the cultivation of bacteria, microorganisms and fungi in microbiology, bacteriology and biology laboratories, allowing different tests for bacterial growth under parallel conditions and the examination of various agar, solvent and reagent conditions in a petri dish; The eight-compartment petri dish according to the invention (1) is a vessel with a flat circular bottom and a cylindrical vertical wall, a flat top with a side wall that fits the outside of the vessel and surrounds it, the body of which has a circular bottom and a cylindrical vertical wall. Includes a cover that has. The lid wall extends close to the bottom of the container.

Description

DESCRIPTION EIGHT SECTION PETRI BOX Technical Area: This invention is used to detect the presence or absence of microorganisms, for the identification of micro-organisms in the same sample of multiple samples divided into equal test volumes. eight, which allows for the comparative tests by providing simultaneous vaccination at the same time relates to the compartmented petri dish.

State of the Art: Petri dishes used today are used in microbiology, bacteriology, immunology, tissue culture, oncological, virological as well as food science, pharmaceutical industry and all related laboratory studies It is widely used in the preparation and testing of culture media. Long years Throughout, the most common petri dishes were typically made of glass. glass petri dishes While they can be sterilized and reused, the production and use of glass petri dishes easily cracked or broken during It is not used because the bacteria produced in it can contaminate the environment. has decreased.

In general, in the petri dishes used, growth spectrum measurement, microorganisms while scanning and identifying in experiments such as chemical factors affecting species selection and Many problems occur most of the time because of the operation in the field. when measuring, the process is somewhat involuntary and the growth membranes are usually adjacent to each other, thus deciding which growth factor influences the growth of the species. It is impossible. The resulting inhibition zone or the disruption of the transparent circle, interacts, cannot determine its diameter exactly, as a result, the test must be repeated. Type During the selection, a large number of culture cabinets are needed and the cleaning and sterilization work is very it takes time.

A conventional petri dish can only culture one microorganism at a time because There is no division gap in the inner area of the petri dish. Oftentimes, conventional petri dishes are low. It has a field of use and the surface of the medium is used to culture or isolate microorganisms. They only allow a small area to perform and the other areas are completely useless. in tests and in multiple tests to identify features in the identification of unknown species. may need to be done.

Today, 150 mm is used to obtain cultures for microbiological and bacteriological analysis. manually or by a device on the surface of the medium in petri dishes. Microbial sowing is done automatically by means of media (medium, medium, medium, culture medium, culture medium, culture medium) are media formulated for the growth of microorganisms.

These are the development of microorganisms, isolation, identification, enumeration, susceptibility tests, sterility tests, examination of clinical samples, food, water and environmental controls, biological products obtaining, antibiotic and vitamin analysis, industrial analysis, etc. for different purposes such as can also be used for

Petri dishes are often used to make agar plates in microbiology studies.

The agar dish containing hot liquid is partially composed of nutrients, blood, salt, carbohydrates, indicators, with ingredients containing a mixture of certain substances such as dyes, amino acids and antibiotics is filled. Then the agar is cooled and solidified. In the process now known as plate etching, Example becomes eligible to receive. For virus or phage cultures, a two-stage inoculation is required.

Bacteria are bred to provide the first major viral inoculum. agar in petri dishes, to reduce the risk of airborne particles sinking to the bottom and contaminating cultured microbes. and incubated by turning the head down to prevent water condensation, which spoils the environment. Science They said that traditional hard surfaces are not suitable for growing long natural cells. and the creation of matrix artificial soft environments to elicit such phenotypes. they state that it is necessary. However, cell growth in a soft matrix It is a labor-intensive, expensive and impractical undertaking.

Apart from clinical uses, petri dishes can also be used in a liquid medium or on solid agar. It can also be used for eukaryotic cell culture. Empty Petri dishes plant germination or the products of animal meats, poultry, eggs and their processing microbiological control and study of small animal behavior or examples of such It is used for drying in the oven, for transportation or storage. The first application example of the present invention principle is depicted in FIG. 5 and FIG. 6 The genus Acinetobacter is a bacterium belonging to the Moraxellaceae family. It causes nosocomial outbreaks in different centers and is frequently multi-antibiotic resistance. shows. Automatic bacterial identification in routine microbiology laboratories In addition to the systems, manual antibiogram test is applied.

In the first application example depicted, Colistin forensic antibiotic was used in cases with multidrug resistance. It is the last choice. But it is being tested as an effective agent. Automatically in applications in recent years some questionable results in instrument results colistin sensitivity with manual microdilution He put his work into a routine, but it was a disadvantage because it was expensive. Microdilution reproductive susceptibility/resistance evaluation is performed. Reproduction of 2 micrograms/ml and below Its inhibition shows that the antibiotic named colistin is effective against bacteria. all antibiotics are automatic or manual (mueller-hinton agar etc. boxes) are tested against bacteria.

This invention can be found in a Common environment that can overcome the above mentioned disadvantages. It is an eight-compartment petri dish designed for simultaneous studies with organisms; Each Each cell in antibiogram agar medium poured into petri dishes separately medium containing colistin at the same concentration as in the microdilution method in the chamber (0.125, detection and accuracy of the tests by eliminating other deficiencies. has been proven. Split media or different agar for comparative measurements/conditions It also allows the application of media. Also for use in different environments or It has been found to be ideal when saving in incubator space is required.

Transfer of microorganisms in the United States patent document US4042463A, A multiple grafting system is mentioned for its cultivation, maintenance and identification. This The invention described in the document is a multi-needle grafting plate to hold the inoculum and attach it to the needles. a separate plate containing multiple wells corresponding to the needles and the middle of the medium for transfer from a petri dish with several interconnected compartments in the There are no independent divisions in this invention.

Modified for automatic grafting in United States patent document US3902972A It is mentioned in a petri dish. The invention mentioned in this document is gram positive and gram isolation of organisms from clinical specimens by separating mixtures of negative bacteria. compartments to compare colony growth characteristics of facilitating and pure cultures. has. There are no independent divisions in this invention.

In the state of the art, it is common for tests to be performed in separate petri dishes. End Two-compartment, three-compartment and four-compartment petri dishes are stackable and slippery at times. It is seen that similar ones are used as does not exist.

As a result, all the above-mentioned problems compel an innovation in the relevant technical field. does not make it. The present invention fulfills this need and desire in the art and creates a new cell. culture system.

Brief Description of the Invention: The present invention satisfies the above-mentioned requirements, avoiding all the disadvantages. It is related to the eight-compartment petri dish, which lifts and brings some additional advantages.

The aim of this invention is to study organism and culture in microbiology, bacteriology and biology experiments. multiple samples by allowing air flow between the interior partition walls to grow advanced simultaneous vaccination and comparative testing is the realization of a disposable eight-compartment petri dish (1).

An additional aim of the present invention is to create conditions conducive to anaerobic growth. In order to treat the atmosphere in the box with a chemical reaction, it is necessary to prepare the media separately. is to provide an anaerobic culturing device with several separate sub-chambers into which it is poured.

Another purpose of this invention is to enumerate the physical conditions necessary for the growth of bacteria, microbial cultivation processes in a standard way with a simpler and more economical system. by providing uniform cell growth thanks to its unique circular flat base structure, Make sure that the depth of the medium is equal in all areas of the petri dish, respectively. is realization.

Another object of this invention is to provide a sterile solution in petri dishes that are sterilized in microbial cultivation processes. Since cross-contamination may become a problem in the next experiment, eight non-sterile Thanks to the divided petri dishes, it is necessary to use many separate petri dishes. Since there is no cross contamination, the risk of cross contamination has been eliminated.

Another purpose of this invention is to separate different media and solvent materials in the same petri dish. by placing them in chambers, allowing them to be treated separately with different reagents. describing the reproduction rates and periods of microorganisms, different types of cells culturing and working in defined areas.

Another object of the present invention is to ensure that the inner partition walls of a cell type grown on the medium are circular, which does not allow it to interact and contaminate cells in other compartments. positioning the sole in the center, reducing condensation during the incubation phase and separating in a structure that has a ventilation channel that provides air circulation between the realization of ventilation.

Another purpose of this invention is to monitor cell interactions, to monitor the interacting cells. it is easy to perform various analyzes because cellular interactions only occur in defined areas, that is, in the empty areas of the petri dish, in the areas provided by the inner partition walls is realization.

Another object of this invention is microbiology, bacteriology and similar cell culture. Made of extremely transparent, colorless and colored polystyrene for use in its work. they are produced. The cover is fully compatible with the body and ensures continuous and effective operation. Ideal body structure is suitable for working in full harmony with automatic filling machines.

Yet another object of the invention is that if the platters are stored at room temperature for a long time before the discs are inserted. If left untreated, the organism may begin to reproduce, which may result in incorrect inhibition zone measurements. results in a decrease. Discs should be harvested within 15 minutes of sowing on the agarine surface. should be placed. Extremely fast and highly efficient removal of the medium for anaerobic culturing. Preparation for the jug thanks to the eight-compartment petri dish that allows it to be prepared shortening the duration of ?reducing petri dish consumption and reducing test costs is realization.

Another object of the invention is to work from single colonies to dense colonies on agar on the surface of the medium. It is to provide the required maximum colony isolation by planting at different stages.

Another and more specific object of the invention is; agarli poured into an eight-compartment petri dish The media can be used in one of the smear, spread and pour plate methods or in separate compartments. sowing and incubation using each is realization.

Another and more specific object of the invention is; Petri dishes are often used to make agar plates. used. Agar plate is agar medium containing partially hot liquid, blood, salts, carbohydrates, with a mixture of ingredients that may include dyes, indicators, amino acids or antibiotics Although rare, some bacteria are in acid environments, and some in basic environments. they breed better. Thanks to the chemical-resistant structure of the eight-compartment petri dish, various realization of feasibility in tests.

The structural and characteristic features of the invention and all its advantages are given in the following figures and More clearly thanks to the detailed explanation with references to the figures. will be understood and therefore the assessment should also take into account these figures and detailed explanation. must be made by taking

Explanation of Figures: In order to achieve the aim of the invention, the eight-compartment Petri dish is in the attached figures. has been shown, from these figures; FIGURE This is the general view of the Eight Compartment Petri dish.

FIGURE-Z is the cross-sectional front view of the Eight Compartment Petri dish.

SEKILIB Eight Compartment Petri dish is a marked view with an inner partition wall.

SEKILI4 Eight-Compartment Petri dish is the line cultivation method view.

FIGURE-S Eight Compartment Petri dish, drop plate sowing method view.

SEKILIO Eight Compartment Petri dish is the stacking view.

Explanation of References in Figures: Figures to assist in understanding this invention are as indicated in the attached picture. are numbered and the equivalents of these numbers are given below along with their names. 1. Eight-Compartment Petri dish 2. Top Cover 3. Bottom Plate 4. Circular Bottom Base . Outer wall 6. Interior Partition Wall 7. Stacking Slot 8. Stacking Ring 9. MH Agar Medium . Number of Relief Sections 12. Petri Box Center 13. Ring Loop Tool 14. Line October . Antibiotic Disc 16. Zone of Inhibition 17. Effective Antibiotic In this detailed description, the subject of the invention is the eight-compartment petri dish (1) and the preferred structuring is only for a better understanding of the subject and has no limiting effect. described in a way that does not constitute. In Figs1:1,2,3,4,5 and 6, the subject of the invention has eight compartments. The views of the petri dish (1) are given.

The subject of the invention is the eight-compartment petri dish (1); Eight as shown in SEKlel compartment petri dish (l) standard size, same as two, but different in size portions It consists of an outer wall (5) hanging down from its periphery. Bottom shown in FIG. Inner Partition Wall (6) adjacent to the circular bottom base (4) of the Plate (3) and separated from each other. equidistant from each other, thus forming eight different culture media, each Relief, which makes it easier to define which division is the division in the dimensions. Number of Partitions (10) with numeric signs, and the ruler located on the Outer Wall (5) of the bottom plate (3) It contains the Liquid Culture Level Chart (1 1) in the form.

The subject of the invention is the cross-sectional view of the eight-compartment petri dish (1) in FIG.22. Top to show the tightness between the cover (2) and the bottom plate (3).

The subject of the invention is in the Subplate (3) of the Eight Compartment Petri dish (1), shown in FIG. The Inner Partition Wall (6) may be of various shapes, sizes and numbers without departing from the invention; and also, each of them converging in the Petri-Box Center (12), separated from each other by the Inner Partition Wall (6). which section of the sections that are separated so that each of them creates a different culture medium Equal to each other within the Circular subbase (4), which makes it easier to identify Relief Section Number (10) in intermittent sizes, again with numeric signs, Substrate (3) liquid The microorganism on which the culture is poured contains growth medium and each individual in the Substrate (3) agar containing hot liquid, food, blood, salts, carbohydrates, The dyes are filled with a mixture of certain ingredients containing amino acids or antibiotics. Lower The sign on the outer wall (5) of the Plate (3) is characterized in the form of a ruler, and the liquid culture It allows it to function as a Level Chart (1 1).

According to the usage area of the Eight Compartment Petri dish (1), which is the subject of the invention, as shown in FIG. MH in the partitions separated from each other by the Line Sowing (14) Method and the Inner Partition Wall (6). Ring Loop Tool (13), which was contacted with the sample on different parts of the Agar Medium (9), respectively. is driven. The amount of sample and the number of microorganisms it contains are different in each region. Due to this reason, it is ensured that the reproduction amounts are also different. With each Interior Partition Wall (6) It is provided to analyze the samples in the compartments that are isolated from each other.

According to another usage area of the Eight Compartment Petri dish (l), the subject of the invention is shown in FIG. with the drop plate sowing method shown, into the partitions separated by the Inner Partition Wall (6). Antibiotic Disc sown in different quantities on top of spilled MH Agar Medium (9) Effective Antibiotic discs of (15) on MH Agar Medium (9) and ineffective Antibiotic According to the Inhibition Zone (16) measurements formed by observing the disk (15), the sample amount and the number of microorganisms it contains is different in each compartment. The subject of the invention is the Eight Compartment Petri dish (1), one above the other and one below the other, as seen in FIG. It has upper and lower stacking rings to enable it to be stacked and balanced.

To save space in incubators and storage during general laboratory use It has been specially designed for the purpose and to make its use more practical. Eight Developed for stackable and automatic filling systems of compartment Petri dish (1) Also available in a slippery Petri dish. Particularly slippery Eight Compartment Petri dish (1), Automatic It is designed for filling and line systems. thanks to the symmetrical parallel stacking ring (8) and the Stacking slot (7)”1. Safe and stable stacking of the Eight Compartment Petri dish (1) is ensured.

Industrial Application of the Invention: Eight-compartment petri dish serving the above-mentioned purposes, domestic market and foreign frequent and regular use in the market, microbiology laboratories No need to replace existing two-compartment, three-compartment and four-compartment petri dishes. higher specification, as well as ease of use for users and testing It can be produced in any branch of the industry due to the fact that it reduces the costs considerably and It is usable and industrially applicable.

References Specified in the Description This list of references cited by the applicant is for the reader's convenience only. is for. It does not form part of the European patent document. Whilst great care has been taken, errors and omissions may occur and the EPO is therefore assumes no responsibility.

Claims (1)

REQUIREMENTS It is an eight-compartment petri dish (l) containing the following for culturing microorganisms, and its feature is; A bottom plate (3) having a circular base (4) and a first outer wall (5) extending upward from there, a top cover (2) and a top having a second outer wall (5) extending downwardly therefrom. cover (2), wherein said cover is adapted to cover said bottom plate (3). The product described in claim 1 is an eight-compartment petri dish (l), and its feature is; It is produced from transparent plastic material containing medical grade polyethylene, polystyrene, polypropylene, polytetrailuroethylene and/or combinations of these. The product described in claim 1 is an eight-compartment petri dish (1) and its feature is; It consists of two parts, the Top Cover (2) and the Bottom Plate (3), characterized as being combined or separate. The product described in claim 1 is an eight-compartment petri dish (1); Bottom Plate1(3) and top cover (4)_ have a circular area, characterized by a cylindrical configuration. The product described in claim 1 is an eight-compartment petri dish (1); wherein said substrate (3) comprises microorganism growth medium. The product described in claim 1 is a petri dish (1) with eight compartments, and the inner partition wall (6) on the circular base (4) of the bottom plate (3) is placed flat and radially relative to the circular base, and the center of the petri dish is It contains eight inner partition walls (6), each of which contains a culture medium, characterized by its intersection at (9). It is a petri dish with eight compartments according to claim 1, and the inner partition wall (6) is characterized as adjacent to the circular lower base (4) and has water tightness. The product described in claim 1 is an eight-compartment petri dish (1); The number of relief partitions, which are located on the circular base (4) of the bottom plate (3)”1 and define the chambers, each of which creates a different culture environment, is characterized by numerical signs and shows which partition it is. The product described in claim 1 is an eight-compartment petri dish (1); The mark on the bottom plate 10 (3) of the outer wall (5) is characterized in the form of a ruler, functioning as a liquid culture level ruler for serial dilutions at the bottoms. The product described in claim 1 is an eight-compartment petri dish (1); The shape is characterized as 1 by being cylindrical, oval, rectangular, hexagonal, octagonal, square, triangular, or any other shape. The product described in claim 1 is an eight-compartment petri dish (1); wherein it is produced from a thermoplastic, characterized by an injection molding process. The product described in claim 1 is an eight-compartment petri dish (1); It has been divided into eight marked (l,ll,lll,lV,V, V1, VII and VIII ) compartments for reciprocal growth effect studies and easy identification. The product described in claim 1 is an eight-compartment petri dish (1); The stackable model has been developed for general laboratory use, and the slippery model has been developed for automatic filling systems. The product described in claim 1 is an eight-compartment petri dish (1); The low profile inner partition wall (6) provides useful boundaries that protect and strengthen the substrate (3) from bending, reduce the fragility of the media, and are characterized by performing an indicator function for fast and practical manual counting of colonies. The product described in claim 1 is an eight-compartment petri dish (1); here, when stacked on top of each other, the stacking ring (8) located on the top cover (2) of the eight-compartment petri dish (1) fits into the stacking slot (7) located under the bottom plate (3). The product described in claim 1 is an eight-compartment petri dish (1); wherein said substrate (3) comprises microorganism growth medium.