JP2017108703A - Microorganism culture apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a microorganism culture apparatus that can shorten time for medicine determination by a user, and can increase accuracy of medicine determination by displaying medicine information corresponding to a result of microorganism culture.SOLUTION: A microorganism culture apparatus 1 comprises: a rectangular base material sheet 2; a circular culture part 3 provided on the base material sheet 2; a cover sheet 4 covering the culture part 3; and an information display part 5 which is provided on the base material sheet 2 in an adjacent manner to the culture part 3. The culture part 3 has a ring-shaped frame body 3A and a circular culture medium 3B surrounded by the frame body 3A. The information display part 5 comprises: a culture result display part 5A which displays a result of culture of microorganisms cultured in the culture part 3; and a medicine information display part 5B which displays medicine information corresponding to the culture result.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a microorganism culture apparatus for culturing microorganisms.

  Conventionally, as a technique in such a field, for example, there are those described in the following patent documents. Patent Document 1 discloses a multifaceted microorganism culture sheet comprising a single substrate sheet, a plurality of frames provided on the substrate sheet, and a medium surrounded by each frame. Yes. In this microorganism culture sheet, since a plurality of culture media are provided on a single base sheet, it is possible to put the sheet as a whole into the scanner. Thereby, colonies formed in each medium can be measured easily and quickly.

Japanese Patent Laying-Open No. 2015-146736

  Recently, it is required not only to cultivate microorganisms in the field of microbial culture, but also to quickly and accurately judge the corresponding drug based on the culture results of the cultured microorganisms. For example, when an infection occurs in a hospital, a user (for example, a doctor) collects a sample, cultures it, identifies the causative bacteria based on the result of the culture, and installs an antibiotic that can deal with it. There is a need to quickly and accurately determine and administer to patients.

  However, the microorganism culture sheet described above can easily and quickly measure the causative bacteria to be cultured. However, since no drug information corresponding to the causative bacteria is shown, it is necessary to re-determine which drug should be used in the field. There must be. For this reason, a quick treatment cannot be performed, and accuracy may be lost due to human error.

  The present invention has been made in view of the above points, and by displaying drug information corresponding to the culture results of microorganisms, the time for drug determination by the user is shortened and the accuracy of drug determination is improved. An object of the present invention is to provide a microorganism culturing apparatus capable of

  The microorganism culturing apparatus of the present invention that solves the above problems includes a culture unit that cultures microorganisms, a culture result display unit that displays culture results of microorganisms cultured in the culture unit, and a microorganism that is cultured in the culture unit. And a drug information display unit for displaying drug information corresponding to the culture result.

  In the microorganism culture apparatus according to the present invention, it is preferable that at least one of the type and quantity of microorganisms is displayed on the culture result display unit.

  In the microorganism culture apparatus according to the present invention, it is preferable that at least one of the number, color, and shape of microorganisms is displayed on the culture result display unit.

  In the microorganism culture apparatus according to the present invention, it is preferable that there are a plurality of culture units, and the plurality of culture units are provided independently of each other.

  In the microorganism culture apparatus according to the present invention, it is preferable that there are a plurality of culture units, and the plurality of culture units are connected.

  In the microorganism culture apparatus according to the present invention, it is preferable that there are a plurality of culture units, and the plurality of culture units include an aerobic culture unit and an anaerobic culture unit.

  In the microorganism culture apparatus according to the present invention, it is preferable that the plurality of culture units have different medium compositions.

  In the microorganism culture apparatus according to the present invention, it is preferable that the microorganism culture apparatus further includes a contact determination member that determines whether or not the culture unit is in contact with the sample liquid.

  In the microorganism culturing apparatus according to the present invention, it is preferable to further include a medium information display unit that displays medium information of the culture unit.

  In the microorganism culture apparatus according to the present invention, the culture result display unit and the drug information display unit are plural, and at least one of the plurality of culture result display units and the drug information display unit is cultured more than the other. It is preferable that the results and drug information are displayed redundantly.

  According to the present invention, by displaying the drug information corresponding to the culture result of microorganisms, it is possible to shorten the time for drug determination by the user and improve the accuracy of drug determination.

It is a perspective view which shows the microorganism culture apparatus which concerns on 1st Embodiment. It is a top view which shows the microorganisms culture apparatus of the state which removed the cover sheet. It is an example which shows a culture result by the quantity of microorganisms. It is an example which shows a culture result in the shape of microorganisms. It is a disassembled perspective view which shows the microorganism culture apparatus which concerns on 2nd Embodiment. It is a perspective view which shows the microorganism culture apparatus which concerns on 3rd Embodiment. It is a perspective view which shows the microorganism culture apparatus which concerns on 4th Embodiment. It is a perspective view which shows the microorganism culture apparatus which concerns on 5th Embodiment. It is a disassembled perspective view which shows the microorganism culture apparatus which concerns on 6th Embodiment. (A) It is a top view which shows the microorganism culture apparatus which concerns on 7th Embodiment, Comprising: The state which removed the cover sheet is shown, (b) It is a top view which shows the microorganism culture apparatus which concerns on 7th Embodiment. The state where the cover sheet is removed is shown. It is a top view which shows the microorganism culture apparatus which concerns on 8th Embodiment, Comprising: The state which removed the cover sheet is shown. (A) It is a top view which shows the microorganism culture apparatus which concerns on 9th Embodiment, Comprising: The state which removed the cover sheet is shown, (b) It is a top view which shows a microorganism culture apparatus provided with a culture medium information display part. The state where the cover sheet is removed is shown. It is a top view which shows the microorganism culture apparatus which concerns on 10th Embodiment, Comprising: The state which removed the cover sheet is shown. (A) It is a top view which shows the modification of a contact determination member, (b) It is a top view which shows the modification of a contact determination member. It is a disassembled perspective view which shows the microorganisms culture apparatus concerning 11th Embodiment. It is a top view which shows the microorganisms culture apparatus concerning 11th Embodiment. It is sectional drawing which shows the microorganisms culture apparatus concerning 11th Embodiment. It is a top view which shows the microorganism culture apparatus which concerns on 12th Embodiment, Comprising: The state which removed the cover sheet is shown. It is a perspective view which shows the microorganism culture apparatus which concerns on 13th Embodiment. It is a perspective view which shows the microorganism culture apparatus which concerns on 14th Embodiment.

  Hereinafter, an embodiment of a microorganism culturing apparatus according to the present invention will be described with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

<First Embodiment>
FIG. 1 is a perspective view showing the microorganism culture apparatus according to the first embodiment, and FIG. 2 is a plan view showing the microorganism culture apparatus with the cover sheet removed. The microorganism culturing apparatus 1 of the present embodiment is formed in a sheet shape, a rectangular base material sheet 2, a circular culture part 3 provided on the base material sheet 2, a cover sheet 4 covering the culture part 3, An information display unit 5 that is provided adjacent to the culture unit 3 on the substrate sheet 2 and displays each information is provided.

  The base sheet 2 is formed of a material having a certain strength (hardness) and having water resistance and heat resistance. Examples of the material include polyester, polyethylene, polypropylene, polystyrene, polycarbonate, and polyvinyl chloride. The base sheet 2 may be a single layer or may be a laminate of a plurality of sheets.

  The culture unit 3 includes an annular frame 3A and a circular culture medium 3B surrounded by the frame 3A. The frame 3A is formed of, for example, a hydrophobic resin such as a UV curable resin, a hot melt resin, a thermally foamed ink, or a UV foaming agent. The medium 3B is composed of a dry medium layer containing, for example, a gelling agent, a nutrient, a water absorbing agent, a coloring indicator, and the like.

  The cover sheet 4 is formed in a substantially square shape, and one end 4a of the four ends is connected to the base sheet 2 with an adhesive or the like, and the remaining three are connected to the base sheet 2. It is a free end. Therefore, the cover sheet 4 can be opened and closed with respect to the base sheet 2. The cover sheet 4 plays a role of preventing contamination to the culture unit 3, and when the sample solution is dropped on the culture unit 3, the effect of diffusing the sample solution throughout the culture unit 3 and evaporation of the sample solution The effect which prevents is also show | played.

  The cover sheet 4 is formed of a waterproof material. Examples of the material include plastic films such as polyethylene, polypropylene, polyester, polyamide, polystyrene, polycarbonate, and polyvinyl chloride. Moreover, it is preferable that the cover sheet 4 is transparent. If it does in this way, when cultivating microorganisms in the culture part 3, a colony can be observed or counted, without opening the cover sheet 4. FIG.

  The information display unit 5 has a structure provided for displaying information such as culture information including culture results and culture conditions of microorganisms, drug information for dealing with microorganisms, and culture medium information. For example, characters, figures, photographs and the like are printed on paper or a sticker, and the information display unit 5 is attached to the base sheet 2 via an adhesive. Moreover, the information display part 5 may be formed by printing a character, a figure, a photograph, etc. on the base material sheet 2 directly. In this embodiment, the information display unit 5 includes a culture result display unit 5A that displays a culture result of microorganisms cultured in the culture unit 3, and a drug information display unit 5B that displays drug information corresponding to the culture result. I have. The culture result display portion 5A and the drug information display portion 5B are integrally formed. The culture result display unit 5A and the drug information display unit 5B may be formed separately.

  The culture result here means not only the presence / absence of growth of the microorganism to be cultured but also the type or / and quantity of the microorganism when there is growth. About the kind of microorganism, it displays with the color, shape, etc. of a microorganism, for example. In addition, information on the color, shape, quantity, and the like of microorganisms and drug information can be represented by sample drawings, photographs, characters, or a combination thereof.

  In the present embodiment, the culture result displayed on the culture result display portion 5A is shown in color (color sample diagram), but since the drawing is black and white, the color is shown in characters. As shown in FIGS. 1 and 2, the culture result display unit 5A displays sample diagrams of “blue”, “red”, and “no change” in order from the top. That is, in this embodiment, the kind of microorganisms (causing bacteria) cultured by color change is specified by devising the medium.

  For example, when E. coli and coliforms are inspected and distinguished by color, a medium having a chromogenic enzyme substrate (X-Gluc, Magenta-Gal) can be used. Escherichia coli produces β-glucuronidase, and β-glucuronidase reacts with X-Gluc (5-Bromo-4-chloro-3-indolyl-β-D-glucuronide) to give colonies a blue color. On the other hand, Escherichia coli group produces β-galactosidase, and β-galactosidase reacts with Magenta-Gal (6-Bromo-5-chloro-3-indolyl-β-D-galactoside), and the colony develops a red color.

  In addition, the colony color may be determined by a single color, or may be distinguished depending on whether there are two colors in one colony. For example, as a medium for detecting Staphylococcus aureus, an example in which X-phosphate (5-Bromo-4-chloro-3-indolyl phosphate), which is a chromogenic enzyme substrate, and potassium tellurite can be given. The detected Staphylococcus aureus forms a blue colony with a black center due to high phosphatase activity and reduction of potassium tellurite. Since the colony detected as a color of only blue or only black is determined to be other than Staphylococcus aureus, as a result, it is possible to distinguish Staphylococcus aureus from other bacterial species.

  The information displayed on the medicine information display unit 5B corresponds to the culture result displayed on the culture result display unit 5A. Specifically, for example, the drug “A” in the case of “blue”, the drug “B” in the case of “red”, and the drug “none” in the case of “no change” (that is, no medication is required). Information about is shown. Therefore, for example, when E. coli is detected, the drug “A” is administered according to the information displayed on the information display unit 5. On the other hand, when the coliform group is detected, the drug “B” is administered to cope with it.

  FIG. 3 is an example showing the culture result by the number of microorganisms. The number of colonies cultured in the culture unit 3 is displayed on the culture result display unit 5A, and drug information corresponding to the number of colonies is displayed on the drug information display unit 5B. Specifically, the drug “A” when the number of colonies is αcfu / ml or more, the drug “B” when the number is α to βcfu / ml, and the drug “B” when the number is βcfu / ml or less or non-growth. Information such as “None”.

  In this case, it is necessary to adjust the dilution rate in advance. For example, the dilution rate of urine is set to 100 times. As a result, when the number of colonies is large, there is a high possibility that a large number of causative bacteria are present. Therefore, it is better to administer the drug “A” which has a high effect even though the risk of side effects is somewhat high. If the number is in the range of a certain number, it is better to administer the drug “B”, which has a slightly weaker effect but less side effects. If the number is β or less, no medication is required. In this way, the user can quickly and accurately determine the medicine based on the information displayed on the information display unit 5.

  Further, in this case, at least information on “the number of colonies as a culture result” is necessary, and the information may be indicated by letters (for example, α) or may be an image diagram showing the appearance of colonies. Alternatively, both characters and image diagrams may be displayed.

  FIG. 4 is an example showing the culture results in the form of microorganisms. In general, the shape of a microorganism is often divided into a circular shape, a filamentous shape, an irregular shape, a curled shape, and the like. The example shown in FIG. 4 is an example in which the medicine determination is performed in which shape the most colony is in, and the description of characters is added to the shape. Then, when the shape is “circular + diameter a to bmm”, the drug “A” is administered, and when the shape is “circular + diameter bmm or less”, the drug “B” is administered. Drug “C” is administered in the case of “colony”, drug “D” is administered when the shape is “circular + with halo”, and drug “E” is administered when the shape is “circular + with bubbles” In the case of “non-growth”, the information is “no drug”. Here, the halo refers to a zona pellucida present around the colony.

  On the other hand, priority can be given to colonies instead of the most colonies. For example, when curly hair is present, an indication that the drug “A” is administered without considering other things can be considered. This is a part that changes depending on the disease, and it is thought that it is necessary to immediately and surely administer and treat the disease. Should.

  The microorganism culture apparatus 1 having the above configuration includes a culture result display unit 5A that displays a culture result of a microorganism and a drug information display unit 5B that displays drug information corresponding to the culture result of the microorganism. By displaying the result and the drug information corresponding to the culture result, the user can quickly and accurately grasp the drug information corresponding to the culture result of the microorganism. That is, the user can instantaneously and accurately determine a drug that can deal with the causative bacteria based on the culture result displayed on the culture result display unit 5A and the drug information displayed on the drug information display unit 5B. Therefore, it is possible to reduce the time for drug determination and perform drug determination with high accuracy. As a result, a quick treatment can be performed.

  Moreover, compared with the case where the medicine information display unit is not provided, it is possible to reliably reduce artificial determination errors and to prevent the apparatus from being mixed up. Furthermore, since the microorganism culture apparatus 1 is formed in a sheet shape, it can be reduced in thickness and size.

Second Embodiment
FIG. 5 is an exploded perspective view showing a microorganism culture apparatus according to the second embodiment. The difference between the microorganism culture device 6 of the present embodiment and the first embodiment is that the microorganism culture device 6 is formed in a box shape. Since the other structure is the same as that of the first embodiment, the redundant description is omitted.

  Specifically, the microorganism culture device 6 includes a box-shaped container body 7 that opens upward, and a lid portion 8 that closes the opening of the container body 7. The container body 7 includes a bottom portion 7a formed in a rectangular shape, a pair of wide side wall portions 7b that rise from the four circumferences of the bottom portion 7a and have a relatively large area, and a pair of relatively small areas. It is comprised from the narrow side wall part 7c. The pair of wide side wall portions 7b are arranged to face each other. Similarly, the pair of narrow side wall portions 7c are also arranged to face each other.

  The lid portion 8 is formed with a rectangular top plate 8a, a pair of wide side wall portions 8b extending downward from the four circumferences of the top plate 8a and having a relatively large area, and a relatively small area. It is comprised from a pair of narrow side wall part 8c. The container body 7 and the lid portion 8 are formed of a plastic material such as polyethylene, polypropylene, polyester, polyamide, polystyrene, polycarbonate, polyvinyl chloride, or the like. And when cultivating a microorganism in the culture part 3, in order to observe a colony or to count without opening the cover part 8, it is preferable that the cover part 8 is transparent at least.

  A culture unit 3 is provided inside the container body 7. The culture part 3 is arrange | positioned on the left side with respect to the center of the bottom part 7a. An information display unit 5 is attached to the outer surface of the lid 8 (that is, the outer surface of the top plate 8a). As in the first embodiment, the information display unit 5 includes a culture result display unit 5A and a drug information display unit 5B. The information display unit 5 is disposed on the right side with respect to the center of the lid unit 8. If it does in this way, in the state which covers the cover part 8 on the container main body 7, the culture | cultivation part 3 will be arrange | positioned on the left side, and the information display part 5 will be arrange | positioned on the right side in planar view. That is, the culture unit 3 and the information display unit 5 are juxtaposed without overlapping. In this way, the operator can easily compare and confirm the microorganisms cultured in the culture unit 3 and the information displayed on the information display unit 5.

  The microorganism culturing apparatus 6 configured in this way can obtain the same operational effects as those of the first embodiment described above, and can further obtain the following operational effects. That is, since the culture part 3 is sealed inside the container main body 7 by the lid part 8, the occurrence of contamination and the drying of the medium can be prevented. Moreover, since the information display part 5 is affixed on the outer surface of the cover part 8, the information display part 5 is not contaminated by sample adhesion or the like, and the information displayed on the information display part 5 is prevented from being invisible due to the dirt. it can.

<Third Embodiment>
FIG. 6 is a perspective view showing a microorganism culture apparatus according to the third embodiment. Although the microorganism culture apparatus 9 of this embodiment is formed in a box shape like the above-mentioned 2nd Embodiment, it differs from 2nd Embodiment in the point by which a cover part is connected with a container main body. That is, the lid portion 10 is formed in a flat plate shape, and one end portion 10 a thereof is connected to the end portion of the wide side wall portion 7 b of the container body 7. The lid 10 can be opened and closed with its one end 10a as an axis.

  The culture part 3 is arrange | positioned on the left side with respect to the center of the bottom part 7a. An information display unit 5 is attached to the outer surface of the lid unit 10. And the information display part 5 is arrange | positioned with respect to the center of the cover part 10 at the right side. As a result, when the lid 10 is closed, the culture unit 3 is arranged on the left side and the information display unit 5 is arranged on the right side in plan view, so that they do not overlap.

  The microorganism culturing apparatus 9 configured as described above can obtain the same operational effects as those of the second embodiment described above, and further, since the lid portion 10 is connected to the container body 7, the lid portion 10 is lost or mistaken. Can be reliably prevented.

<Fourth embodiment>
FIG. 7 is a perspective view showing a microorganism culturing apparatus according to the fourth embodiment. Although the microorganism culture apparatus 11 of this embodiment is formed in a sheet shape similarly to the first embodiment, the cover sheet 12 has a size that covers the entire base sheet 2. Specifically, the cover sheet 12 has substantially the same size as the base sheet 2, and one end portion 12 a thereof is connected to the base sheet 2 with an adhesive or the like. Thus, the cover sheet 12 can be opened and closed with respect to the base sheet 2 with the one end 12a as an axis.

  And the information display part 5 is affixed on the outer surface of the cover sheet 12. FIG. The information display unit 5 is disposed on the right side with respect to the center of the cover sheet 12. Thus, in a state where the cover sheet 12 is aligned with the base material sheet 2 (that is, a state where the culture unit 3 is covered), the culture unit 3 and the information display unit 5 do not overlap in plan view.

  The microorganism culturing apparatus 11 configured in this way can obtain the same operational effects as those of the first embodiment described above, and the cover sheet 12 is interposed between the information display unit 5 and the culture unit 3. The display unit 5 is not soiled due to sample adhesion or the like, and it is possible to prevent the information displayed on the information display unit 5 from becoming invisible due to the soiling.

<Fifth Embodiment>
FIG. 8 is a perspective view showing a microorganism culture apparatus according to the fifth embodiment. The difference between the microorganism culture device 13 of the present embodiment and the first embodiment is that the microorganism culture device 13 is formed in a bag shape. Specifically, the microorganism culture apparatus 13 has a transparent bag 14 with a chuck. A chuck portion 15 is provided slightly below the opening end of the transparent bag 14. The base material sheet 2 is accommodated in the transparent bag 14. The base sheet 2 is positioned from the bottom to the bottom of the transparent bag 14 with its weight. The base material sheet 2 is provided with a culture unit 3. An information display unit 5 is attached to the outer side of the transparent bag 14 and on the upper portion of the transparent bag 14.

  Since the microorganism culturing apparatus 13 configured in this way can obtain the same effects as those of the first embodiment described above, since the transparent bag 14 is interposed between the information display unit 5 and the culture unit 3, The information display unit 5 is not contaminated due to sample adhesion or the like, and it is possible to prevent the information displayed on the information display unit 5 from being invisible due to the contamination.

<Sixth Embodiment>
FIG. 9 is a perspective view showing a microorganism culturing apparatus according to the sixth embodiment. The difference between the microorganism culture device 16 of the present embodiment and the first embodiment is that the microorganism culture device 16 is formed in a cylindrical shape. Specifically, the microorganism culture device 16 includes a container body 17 formed in a bottomed cylindrical shape, and a cap 18 for sealing the container body 17. The upper end of the container body 17 is opened, and the bottom is processed into a U shape. The container body 17 is made of transparent glass or a resin material. An information display unit 5 is attached to the upper part of the outer wall of the container body 17.

  The cap 18 includes a disk-shaped top plate portion 18a and a side wall portion 18b that extends downward by connecting to the outer peripheral edge of the top plate portion 18a. The inner diameter of the cap 18 is formed slightly larger than the outer diameter of the container body 17. If it does in this way, the cap 18 can close the container main body 17 in a relatively airtight state.

  A strip-shaped base sheet 19 is suspended from the inner surface of the top plate portion 18a. The base sheet 19 is formed with a width smaller than the inner diameter of the container body 17 so that the base sheet 19 can be inserted into the container body 17. In addition, it is preferable that the base material sheet 19 is formed with the material which has water resistance and heat resistance similarly to the base material sheet 2 of 1st Embodiment. The culture unit 3 is provided at the lower end of the base sheet 19.

  The microorganism culturing apparatus 16 configured in this manner is optimal for the immersion method. That is, after putting the sample solution into the container body 17, the culture unit 3 provided at the lower end of the base sheet 19 is immersed in the sample solution by closing the cap 18. This makes it easier to inoculate the specimen. In addition, the microorganism culture apparatus 16 of this embodiment can obtain the same effect as the above-mentioned first embodiment.

<Seventh embodiment>
FIGS. 10A and 10B are plan views showing the microorganism culture apparatus according to the seventh embodiment, and show a state where the cover sheet is removed. The difference between the microorganism culture apparatus 20 of the present embodiment and the first embodiment is that there are two culture units 3. These culture units 3 have the same medium composition, and are arranged side by side along the longitudinal direction (see FIG. 10A) or the lateral direction (see FIG. 10B) of the base sheet 2. . In addition, these culture | cultivation parts 3 are provided independently, respectively. Independence here means that the two culture parts 3 are not connected directly or via other members.

  The microorganism culturing apparatus 20 configured as described above can obtain the same operational effects as those of the first embodiment described above, and further can obtain the following operational effects. That is, since there are two culture units 3, two specimens can be examined at the same time, and work efficiency can be improved. Further, even if the sample dropping operation fails, the work can be continued using the remaining culture unit 3. For this reason, it is not necessary to repeat the dropping operation using a new culture device due to the failure of the dropping operation, and time loss can be prevented. Moreover, since the culture units 3 are provided independently, the occurrence of contamination in the adjacent culture units 3 can be reliably prevented.

  In addition, when the culture unit 3 is arranged in the vertical direction of the base sheet 2 as shown in FIG. 10A, the microorganisms cultured in the culture unit 3 simply by the operator moving the line of sight horizontally. And the information displayed on the information display unit 5 can be compared and confirmed. On the other hand, when the culture part 3 is arranged in the horizontal direction as shown in FIG. 10 (b), there is an effect that the culture part 3 is easily immersed. In this embodiment, although the example which has the two culture parts 3 was given and demonstrated, you may have three or more culture parts 3 as needed.

<Eighth Embodiment>
FIG. 11 is a plan view showing a microorganism culturing apparatus according to the eighth embodiment, and shows a state where a cover sheet is removed. The difference between the microorganism culturing apparatus 21 of the present embodiment and the first embodiment is that a plurality of culture units are provided in response to requests for different dilution rates of the sample liquid.

  Specifically, as shown in FIG. 11, three culture units 3 are arranged side by side along the vertical direction on the slightly left side of the base sheet 2. On the left side of these culture sections 3, there is a column of dilution ratios, which are described as “stock solution”, “100 times”, and “1000 times” in order from the top. Further, an information display unit 5 is provided on the right side of the base sheet 2.

  A calculation description area 22 is further provided between the culture unit 3 and the information display unit 5. The calculation description area 22 is a space provided for calculating the number of specimen bacteria in the culture unit 3. In the present embodiment, the number of bacteria is calculated using the formula “number of bacteria in culture part × conversion formula = number of specimens”. The calculation description area 22 is provided with three columns such as “the number of bacteria in the culture section”, “the conversion formula”, and “the number of specimens” for each dilution rate. The “culture part count” and “specimen count” are blank because they are fields for entry by the user. On the other hand, the “conversion formula” may be described in advance or may be described by the user at the time of use.

  When using the microorganism culture apparatus 21 having the above configuration, the user first dilutes the specimen 100 times or 1000 times using a sterile diluent. Next, the stock solution, the 100-fold diluted solution, and the 1000-fold diluted solution are dropped into the culture unit 3 in which the respective dilution ratios are described, and culture is performed. After culturing, the number of colonies cultured in each culture unit 3 is counted and described in the column of “Number of cultured cells” in the calculation description area 22. And when a colony spreads over the whole culture | cultivation part 3 and cannot be counted (especially in the case of a stock solution), what is necessary is just to describe Not Count. Subsequently, the number of bacteria contained in the sample is calculated using the conversion formula, and the result is described in the column “Sample number of bacteria”. In addition, even if the dilution rate is different, the number of specimen bacteria calculated by the dilution rate of each culture unit 3 is almost the same. Next, drug determination is performed based on the calculated number of specimen bacteria and the information display unit 5.

  The microorganism culturing apparatus 21 of the present embodiment can obtain the same functions and effects as those of the first embodiment described above, and can further obtain the following functions and effects. That is, there are cases where there are too many causative bacteria in the specimen, causing the causative bacteria to grow on one side of the culture unit 3, and it is difficult to count the number of bacteria as colonies. In this case, by diluting the sample stepwise (for example, 100 times, 1000 times, etc.) and culturing the diluted sample, the number of bacteria can be accurately counted with the sample at any dilution ratio. . Therefore, the number of causative bacteria contained in the specimen can be grasped quickly and with high accuracy by one microorganism culture apparatus. Since the number of bacteria contained in the sample can be accurately grasped as described above, the medicine determination can be performed with high accuracy and speed.

<Ninth Embodiment>
12 (a) and 12 (b) are plan views showing the microorganism culturing apparatus according to the ninth embodiment, and show a state in which the cover sheet is removed. The difference between the microorganism culture device 23 of the present embodiment and the first embodiment is that a plurality of culture units 3 are formed and the culture medium components of the culture units are different.

  As shown to Fig.12 (a), three culture | cultivation parts 3X, 3Y, and 3Z are juxtaposed along the vertical direction on the slightly left side of the base material sheet 2. As shown in FIG. The culture medium compositions of the culture units 3X, 3Y, and 3Z are different, for example, the culture unit 3X is a blood agar medium, the culture unit 3Y is a chocolate agar medium, and the culture unit 3Z is an MRSA (methicillin-resistant Staphylococcus aureus) medium. And in order to distinguish these culture | cultivation part 3X, 3Y, 3Z easily, the English letter of "X", "Y", and "Z" is described on the left side of culture | cultivation part 3X, 3Y, 3Z.

  On the other hand, in the culture result display section 5A of the information display section 5, the culture results are divided into “X”, “Y”, and “Z” columns corresponding to the culture sections 3X, 3Y, and 3Z, respectively. Here, although the culture result displayed on the culture result display portion 5A is shown in color (color sample diagram), since the drawing is black and white, the color is shown with and without hatching. Moreover, it is preferable here that the microorganism culture apparatus 23 is further provided with the culture medium information display part 5C which displays the information of each culture medium. For example, as shown in FIG. 12B, the information display unit 5 is further provided with a medium information display unit 5C in addition to the culture result display unit 5A and the drug information display unit 5B. The medium information display unit 5C displays medium information of the culture units 3X, 3Y, and 3Z. Examples of the medium information include the name and composition of the medium. In this way, it is possible to easily grasp the relationship between the culture medium information, the culturing result of the microorganisms, and the drug information, so that an operation error can be prevented.

  The microorganism culturing apparatus 23 configured as described above can obtain the same functions and effects as those of the first embodiment described above, and further can obtain the following functions and effects. That is, when the culture medium composition in the plurality of culture units 3 is the same, only the growth performance for one type of culture medium in the causative bacteria contained in the specimen can be confirmed, so that information necessary for determining which drug should be used is insufficient. there is a possibility. In order to compensate for such a situation, it is necessary to prepare several types of microorganism culture apparatuses having different medium compositions and perform culture using each of them to perform confirmation work necessary for drug determination. For this reason, it takes labor and time.

  In contrast, the microorganism culturing apparatus 23 of the present embodiment has a plurality of culture units 3, and the culture medium composition of each culture unit 3 is different. Therefore, the growth performance for several types of culture media in the causative bacteria contained in the specimen is 1 It can be confirmed simultaneously on two devices. As a result, information necessary for drug determination can be obtained by one microorganism culturing apparatus 23, so that work efficiency can be significantly improved.

  In addition, it is also possible to perform the estimation or identification of the bacterial species, the determination of the drug sensitivity, and the control of the inspection operation using the microorganism culture apparatus 23 of the present embodiment. As the estimation or identification of the bacterial species, for example, when performing a methicillin-resistant Staphylococcus aureus (MRSA) test, a culture method using PCR (for example, a chromoager MRSA screen medium using a coloring reaction with an enzyme substrate), PCR ( And a genetic test method by polymerase chain reaction). Examples of the drug sensitivity test include a diffusion method and a dilution method. The diffusion method is a quantitative test method for simply selecting a drug effective for treatment, and the dilution method is a qualitative test method capable of accurately measuring the MIC (minimum growth inhibitory concentration).

<Tenth Embodiment>
FIG. 13 is a plan view showing a microorganism culturing apparatus according to the tenth embodiment, and shows a state in which a cover sheet is removed. The difference between the microorganism culturing apparatus 24 of the present embodiment and the first embodiment is that a contact determining member 25 for determining whether or not the culture unit 3 and the sample liquid are in contact is further provided. Specifically, a contact determination member 25 is provided between the culture unit 3 and the information display unit 5. The contact determination member 25 is made of, for example, a material that easily absorbs the sample liquid and can hold the absorbed sample liquid for a long time, or a material that changes color when touched by the sample liquid. As shown in FIG. 13, the contact determination member 25 is fixed to the base sheet 2 with an adhesive or the like on the base sheet 2.

  When inoculating a specimen using the microorganism culture device 24 provided with the contact determination member 25, for example, it has a side on which the information display unit 5 is provided, and the microorganism culture device 24 is installed from the culture unit 3 side (left side in FIG. Gradually add to the sample solution. At this time, if not only the entire culture unit 3 but also the contact determination member 25 is immersed in the sample liquid, the contact determination member 25 can be brought into contact with the sample liquid simultaneously with the sample inoculation.

  The microorganism culturing apparatus 24 configured in this way can obtain the same effects as those of the first embodiment described above, and further includes a contact determination member 25, so that the presence or absence of contact with the sample liquid in the culture unit 3 can be visually observed. It can be easily confirmed, and operation mistakes during sample inoculation can be prevented.

<Modification of contact discrimination member>
In addition, about the installation place of a contact discrimination | determination member, not only the place mentioned above but various modifications can be considered. For example, in the modification shown in FIG. 14A, the contact determination member 25 is provided between the culture unit 3 and the information display unit 5 and at two locations on the upper and lower portions of the base sheet 2. Further, in the modification shown in FIG. 14B, a single band-like contact determination member 26 is provided. The contact determination member 26 extends from the upper part to the lower part of the base sheet 2, and the length thereof is substantially the same as the diameter of the culture part 3.

  In this case, since the installation range of the contact determination members 25 and 26 is wide, contact determination is performed when, for example, the culture unit 3 is obliquely immersed in the sample liquid or when the entire culture unit 3 is not immersed in the sample liquid. Parts that do not come into contact with the sample liquid are generated on the members 25 and 26. And since a user can grasp | ascertain easily the contact condition of the culture | cultivation part 3 and a sample liquid only by visually observing the contact determination members 25 and 26, it can prevent an operation mistake more reliably.

<Eleventh embodiment>
Hereinafter, the microorganism culture apparatus 27 according to the eleventh embodiment will be described with reference to FIGS. 15 is an exploded perspective view showing the microorganism culture device according to the eleventh embodiment, FIG. 16 is a plan view showing the microorganism culture device according to the eleventh embodiment, and FIG. 17 is the microorganism culture according to the eleventh embodiment. It is sectional drawing which shows an apparatus. Although the microorganism culture apparatus 27 of this embodiment is formed in a box shape similarly to the second embodiment, it is different from the second embodiment in that it has an aerobic culture part and an anaerobic culture part.

  Specifically, two culture units 3 are provided in the container body 7. Correspondingly, two information display sections 5 are attached to the outer surface of the lid section 8. On the back side of the lid portion 8, a partition plate 28 that extends downward from the top plate 8 a and divides the space on the back side of the lid portion 8 into two is provided. The partition plate 28 is formed integrally with the top plate 8a. In addition, an oxygen scavenger 29 is provided in one of the two spaces partitioned by the partition plate 28. The oxygen scavenger 29 is fixed to the back surface of the top plate 8a with an adhesive, for example.

  As shown in FIG. 17, in the state where the lid portion 8 is put on the container body 7, the partition plate 28 of the lid portion 8 penetrates deeply into the container body 7, so that the internal space of the microorganism culture device 27 is formed by the partition plate 28. Two spaces will be partitioned. Since the oxygen scavenger 29 is provided in one of the two spaces, it becomes an anaerobic culture unit. The remaining space becomes an aerobic culture section.

  The microorganism culturing apparatus 27 configured as described above can obtain the same operational effects as those of the above-described second embodiment, and can further obtain the following operational effects. That is, since the aerobic culture unit and the anaerobic culture unit are provided, the causative bacteria that grow under aerobic and anaerobic conditions can be simultaneously cultured in one apparatus. Therefore, it is possible to save labor and improve working efficiency compared to the conventional case where the microorganism culture apparatus inoculated with the specimen is enclosed in an anaerobic jar or pouch together with an oxygen scavenger. Moreover, since the drug determination can be performed based on the culture results under the aerobic condition and the anaerobic condition, the accuracy of the drug determination can be improved.

<Twelfth embodiment>
FIG. 18 is a plan view showing a microorganism culturing apparatus according to the twelfth embodiment, and shows a state where a cover sheet is removed. The microorganism culturing apparatus 30 according to the present embodiment includes the culture units 3X, 3Y, and 3Z having different culture medium components as in the ninth embodiment described above, but the ninth is the point that the culture units 3X, 3Y, and 3Z are connected. It is different from the embodiment. As shown in FIG. 18, the adjacent culture unit 3X, culture unit 3Y, culture unit 3Y, and culture unit 3Z are connected by a connection member 31, respectively.

  The connecting member 31 does not simply connect the frame bodies 3A of the adjacent culture parts but connects the culture medium 3B. That is, the culture media 3B of the culture units 3X, 3Y, and 3Z are connected to each other by the connecting member 31. For this reason, if a sample is inoculated in any one of the culture units 3X, 3Y, and 3Z, the sample can be spread to other culture units via the connecting member 31. In order to prevent the occurrence of contamination due to the backflow of the specimen that has spread to other culture parts, it is preferable to include a gelling agent or the like in the culture parts 3X, 3Y, 3Z.

  The microorganism culturing apparatus 30 configured as described above can obtain the same operational effects as those of the ninth embodiment described above, and can further obtain the following operational effects. That is, since the culture medium 3B of the plurality of culture units 3X, 3Y, 3Z is connected by the connecting member 31, when inoculating the same sample into a plurality of culture units, just inoculate the sample into one culture unit, The specimen spreads to other culture parts via the connecting member 31. As a result, it is possible to prevent the occurrence of an operation error such as forgetting to inoculate or duplicate inoculation, and to prevent the occurrence of a drug determination error due to the operation error.

<13th Embodiment>
FIG. 19 is a perspective view showing a microorganism culture apparatus according to the thirteenth embodiment. The difference between the microorganism culturing apparatus 32 of the present embodiment and the fourth embodiment is that there are a plurality of information display units (here, two). As shown in FIG. 19, in the microorganism culture apparatus 32, in addition to the information display unit 5 attached to the outer surface of the cover sheet 12, an information display unit 33 is further provided on the base material sheet 2. The information display unit 33 is disposed on the opposite side (right side in FIG. 19) of the culture unit 3 and is attached to the base sheet 2. The information display unit 33 is formed so as to include a culture result display unit and a drug information display unit similarly to the information display unit 5, but the displayed culture result and drug information are more than the information display unit 5. It is redundant. For example, compared to the information display unit 5, the information display unit 33 displays the culture results and drug information of the microorganisms in more detail.

  The microorganism culturing apparatus 32 configured as described above can obtain the same operational effects as those of the above-described fourth embodiment, and also has the information display unit 5 and the information display unit 33, so that, for example, information displayed on one side due to dirt Even if the information cannot be read, the remaining information display unit can grasp the information. Moreover, by having the information display part 33 on which culture results and drug information are displayed redundantly, more detailed information can be easily acquired.

<Fourteenth embodiment>
FIG. 20 is a perspective view showing a microorganism culture apparatus according to the fourteenth embodiment. The difference between the microorganism culture device 34 of the present embodiment and the second embodiment is that it has two information display units. As shown in FIG. 20, in the microorganism culture device 34, in addition to the information display unit 5 attached to the outer surface of the lid 8, an information display unit 33 is further provided in the container body 7. This information display part 33 is arrange | positioned on the opposite side (FIG. 20 right side) of the culture part 3, and is affixed on the bottom part 7a. The culture results and drug information displayed on the information display unit 33 are more redundant than the information display unit 5.

  The microorganism culturing apparatus 34 configured as described above can obtain the same operational effects as those of the above-described second embodiment, and also has the information display unit 5 and the information display unit 33. Therefore, for example, information displayed on one side due to dirt Even if the information cannot be read, the remaining information display unit can grasp the information. Moreover, by having the information display part 33 which displays a culture result and chemical | medical agent information redundantly, more detailed information can be acquired easily.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various designs can be made without departing from the spirit of the present invention described in the claims. It can be changed. For example, when providing a plurality of culture units, the number is not limited to the above-described number, and the number may be increased as necessary. Moreover, the microorganism culture apparatus may have other shapes besides the above-described sheet shape, box shape, bag shape, and cylindrical shape. In the above-described embodiment, an example in which any one of the number, color, and shape of the microorganism is displayed on the culture result display unit 5A has been described. Combinations may be displayed.

  In addition to the circular shape described above, the culture part may have a square shape or other shapes, but a circular shape is more preferable because the sample liquid is likely to spread uniformly. Furthermore, you may attach a QR code (trademark), an IC tag, etc. to a microorganism culture apparatus as needed. In this way, the user can easily obtain related information using a reading device such as a mobile phone with a camera, a smartphone, or a tablet.

1,6,9,11,13,16,20,21,23,24,27,30,32,34 Microorganism culture apparatus 2,19 Base sheet 3 Incubator 3A Frame 3B Medium 3X, 3Y, 3Z Portions 4 and 12 Cover sheets 5 and 33 Information display portion 5A Culture result display portion 5B Drug information display portion 5C Medium information display portions 7 and 17 Container body 8 and 10 Lid 14 Transparent bag 25 and 26 Contact discrimination member 28 Partition plate 29 Oxygen absorber 31 connecting member

Claims (10)

A culture section for culturing microorganisms;
A culture result display unit for displaying a culture result of a microorganism cultured in the culture unit;
A drug information display unit for displaying drug information corresponding to the culture result of the microorganisms cultured in the culture unit;
A microorganism culturing apparatus comprising:   The microorganism culture apparatus according to claim 1, wherein at least one of the type and quantity of microorganisms is displayed on the culture result display unit.   The microorganism culture apparatus according to claim 1, wherein at least one of the number, color, and shape of microorganisms is displayed on the culture result display unit. The culture unit is plural,
The microorganism culture apparatus according to any one of claims 1 to 3, wherein the plurality of culture units are provided independently of each other. The culture unit is plural,
The microorganism culture apparatus according to any one of claims 1 to 3, wherein the plurality of culture units are connected to each other. The culture unit is plural,
The microorganism culture apparatus according to any one of claims 1 to 3, wherein the plurality of culture units include an aerobic culture unit and an anaerobic culture unit.   The microorganism culture apparatus according to any one of claims 4 to 6, wherein the plurality of culture units have different medium compositions.   The microorganism culture apparatus according to claim 1, further comprising a contact determination member that determines whether or not the culture unit and the sample liquid are in contact with each other.   The microorganism culture apparatus according to claim 1, further comprising a medium information display unit that displays medium information of the culture unit. The culture result display unit and the drug information display unit are each plural,
10. The culture result and drug information are displayed more redundantly than at least one of the plurality of culture result display units and drug information display units. The microorganism culture apparatus described in 1.

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