JP2011095024A - Medical liquid mixing support system and method of inspecting medical liquid mixing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medical liquid mixing inspection support system and a method of inspecting medical liquid mixing for detecting aggregate, opacity, and foreign matter in a medicament container by a simple structure. <P>SOLUTION: This medical liquid mixing inspection support system 10 includes a base 13, a medicine bottle mounting part 14 provided on a part of a surface 13a of the base 13 for disposing medicine bottles 14a, and an information presenter 11 displaying at least any of prescription information, inspection information, and mixture preparation information on a screen 11a. A medical liquid put in any of the medicine bottles 14a disposed on the bottle mounting part 14 is mixed in an infusion solution bag 12, and then, the solution bag 12 is adjacently disposed on the screen 11a of the information presenter 11. With the information presenter 11 used as an illuminator, illumination light of a geometric pattern 15 is emitted from the screen 11a and transmitted through the solution bag 12 from the back thereof to inspect foreign matter 16 or formed matter 17 in the solution bag 12. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a chemical solution mixing support system and a chemical solution mixing inspection method used when a plurality of chemical solutions such as injection drugs are sucked and mixed with a syringe or the like in a medical field or the like.

  When applying a medical solution to a hospitalized patient or the like in a hospital or the like, there are many cases where several types of chemical solutions are taken out from different chemical solution containers and mixed. In addition, a single drug solution or a drug solution mixed in this way is often mixed with a drug solution (mainly physiological saline) such as an infusion bag and applied to an inpatient or the like in the form of an infusion.

  By the way, when a plurality of chemicals are mixed in this way, agglomerates or white turbidity may occur in the infusion bag due to chemical factors such as acid-base reaction, or coring during injection needle puncture. Foreign matter may be mixed in an infusion bag. It is not desirable from the viewpoint of ensuring patient safety to apply such a liquid solution with agglomerates, white turbidity, and foreign substances to an inpatient as an injection, and is selected in the process of mixing a liquid such as an injection. It is preferably removed.

  FIGS. 12A to 12D are diagrams showing a conventional foreign matter inspection apparatus 1 and an image captured by the conventional foreign matter inspection apparatus 1. FIGS. 12C and 12D are schematic configuration diagrams of the foreign matter inspection apparatus 1 for inspecting the presence or absence of foreign matter in the liquid 3 filled in the light transmissive container 2. 12A and 12B are diagrams illustrating an example of an image captured by the foreign substance inspection apparatus 1. FIG.

  As shown in FIG. 12 (c), in order to optically detect the foreign matter 4 and the agglomerate 4 a in the container 2, the transmitted illumination unit 5 is used as a light source, and the container 2 is illuminated with the container 2 illuminated. An inspection image 6 is acquired. The light from the transmitted illumination unit 5 is imaged as an inspection image 6 by illuminating the container 2 containing the foreign matter 4 and the agglomerate 4 a therein and then entering the imaging unit 7. The foreign matter 4 and the aggregated mass 4a are imaged by the imaging unit 7 as the foreign matter shadow 8 and the aggregated mass shadow 8a, and the container 2 is imaged by the imaging unit 7 as the container shadow 2a and reflected in the inspection image 6.

  FIG. 12D shows an optical configuration similar to that in FIG. 12C, but only the illumination unit is different. In FIG. 12C, the illumination unit is only the transmission illumination unit 5, but in FIG. 12D, the illumination unit is provided with the reflection illumination unit 5 a for reflection illumination with the transmission illumination unit 5 interposed therebetween.

  As shown in FIG. 12 (d), after the illumination unit is illuminated by the mixed illumination light using the transmission illumination unit 5 and the reflection illumination unit 5a at the same time, the container 2 including the foreign matter 4 and the agglomerates 4a is illuminated, and then imaging is performed. By making it enter into the part 7, the inspection image 6 of mixed illumination is imaged. At this time, a foreign object shadow 8 is clearly generated in the foreign object 4 and the foreign object 4 is also reflected in the inspection image 6 as in FIG. On the other hand, the agglomerate 4a is not reflected in the inspection image 6 because the agglomerate shadow 8a is thinned by reflected illumination.

  As described above, the inspection image 6 is imaged by the imaging unit 7 using two types of illumination, that is, the transmission illumination and the mixed illumination, and the inspection image 6 is analyzed, whereby the foreign matter 4 and the aggregate 4a are separated. It is shown that it can be detected separately (see, for example, Patent Document 1).

JP 2007-78498 A

  However, in the conventional technology described above, a lighting device dedicated to foreign matter inspection is required separately, and the entire device is complicated and expensive. Also, it is not suitable for foreign substance inspection of drug containers other than normal drug containers such as vial containers, for example, atypical and large shapes such as infusion bags and optically having little lens effect on transmitted light. There were also challenges.

  The present invention solves the above-described conventional problems, and an object thereof is to provide a chemical solution mixing support system and a chemical solution mixing inspection method capable of detecting agglomerates, white turbidity, and foreign substances in a drug container with an apparatus having a simple configuration. .

  In order to achieve the above object, a chemical solution mixing support system of the present invention is provided on a base unit for performing a mixing operation of a chemical solution in a drug bottle, and on the base unit for mounting the drug bottle. A medicine bottle mounting section, an information presentation section for displaying the mixing information of the chemical solution on a screen, and a control section for changing the display of the screen from the mixing information to a geometric pattern based on the angle of the information presentation section; It is characterized by providing.

  Another medical solution mixing support system according to the present invention includes a base part for performing a mixing operation of a chemical liquid in a medicine bottle, and a medicine bottle mounting part provided on the base part for mounting the medicine bottle. And an information presentation unit that displays the mixing information of the chemical solution on a screen, and a control unit that changes the display of the screen from the mixing information to a geometric pattern based on an external input. To do.

  In addition, the liquid mixture inspection method of the present invention is arranged in parallel with the screen surface of the information presentation unit, and the geometrical shape of the screen with respect to the infusion bag in which the liquid medicine is mixed based on the mixing information on the screen. The infusion bag is irradiated with light from a pattern as illumination light, and foreign matter or products in the infusion bag are inspected by irradiating the infusion bag.

  According to the chemical liquid mixing support system and the chemical liquid mixing inspection method of the present invention, for example, a white foreign material and a product and a black foreign material and a product that are present in the chemical solution in the infusion bag, while having a simple device configuration. Can be reliably detected.

It is a figure which shows schematic structure of the chemical | medical solution mixing preparation support system concerning Embodiment 1 of this invention, (a) Perspective view, (b) An example which detects the foreign material and product in an infusion bag by using an information presentation part as an illumination part. Figure showing The figure which shows one example of the prescription information projected on the screen of the information presentation part of the chemical | medical solution mixing inspection system concerning Embodiment 1 of this invention The flowchart of the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention 1 is a side view showing a schematic configuration of a chemical liquid mixture inspection method according to a first embodiment of the present invention. The figure which shows an example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention. The figure which shows an example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention. (A) The figure which shows an example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention, (b) An example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention Figure showing (A) The figure which shows an example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention, (b) An example of the geometric pattern used for the chemical | medical solution mixing inspection method concerning Embodiment 1 of this invention Figure showing The top view which shows schematic structure of the other chemical | medical solution mixing inspection system concerning Embodiment 1 of this invention The perspective view which shows schematic structure of the chemical | medical solution mixing audit assistance system concerning Embodiment 2 of this invention. Flowchart of the chemical liquid mixture inspection method according to the second embodiment of the present invention. (A) The figure which shows an example of the image imaged with the conventional foreign material inspection apparatus, (b) The figure which shows an example of the image imaged with the conventional foreign material inspection apparatus, (c) The schematic block diagram of the conventional foreign material inspection apparatus (D) Schematic block diagram of a conventional foreign matter inspection apparatus

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, the same code | symbol is attached | subjected to the same component and description may be abbreviate | omitted. Further, the drawings schematically show the respective constituent elements mainly for easy understanding.

(Embodiment 1)
1A and 1B are diagrams showing a schematic configuration of a chemical liquid mixture audit support system 10 according to Embodiment 1 of the present invention. FIG. 1A is a perspective view of the chemical liquid mixture audit support system 10. FIG. 1B is a top view of a state in which the infusion bag 12 is placed on the screen 11 a of the information presentation unit 11 of the chemical liquid mixture inspection support system 10. As shown in FIG. 1B, when the infusion bag 12 is placed on the screen 11a, the information presentation unit 11 is tilted in the direction of the arrow 11b in FIG. 1A so that the screen 11a becomes almost horizontal. I am doing so.

  As shown in FIGS. 1 (a) and 1 (b), the chemical liquid mixture inspection support system 10 of the first embodiment includes a base unit 13, a drug bottle mounting unit 14, and an information presentation unit 11. Yes. Here, the medicine bottle mounting part 14 is for mounting the medicine bottle 14 a provided on a part of the surface 13 a of the base part 13. The information presentation unit 11 displays at least one of prescription information, audit information, and mixed preparation information on the screen 11a. As the screen 11a of the information presentation unit 11, for example, a touch panel having both a display function and an input function may be used. Thereby, the information displayed on the screen 11a of the information presentation unit 11 can be switched intuitively by touching a button or the like displayed on the touch panel.

  And after injecting and mixing the chemical | medical solution contained in the chemical | medical bottle 14a mounted in the chemical | medical bottle mounting part 14 to the infusion bag 12, the infusion bag 12 is arrange | positioned on the screen 11a of the information presentation part 11 which fell in the direction of the arrow 11b. . Thereafter, the information presentation unit 11 is used as an illumination unit, and illumination light of the geometric pattern 15 is transmitted from the back of the infusion bag 12 through the screen 11a and irradiated.

  The chemical liquid mixture inspection support system 10 of the first embodiment is configured to inspect the foreign matter 16 or the product 17 in the infusion bag 12 by transmitting the illumination light of the geometric pattern 15 to the infusion bag 12.

  With this configuration, when a white foreign matter or product or a black foreign matter or product exists in the chemical solution in the infusion bag 12, as described later, due to a contrast difference with a geometric pattern irradiated as background illumination. , Can be detected reliably. Moreover, since the screen 11a of the information presentation unit 11 is also used as an illumination unit for foreign matter inspection as necessary, the chemical liquid mixture audit support system 10 can be realized as a compact and low-cost apparatus.

  As shown in FIG. 1A, the information presenting unit 11 has a prescription reading unit 18 on the back 11c, and the prescription reading unit 18 reads prescription information or prescription ID from a liquid prescription (not shown) such as an injection. . The prescription reading unit 18 also serves as a prescription folder that holds a prescription for a liquid medicine such as an injection during a liquid mixture preparation operation.

  By reading with the prescription reading part 18, the control part 19 built in the base part 13 acquires at least one of mixing preparation information and mixing audit information.

  With this configuration, it is possible to correctly perform mixing preparation and mixing auditing according to prescription information. Further, since the chemical liquid prescription is held on the back portion 11c, it is possible to reduce the risk that the liquid chemical prescription on the paper is soiled with the chemical liquid or the like and the characters cannot be read during the mixing preparation work.

  A basic operation of the chemical liquid mixture inspection support system 10 configured as described above will be briefly described.

  When preparing a liquid medicine such as an injection to be applied to a patient, a mixing preparation worker such as a nurse first inserts a liquid medicine prescription such as an injection into the prescription reading unit 18. Then, the prescription reading part 18 reads prescription ID etc. from a chemical | medical solution prescription. Based on the prescription ID and the like read here, the medicinal solution mixing audit support system 10 acquires the used medicine bottle and mixing preparation information from the upper database (not shown) to the control unit 19. At this time, verification control information such as a person who mixes and prepares a liquid medicine such as an injection and a person who audits the liquid mixture prepared by using the camera 31 or an RFID reader (not shown) is also a control unit. 19 may be obtained. By acquiring these pieces of information, the worker can be authenticated.

  After acquiring medical information such as a prescription for liquid medicine such as an injection, mixed preparation information, and mixed audit information, information related to the mixed preparation of the injection (medical liquid) is displayed on the screen 11 a of the information presentation unit 11.

  FIG. 2 is a diagram illustrating an example of prescription information displayed on the screen 11a of the information presentation unit 11 of the chemical liquid mixture audit support system 10 according to the first embodiment of the present invention.

  In the screen 11a of the information presentation unit 11 shown in FIG. 2, in addition to the image information 11d of the medicine bottles 14a prepared in the medicine bottle mounting unit 14, the current part of the series of operations for mixing and preparing the chemicals is displayed on the upper part of the screen 11a. A work status display 11e is displayed. Also, at the bottom of the status display 11e, there are displayed a specific instruction display 11f, patient information 11g and drug solution information 11h regarding the work of mixing preparation. Based on the displayed various medical information, as shown in FIG. 1A, the medicine bottle 14a is mounted on the medicine bottle mounting portion 14 and arranged. In addition, the image information 11d of the medicine bottle 14a displayed on the screen 11a is a full-size photograph image of each medicine bottle (hereinafter referred to as “actual image”), and is displayed side by side in the order of mixing and preparation.

  With this configuration, when the medicine bottles 14a are aligned and mounted on the medicine bottle mounting section 14 of the base section 13 according to the mixing order, the medicine bottles 14a can be mounted while being compared with the actual image of the medicine bottle 14a. Therefore, for example, even when there are medicine bottles with similar names, it is easy to grasp visually, and safe and accurate mixing preparation without any mistake in the mixing order of medicine bottles can be realized. In addition, by confirming the status display 11e, the operator can easily confirm which step of the mixing preparation work is currently in, so that the work can be easily resumed even when there is a work interruption.

  Next, according to the instruction | indication of the screen 11a using a syringe (not shown), a predetermined amount of chemical | medical solution is attracted | sucked in a syringe from the instruct | indicated medicine bottle 14a. Further, a predetermined amount of the chemical solution is sucked into the syringe from another drug bottle 14a to be continuously sucked as necessary. Here, the predetermined amount of drug solution means one vial (1V) or one ampoule (1A) displayed as a dose as shown in FIG. 2, for example, the drug solution in each drug bottle is here. It shows that the whole amount is sucked.

  The drug solution sucked into the syringe is injected into an infusion bag (not shown) and mixed with physiological saline or the like in the infusion bag to obtain a mixed solution 12a (see FIG. 1 (b)). Such work may be performed using the mixing preparation area 13b of the base 13 adjacent to the medicine bottle mounting part 14 shown in FIG.

  When all the medicine bottles 14a are poured into the infusion bag and mixed, the information presentation unit 11 is tilted in the direction of the arrow 11b so that the screen 11a is at an angle close to the horizontal plane. And as shown in FIG.1 (b), the infusion bag 12 which mixed liquid 12a entered on the screen 11a is arrange | positioned. At this time, the display of the screen 11a is switched from the medical information such as the mixed preparation information by tilting the screen 11a (according to the inclination angle of the screen 11a) to display as the illumination unit. That is, as shown in FIG. 1B, a geometric pattern 15 is displayed on the screen 11a, and illumination light corresponding to the geometric pattern 15 is emitted from behind the infusion bag 12 arranged on the screen 11a. . Thereby, the foreign material 16 in the infusion bag 12, the product 17, etc. are found by visual inspection. Here, the foreign material 16 mainly refers to a black solid foreign material, for example, a part of the rubber plug by the injection needle when the injection needle is punctured into the rubber cap of the drug bottle 14a or the infusion bag 12. It refers to a rubber piece or the like generated by the coring phenomenon that is scraped off. The product 17 is mainly a white foreign substance, and refers to white turbidity or agglomerates of fine particles caused by a change in composition during mixing of chemicals.

  In the present invention, the illumination light of the geometric pattern 15 is irradiated from the back surface of the infusion bag 12 in order to make it easy to visually detect these foreign substances 16 and products 17.

  Thereby, if the white product 17 and the black foreign material 16 are present in the liquid mixture in the infusion bag 12, both can be reliably detected by the contrast difference from the geometric pattern 15.

  The geometric pattern 15 may be any pattern as long as the foreign matter 16 and the product 17 are easily found by inspection, and the color is not limited to a black and white pattern. The shape is not limited to the shape based on the shape.

  However, the foreign matter 16 in the mixed solution is often black and the product 17 is white. Therefore, as shown in FIG. 1B, the geometric pattern 15 is preferably a staggered pattern in which squares of white and black are alternately adjacent. By using this pattern, the foreign material 16 and the product 17 can be reliably detected with good contrast.

  Further, when the geometric pattern 15 shown in FIG. 1B is controlled so that the white and black patterns are periodically switched, the detection accuracy of the foreign matter 16 and the product 17 is further improved. This is because, even when the background of the black foreign material 16 is black and the background of the white product is white at the time of display in FIG. This is because it can be found when the color of the geometric pattern 15 is inverted.

  The geometric pattern 15 may be a lattice pattern in which white and black lattices are alternately adjacent as will be described later, or a strip-shaped pattern may be moved left and right or up and down on the screen 11a. . Furthermore, the geometric pattern 15 may be a pattern in which a lattice constituting a lattice pattern as a unit or a quadrangle constituting a staggered pattern is enlarged or reduced with the passage of time.

  Thereby, the foreign material 16 and the product 17 can be reliably detected in the mixed solution in the infusion bag 12 with higher contrast.

  In the first embodiment, the information presentation unit 11 is tilted in the direction of the arrow 11b so that the screen 11a is at an angle close to the horizontal plane, the infusion bag 12 is disposed on the screen 11a, and the infusion bag 12 Although the foreign matter 16 or the product 17 is detected, the inspection may be performed by holding the infusion bag 12 in front of the screen 11a without tilting the information presentation unit 11.

  In this case, when the inspector changes the geometric pattern 15 over time by causing the infusion bag 12 to move relative to the geometric pattern 15 displayed on the screen 11a, such as translation and rotation. The same effect can be obtained. On the other hand, when the geometric pattern 15 is changed with time, the infusion bag 12 can be stopped in front of the screen 11a, so that the medicine bottle 14a mounted on the medicine mounting unit 14 is brought down by changing the posture of the infusion bag 12. Can be prevented.

  Next, a chemical liquid mixture inspection method using the chemical liquid mixture inspection support system 10 of the first embodiment will be described.

  FIG. 3 is a flowchart of the chemical liquid mixture inspection method according to the first embodiment of the present invention. FIG. 4 is a side view showing a schematic configuration of the chemical liquid mixing test according to the first embodiment of the present invention.

  As shown in FIG. 3, the chemical liquid mixing and inspection method according to the first embodiment includes a mixing step S <b> 1 in which an injection sucked from the medicine bottle 14 a is injected into the infusion bag 12 and mixed, and the infusion bag 12 is connected to the information presentation unit 11. Are arranged adjacent to the screen 11a, an irradiation step S3 for irradiating light from the screen 11a to the infusion bag 12, and an inspection step S4 for inspecting the inside of the infusion bag 12. Here, as shown in FIG. 4, the irradiation step S <b> 3 is a step of irradiating light from the screen 11 a of the information presentation unit 11 used as the illumination unit 20 from the back 12 b of the infusion bag 12 as illumination light 21. The inspection step is a step of inspecting the foreign matter 16 or the product 17 in the infusion bag 12.

  And the chemical | medical solution mixing test | inspection method concerning this Embodiment 1 displays the geometric pattern 15 containing at least black on the screen 11a of the information presentation part 11, and irradiates the infusion bag 12 in the infusion bag 12 inside. This is a method for inspecting the foreign matter 16 or the product 17.

  As shown in FIG. 4, when the illumination light 21 from the screen 11 a passes through the mixed solution 12 a of the infusion bag 12, if there is no foreign matter 16 or product 17, the illumination light 21 passes while maintaining the light amount. However, if there is a product 17 such as white turbidity or agglomerates, the illumination light 21 is scattered or shielded by the product 17, so that the amount of light is reduced in the direction of the arrow 21a. Further, when the illumination light 21 is irradiated onto the foreign object 16 having a high reflectance, most of the illumination light 21 is reflected, and therefore the illumination light 21 does not come out in the direction of the arrow 21b.

  Thereby, when the liquid mixture 12a in the infusion bag 12 is observed from the upper part of the infusion bag 12 and inspected, the foreign matter 16 and the product 17 can be detected. Even with a simple apparatus configuration as shown in FIG. 4, both the foreign matter 16 and the product 17 can be reliably detected with high contrast.

  As shown in the flowchart of FIG. 3, the chemical liquid mixture inspection method of the first embodiment is a person who visually inspects the foreign matter 16 or the product 17 in the liquid mixture in the infusion bag 12 after the inspection step S4. A verification audit step S5 may be provided.

  By this method, the examination content can be reliably authenticated as a medical audit. In addition, a person who is visually inspected can be authenticated by the camera 31 disposed on the upper part of the information presentation unit 11 shown in FIG. 1A or a verification inspection unit (not shown) such as an iris authentication device. preferable.

  Next, an example of the geometric pattern 15 used in the chemical liquid mixture detection method of the first embodiment will be specifically described. 5 to 8 are diagrams showing an example of the geometric pattern 15 used in the chemical liquid mixture inspection method according to the first embodiment of the present invention.

  The geometric pattern 15 in FIG. 5 is a diagram illustrating an example of a staggered pattern in which white squares 15a and black squares 15b are alternately adjacent. Thereby, when the white square 15a overlaps behind the black foreign matter 16 and illumination light (not shown) is irradiated, the foreign matter 16 can be reliably detected with good contrast. On the other hand, when the black square 15b overlaps behind the white product 17 and illumination light (not shown) is irradiated, the product 17 can be reliably detected with good contrast.

  Note that the white square 15a and the black square 15b of the staggered pattern may be interchanged periodically. As a result, even if the background of the black foreign material 16 is black and the background of the white product 17 is white, these black and white colors are periodically inverted, so the color of the geometric pattern 15 is When it is inverted, it can be reliably detected with good contrast.

  6A and 6B are diagrams showing examples of lattice patterns in which white strip-like lattices 15c and black strip-like lattices 15d are alternately adjacent to each other. FIG. 6A and FIG. 6B show examples in which the patterns of white and black are interchanged with each other. This replacement may be performed periodically as time passes.

  By this method, when the foreign matter 16 and the product 17 are present in the mixed solution in the infusion bag 12, the same effect as described above can be reliably detected with good contrast.

  7 (a), 7 (b) and 8 (a), 8 (b), the strip-like pattern as the geometric pattern 15 is left and right on the screen 11a (FIG. 7 (a), (b)) or The example of the method of moving up and down (FIG. 8 (a), (b)) is shown.

  According to this method, when the strip-shaped pattern scans the infusion bag 12, the eye of the inspector (a person who visually inspects) looks at the strip-shaped pattern, and a part of the infusion bag 12 on which this pattern is projected. We will pay close attention to this area. Thereby, since the oversight when the foreign material 16 and the product 17 exist in the liquid mixture of this area | region in the infusion bag 12 disappears, they can be detected more reliably.

  Instead of the method shown in FIGS. 7 and 8, the grids 15c and 15d constituting the grid pattern or the quadrilaterals 15a and 15b constituting the staggered pattern may be enlarged or reduced over time.

  By this method, if foreign matter 16 or product 17 is present in the liquid mixture in infusion bag 12, it can be reliably detected with good contrast regardless of its size. That is, by enlarging or reducing the area of the geometric pattern 15 over time, even a small foreign object 16 can be easily inspected. Further, by enlarging or reducing the area of the geometric pattern 15, it becomes easy to inspect the product 17 such as white turbidity spreading in a certain region.

  FIG. 9 is a plan view showing a schematic configuration of another chemical liquid mixture inspection support system 30 according to the first embodiment of the present invention.

  9 is different from the chemical liquid mixture audit support system 10 shown in FIG. 1A, the information presentation unit 11 and the base unit 13 are not separately configured, and the information presentation unit 11 It is arranged on a part of the surface 13 a of the base part 13. Therefore, the surface 13a of the base part 13 can be used as both the mixing and preparing area 13b and the screen 11a of the information presentation part 11. Thereby, the infusion bag 12 is placed on the screen 11a arranged on a part of the surface 13a, and illumination light (not shown) of the geometric pattern 15 is transmitted from the back of the infusion bag 12 through the screen 11a and irradiated. If it does so, the foreign material 16 or the product 17 in the infusion bag 12 can be test | inspected.

  With this configuration, the information presentation unit 11 does not have to be provided separately from the base unit 13, so that a more compact and low-cost chemical solution mixing audit support system 30 can be realized.

(Embodiment 2)
FIG. 10 is a perspective view showing a schematic configuration of the chemical liquid mixture inspection support system 40 according to the second embodiment of the present invention. In addition to the components of the chemical liquid mixture inspection support system 10 of the first embodiment shown in FIG. 1A, the chemical liquid mixture inspection system 40 includes an infusion bag mounting part 41, a cradle part 42, a verification inspection part 43, It has. Here, the infusion bag mounting portion 41 is for mounting the infusion bag 12, and the cradle portion 42 is for holding a syringe drive device 45 that holds and drives the syringe 44. The verification inspection unit 43 performs verification inspection of a person who inspects a foreign matter such as a black solid or a white product in the infusion bag 12.

  With this configuration, all the components necessary for the preparation and mixing inspection of chemicals and the inspection of foreign substances are provided, so that it is possible to realize a compact and low-cost chemical mixing audit support system 40 that can efficiently perform these operations and inspections.

  That is, as shown in FIG. 10, for information on a liquid medicine such as an injection to be applied to a patient, the prescription 18a may be read from the prescription reading unit 18, or the prescription ID printed on the prescription 18a is read. May be read and sent to the medical information database 46, and the corresponding prescription information may be taken into the control unit 19 from the medical information database 46.

  Moreover, when a chemical | medical solution is attracted | sucked from the medicine bottle 14a, the chemical | medical solution is attracted | sucked to the syringe 44 hold | maintained using the syringe drive device 45 hold | maintained at the cradle part 42. FIG. When mixing and injecting into the infusion bag 12, the needle of the syringe 44 is inserted into the spout stopper 12c of the infusion bag 12 that is mounted on the infusion bag mounting portion 41 and supported by the support portion 41a. inject. Thereby, the liquid mixture 12a of the chemical solution is generated in the infusion bag 12.

  When inspecting the foreign matter or product in the infusion bag 12, as in the case shown in FIG. 1B, the information presentation unit 11 is tilted in the direction of the arrow 11b so that the screen 11a is substantially close to the horizontal plane. Later, the infusion bag 12 is placed on the screen 11a for inspection.

  The syringe drive device 45 may be always held by the cradle unit 42 when not in use, and at this time, the cradle unit 42 may be charged. Further, the medical information database 46 can perform data communication with the control unit 19 as necessary for medical information such as audit information other than prescription information and mixed preparation information. The control unit 19 can acquire these pieces of information and control each component, and can transmit and store the medical information acquired by each component to the medical information database 46.

  FIG. 11 is a flowchart of the chemical liquid mixture inspection method according to the second embodiment of the present invention. The flowchart of the chemical liquid mixture inspection method of the second embodiment has the same steps as the flowchart of the first embodiment shown in FIG.

  By this method, when the inspection is performed by observing the mixed solution 12a of the infusion bag 12 from the upper part of the infusion bag 12, the foreign matter 16 and the product 17 can be reliably detected with good contrast. In addition, the examination content can be reliably authenticated as a medical audit.

  Since the mixing step S1 to the verification inspection step S5 shown in FIG. 11 are performed in the same steps as the contents described in the first embodiment, detailed description thereof is omitted.

  With the above configuration, the chemical liquid mixture audit support system 40 according to the second embodiment has all the components necessary for mixing and auditing chemical liquids such as injections. It is possible to mix and prepare chemicals safely and accurately. Moreover, since the chemical | medical solution mixing audit assistance system 40 is gathered compactly and connected with the medical information database 46, it is a system which is rich in portability.

  By using the chemical liquid mixture audit support system and chemical liquid mixture inspection method of the present invention, pharmacists and nurses can handle chemicals safely and accurately, greatly reducing the workload of nurses and pharmacists in hospitals, etc. It is also useful because it can also ensure the safety of the patient to whom the injection is applied.

10, 30, 40 Chemical solution mixing audit support system 11 Information presentation unit 11a Screen 11b, 21a, 21b Arrow 11c Back 11d Image information 11e Status display 11f Instruction display 11g Patient information 11h Drug solution information 12 Infusion solution 12a Mixed solution 12b Behind 12c Note Exit stopper 13 Base part 13a Surface 13b Mixing preparation area 14 Medicine bottle mounting part 14a Medicine bottle 15 Geometric pattern 15a, 15b Rectangle 15c, 15d Grid 16 Foreign object 17 Product 18 Prescription reading part 18a Prescription 19 Control part 20 Illumination part 21 Illumination light 31 Camera 41 Infusion bag mounting part 41a Support part 42 Cradle part 43 Verification inspection part 44 Syringe 45 Syringe drive device 46 Medical information database

Claims (16)

A base for mixing the chemicals in the vial,
A medicine bottle mounting portion provided on the base for mounting the medicine bottle;
An information presentation unit for displaying the mixing information of the chemical solution on a screen;
A control unit that changes the display of the screen from the mixed information to a geometric pattern based on the angle of the information presenting unit,
Chemical liquid mixing support system. A base for mixing the chemicals in the vial,
A medicine bottle mounting portion provided on the base for mounting the medicine bottle;
An information presentation unit for displaying the mixing information of the chemical solution on a screen;
A control unit that changes the display of the screen from the mixed information to a geometric pattern based on an external input,
Chemical liquid mixing support system. The information presentation unit is disposed on a part of the surface of the base unit.
The chemical | medical solution mixing assistance system of Claim 2. The geometric pattern is a lattice pattern in which white and black lattices are alternately adjacent to each other.
The chemical | medical solution mixing assistance system of any one of Claim 1 to 3. The geometric pattern is a staggered pattern in which white and black rectangles are alternately adjacent.
The chemical | medical solution mixing assistance system of any one of Claim 1 to 3. The geometric pattern is a pattern in which a strip-shaped pattern moves left and right or up and down on the screen.
The chemical | medical solution mixing assistance system of any one of Claim 1 to 3. The geometric pattern is a pattern in which white and black patterns are periodically switched.
The chemical | medical solution mixing assistance system of any one of Claim 1 to 6. The lattice pattern or the staggered pattern is a pattern whose area is enlarged or reduced over time,
The chemical | medical solution mixing assistance system of Claim 4 or 5. The information presenting unit has a prescription reading unit on its back, and reads mixed prescription information or prescription ID to acquire mixed information by a control unit built in the base unit.
The chemical | medical solution mixing assistance system of Claim 1 or 2. An infusion bag mounting portion for placing the infusion bag;
A cradle part for holding a syringe drive device for driving the held syringe;
An audit verification unit for audit verification of surrounding people,
The chemical | medical solution mixing assistance system of any one of Claim 1 to 9. For the infusion bag that is arranged substantially parallel to the screen surface of the information presentation unit and in which the drug solution is mixed based on the mixing information of the screen, the infusion bag is used with the light according to the geometric pattern of the screen as illumination light. Irradiated,
Inspecting foreign matter or products in the infusion bag by irradiating the infusion bag,
Chemical liquid mixing inspection method. The geometric pattern is a lattice pattern in which white and black lattices are alternately adjacent to each other.
The chemical | medical solution mixing test | inspection method of Claim 11. The geometric pattern is a staggered pattern in which white and black rectangles are alternately adjacent.
The chemical | medical solution mixing test | inspection method of Claim 11. The geometric pattern is a pattern in which a strip-shaped pattern moves left and right or up and down on the screen.
The chemical | medical solution mixing test | inspection method of Claim 11. The geometric pattern is a pattern in which white and black patterns are periodically switched.
The chemical | medical solution mixing test method of any one of Claim 12 to 14. The lattice pattern or the staggered pattern is a pattern whose area is enlarged or reduced over time,
The chemical | medical solution mixing test method of Claim 12 or 13.

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