WO2014203749A1 - Prescription input device and method - Google Patents

Abstract

Provided are a prescription input device and method that are able to reduce the labor of the task of inputting and to prevent errors when inputting drug names. In one embodiment of the present invention, a drug prescription is read optically, and a first drug name indicating the name of a drug designated by the prescription is acquired. Recorded information recorded on the packaging of the drug is read, and a second drug name indicating the name of the drug prescribed to the patient is acquired. A matching is performed as to whether or not the active ingredient of the drug corresponding to the first drug name acquired by a first drug name acquisition unit matches the active ingredient of the drug corresponding to the second drug name acquired by a second drug name acquisition unit. At least one of the first drug name and second drug name that do not match in the matching is displayed. Formulation information is generated on the basis of data input to a reception unit that receives the input of the contents of a prescription. The formulation information containing the second drug name is generated when the active ingredient of the drug of the first drug name and the second drug name match in the matching.

Description

Prescription input device and method

The present invention relates to a prescription input device and method used for inputting prescription data.

In the insurance pharmacy, the pharmacist picks the medicine and dispenses it according to the prescription brought by the patient. At this time, since there are many names that are very similar to the medicine, a dispensing error may occur. For this reason, Patent Document 1 collates an image obtained by imaging a medicine package picked by a pharmacist with a plurality of reference images stored in advance in a database in order to recognize the name of the medicine. Thus, there is disclosed a medicine recognition device that determines whether or not a picked medicine is correct.

In Patent Documents 2 and 3, the name of a drug is determined based on an image obtained by imaging the drug, and the suitability of the name of the drug is determined based on the determination result and prescription information input from the outside. Dispensing auditing apparatus for judging the above is disclosed.

By the way, the insurance pharmacy prepares a dispensing remuneration bill (receipt) and submits it to the insurance organization in order to claim the prescription drug fee and dispensing technology fee. Receipts are created using a receipt computer, and an insurance pharmacy operator reads and inputs the contents of prescriptions (name / quantity of prescription drugs, names and locations of medical institutions, etc.). Currently, dispensing is performed according to the instructions of the receipt computer, and prevention of input errors is becoming increasingly important. However, as described above, since there are many names that are very similar to each other, an input error is likely to occur, and the time required for the pharmacist to confirm the input increases. Furthermore, the labor of input work, such as taking time for input work in order to prevent an input mistake, is increasing.

In Patent Document 4 and Patent Document 5, prescription data is optically read as an image, character recognition is performed on this image to obtain prescription data (dispensing information) for receipt request, and prescription data is stored in a database. A prescription information input device for registration is disclosed. Since the prescription data recognized by the character recognition can be automatically registered, the labor of input work can be reduced.

In Patent Document 6, an image of a prescription is optically read, each character cut out from this image is recognized to generate a character code string, and this character code string is checked against a registered word registered in advance. In this case, a character recognition processing method is disclosed that enables recognition and collation of simple names by limiting characters to be collated among the constituent characters of registered words. By performing character recognition, it is possible to reduce the labor of input work as in Patent Document 4 and the like.

JP 2004-167158 A JP 2013-70752 A JP 2013-42795 A JP 2001-306697 A JP 2001-318987 A JP 2005-275510 A

However, since the name of the drug described in the prescription can be omitted within a range where it can be specified, it may be omitted depending on the convenience of each medical institution. The prescription may be created by hand. For this reason, the character recognition described in Patent Document 4 to Patent Document 6 cannot obtain sufficient accuracy and cannot cope with a recognition error in character recognition.

Also, insurance pharmacies sometimes prescribe prescription drugs in place of the drugs specified in the prescription. In such a case, since the name of the medicine specified in the prescription and the name of the medicine prescribed to the patient are different, the medicine recognized by the character recognition described in Patent Literature 4 to Patent Literature 6 The name of the drug cannot be registered in the receipt computer, and the operator needs to input the drug name or the like. For this reason, there is a possibility that an input error of the drug name may still occur.

An object of the present invention is to provide a prescription input apparatus and method capable of preventing a mistake in inputting a drug name and reducing the labor of input work.

The prescription input device for achieving the object of the present invention obtains a first drug name indicating a name of a medicine designated by a prescription based on a reading result obtained by optically reading a medicine prescription. An acquisition unit and a second drug name acquisition unit that acquires a second drug name indicating the name of the drug prescribed to the patient based on the reading result obtained by reading the record information recorded on the package of the drug prescribed to the patient And whether the active ingredient of the medicine corresponding to the first medicine name acquired by the first medicine name acquisition part matches the active ingredient of the medicine corresponding to the second medicine name acquired by the second medicine name acquisition part A first display unit that displays at least one of the first drug name and the second drug name when there is a collation unit that collates whether there is a first drug name and a second drug name that do not match in the collation by the collation unit And verification by the verification unit When the active ingredient of the drug of the first drug name and the second agent names match, comprises a dispensing information generation unit for generating a dispensing information including a second agent name, the.

According to the present invention, dispensing information can be generated based on the second medicine name acquired from the medicine packaging. Even if the drug specified in the prescription and the drug prescribed to the patient are different, such as when prescribing a generic drug that has the same active ingredient as the drug specified in the prescription Dispensing information corresponding to the name of the medicine prescribed to the patient (second medicine name) can be automatically generated. Moreover, even when the abbreviation of the medicine is described in the prescription or when the prescription is a handwritten, dispensing information can be generated without performing an operation of inputting the second medicine name by the operator.

The first drug name acquisition unit includes a drug name database storing drug names, and the first drug name acquisition unit refers to the drug name database based on at least a part of the drug name optically read from the prescription. It is preferable to obtain a name. Thereby, a 1st chemical | medical agent name can be acquired based on the reading result of a prescription.

It is preferable that the second drug name acquisition unit acquires the second drug name by referring to the drug name database based on at least a part of the drug name read from the package as the record information. Thereby, the 2nd medicine name can be acquired based on the reading result of packaging.

It is preferable to include a second display unit that displays a plurality of candidates and a reception unit that receives a candidate selection operation when the first drug name acquisition unit determines that there are a plurality of candidates for the first drug name. . Thereby, even when the first drug name cannot be specified, the first drug name can be selected from candidates similar to the first drug name.

The medicine information database which memorize | stored the information which shows the corresponding relationship of an original medicine and a generic medicine is provided, and the collation part refers to the medicine information database, and the medicine which has the 2nd medicine name is the same as the medicine which has the 1st medicine name When the drug is an active ingredient, it is preferable to determine that the first drug name and the second drug name match. As a result, even when a generic drug having the same active ingredient is picked by a pharmacist or the like instead of the drug specified in the dispensing information, the first drug name and the second drug name are correctly matched / mismatched. Can be determined.

It is preferable that the second medicine name acquisition unit optically reads the recorded information recorded on the packaging of the medicine picked by the picking operation based on the prescription. Thereby, a 2nd chemical | medical agent name is acquirable based on the recording information currently recorded on the packaging of a chemical | medical agent.

It is preferable that the second medicine name acquisition unit optically reads the record information recorded on the medicine packaging before being put into the packaging machine for packaging the medicine.

It is preferable that the first medicine name acquisition unit optically reads a handwritten prescription.

It is preferable that the first drug name and the second drug name include the component amount of the drug. Accordingly, it is possible to accurately determine whether the first drug name and the second drug name coincide with each other in consideration of the component amount of the drug.

A prescription input method for achieving the object of the present invention is based on a reading result obtained by optically reading a prescription of a medicine, and obtains a first medicine name indicating the name of the medicine specified by the prescription. An acquisition step and a second drug name acquisition step for acquiring a second drug name indicating the name of the drug prescribed to the patient based on the read result obtained by reading the record information recorded on the packaging of the drug prescribed to the patient And whether the active ingredient of the medicine corresponding to the first medicine name acquired in the first medicine name acquisition step matches the active ingredient of the medicine corresponding to the second medicine name acquired in the second medicine name acquisition step. A table that displays at least one of the first drug name and the second drug name when there is a collation step for collating and a first drug name and a second drug name that do not match in the collation of the collation step A step, when the active ingredient of the drug of the first drug name and the second agent by name collation matching step matches, has a dispensing information generating step of generating a dispensing information including a second agent name, the.

The prescription input device and method according to the present invention can prevent mistakes in inputting the name of a medicine and reduce the labor of input work.

It is the schematic of a prescription input device. It is a block diagram which shows the electric constitution of a receipt computer. It is explanatory drawing for demonstrating acquisition of the 1st medicine name by the 1st medicine name acquisition part. It is explanatory drawing for demonstrating the selection process of the 1st chemical | medical agent name candidate. It is explanatory drawing for demonstrating the collation process by a collation part. It is explanatory drawing for demonstrating the production | generation process of the display of a display part when a 1st chemical | medical agent name and a 2nd chemical | medical agent name correspond as a result of collation by a collation part, and the dispensing information generation part. It is explanatory drawing for demonstrating the display of a display part when a 1st chemical | medical agent name and a 2nd chemical | medical agent name do not correspond as a result of collation by a collation part. It is a flowchart for demonstrating the effect | action of a prescription input device.

<Configuration of prescription input device>
As shown in FIG. 1, the prescription input device 10 is provided, for example, in an insurance pharmacy, and is used for receiving a claim. The prescription input device 10 includes a first camera 12 that forms part of the first medicine name acquisition unit of the present invention, a second camera 13 that forms part of the second medicine name acquisition unit of the present invention, and a receipt. The computer 14 and the display part 15 which comprises the 1st display part and 2nd display part of this invention are provided.

The first camera 12 images the prescription 17 brought by the patient, thereby optically reading the contents of the prescription 17 (names of prescription drugs, etc.), and receiving the image data 18 (read result) of the prescription 17 as a receipt computer. 14 to output. The prescription 17 includes a handwritten letter. Note that various optical readers such as a scanner capable of reading the contents of the prescription 17 may be used instead of the first camera 12.

The second camera 13 is recorded in the packaging 23 (PTP sheet, bottle, bottle, etc.) of the medicine 22 picked from the medicine shelf 20 (an automatic picking apparatus may be used) by the pharmacist based on the prescription 17 in the picking work. The recorded information 24 is imaged. The recorded information 24 is drug type information indicating the name (drug type, component amount, etc.) of the drug 22 such as electronic identification information recorded on characters, bar codes, RF tags, and the like. The imaging by the second camera 13 is performed before execution of the single-packing dispensing by the packaging machine 26, that is, before the pharmacist takes out the medicine 22 from the packaging 23 and puts it into the packaging machine 26. The second camera 13 outputs image data 27 (reading result) of the package 23 including the recorded information 24 to the receipt computer 14. If the recorded information 24 is a barcode, a barcode reader may be used as the second camera 13. Further, when the record information 24 is recorded on the RF tag, an RF tag reader may be used instead of the second camera 13.

The receipt computer 14 is connected to the first camera 12, the second camera 13, the display unit 15, and the printer 28. The receipt computer 14 uses the contents of the prescription 17 input by a pharmacist or an operator, and the image data 18 and 27 respectively input from the first camera 12 and the second camera 13 to prepare dispensing information used for the receipt request. Is generated. The receipt computer 14 collates the name of the medicine 22 specified by the prescription 17 with the name of the medicine 22 picked by the pharmacist based on the image data 18 and 27, and displays the result of collation on the display unit 15. Output. Further, the receipt computer 14 outputs dispensing information and a receipt to the printer 28 in accordance with an operation such as a pharmacist or an operator.

As shown in FIG. 2, the receipt computer 14 includes an operation reception unit (reception unit) 30, a first OCR processing unit 31, a drug name database (hereinafter abbreviated as drug name DB) 32, and a first drug name acquisition unit. 33, second OCR processing unit 34, second drug name acquisition unit 35, drug information database (hereinafter abbreviated as drug information DB) 36, collation unit 37, dispensing information generation unit 38, and dispensing information storage unit 40.

The operation reception unit 30 is a user interface such as a keyboard, and is used for operating the receipt computer 14. The operation accepting unit 30 accepts input of the contents of the prescription 17 by an insurance pharmacy operator or the like.

The first OCR processing unit 31 performs OCR processing on the image data 18 input from the first camera 12, so that characters included in the image based on the image data 18 (specifically, recorded on the prescription 17 are recorded). Is recognized). For example, the first OCR processing unit 31 recognizes each character cut out from the image, generates a character code string, and collates this character code string with a registered word stored in advance to determine a matching word. Then, character recognition is performed. The character recognition method is not particularly limited, and various known methods may be used. The first OCR processing unit 31 outputs the character recognition result 42 (see FIG. 3) to the first medicine name acquisition unit 33. This character recognition result 42 includes at least a part of the name of the medicine 22 that can be read from the prescription 17.

As shown in FIG. 3, names of various drugs 22 handled by the insurance pharmacy are registered in the drug name DB 32. The “name” of the drug 22 here includes the drug name (Japanese, foreign language) of the drug 22 and the component amount of the drug 22. In addition, the “abbreviation” in which the name of the medicine 22 is omitted within a range in which the name of the medicine 22 can be specified is registered in association with the medicine name of the medicine 22. And "the name is the same" of the medicine 22 means that the medicine name (abbreviation) and the component amount are the same. Further, “the names are not identical” of the medicine 22 means that at least one of the medicine name (abbreviation) and the component amount is not identical. Therefore, even if the drug names are the same, the names of the drugs 22 are not the same if the component amounts are different.

The 1st medicine name acquisition part 33 constitutes the 1st medicine name acquisition part of the present invention with the above-mentioned first camera 12 and the 1st OCR processing part 31. The first medicine name acquisition unit 33 refers to the medicine name DB 32 based on the character recognition result 42 input from the first OCR processing unit 31 and indicates the name of the medicine 22 specified by the prescription 17. To get.

Specifically, the first medicine name acquisition unit 33 extracts a search key 45 that can specify the medicine 22 from the medicine name DB 32. For example, if the medicine 22 is “A potassium: 50 mg”, “A potassium”, “A Potassium”, “A”, and “50 mg” are extracted as the search key 45. Next, the first medicine name acquisition unit 33 collates the search key 45 with a character string extracted from the character recognition result 42 (for example, displayed with a dotted frame in the drawing). This collation can be performed by, for example, normalized correlation matching. Next, the first medicine name acquisition unit 33 extracts the search key 45 that can specify the next medicine 22 (B potassium, 100 mg) from the medicine name DB 32 and collates it with the character string extracted from the character recognition result 42.

Hereinafter, similarly, the first medicine name acquisition unit 33 extracts the search keys 45 that can specify the remaining medicines 22 from the medicine name DB 32 and performs matching with the character strings. And the 1st medicine name acquisition part 33 acquires from the medicine name DB32 the name of medicine 22 judged (for example, the collation value is more than a predetermined 1st threshold or more) in each collation as the 1st medicine name. The first medicine name acquisition unit 33 outputs the first medicine name acquisition result 48 (see FIG. 5) to the collation unit 37. The first threshold value is set to a value with which it can be determined that the character string surely matches the search key 45.

On the other hand, the first medicine name acquisition unit 33, for the character string whose collation value with each search key 45 is less than the first threshold value, for the drug 22 corresponding to all the search keys 45 whose collation value is greater than or equal to the second threshold value. The name is acquired from the drug name DB 32 as a candidate for the first drug name. Then, the first medicine name acquisition unit 33 outputs all candidates to the display unit 15. The second threshold value is set to a value at which it can be determined that the character string is similar to the name of the medicine 22 corresponding to the search key 45. Thus, for example, when the character strings are “potassium” and “50 mg”, “A potassium 50 mg”, “B potassium 50 mg”, “C potassium 50 mg”,... The information is output from the first medicine name acquisition unit 33 to the display unit 15.

As shown in FIG. 4, the display unit 15 displays each candidate for the first drug name and also displays a selection screen that prompts selection of the first drug name from each candidate. Thereby, it is possible to prompt a pharmacist or an operator (hereinafter referred to as a pharmacist or the like) to select a first drug name from each candidate. The selection of the first medicine name is performed by the operation reception unit 30.

Note that the first medicine name acquisition unit 33 determines that the name and candidate of the medicine 22 cannot be acquired for a character string whose collation value with each search key 45 is less than the second threshold value. In this case, the first medicine name acquisition unit 33 outputs acquisition error information (not shown) indicating that there is a character string from which the name and candidate of the medicine 22 cannot be acquired to the display unit 15.

Returning to FIG. 2, the second OCR processing unit 34 performs an OCR process on the image data 27 input from the second camera 13, so that characters included in the image based on the image data 18 (specifically, The name of the medicine 22 recorded on the package 23 is recognized. Note that the same character recognition method as that of the first OCR processing unit 31 described above may be used. The second OCR processing unit 34 outputs the character recognition result 47 to the second medicine name acquisition unit 35. This character recognition result 47 includes at least a part of the name of the picked medicine 22. Note that when the recorded information 24 is a bar code or is recorded on an RF tag, the second OCR processing unit 34 is not necessary, and the second medicine name acquisition unit 35 reads the barcode or RF tag reading result. To obtain the second medicine name.

The 2nd medicine name acquisition part 35 constitutes the 2nd medicine name acquisition part of the present invention with the above-mentioned 2nd camera 13 and the 2nd OCR processing part 34. The second medicine name acquisition unit 35 refers to the medicine name DB 32 based on the character recognition result 47 input from the second OCR processing unit 34, and inputs the name of the medicine 22 picked by the pharmacist or the like (which is input to the packaging machine 26). A second medicine name indicating the name of the medicine 22 is acquired.

Specifically, the second medicine name acquisition unit 35 performs collation similar to that of the first medicine name acquisition unit 33 described above, and uses the name of the medicine 22 determined to be the same in each collation as the second medicine name. Obtain from DB32. And the 2nd medicine name acquisition part 35 outputs acquisition result 50 (refer to Drawing 5) of the 2nd medicine name to collation part 37.

Further, even when the second medicine name acquisition unit 35 determines that there is no first medicine name in each collation (collation value <first threshold), the second medicine name candidate (second threshold ≦ collation value <first If there is one threshold), all candidate names are output to the display unit 15. Thereby, as shown in FIG. 5, display of each candidate for the second medicine name and a selection screen for prompting selection of the second medicine name from each candidate are displayed on the display unit 15. Furthermore, the second medicine name acquisition unit 35 outputs acquisition error information to the display unit 15 when determining that there is no second medicine name or its candidate.

As shown in FIG. 5, the drug information DB 36 includes generic drug information indicating the correspondence between the name of the drug 22 (drug name, component amount) and the original drug and generic drug (generic drug) having the same active ingredient. Are stored in advance in association with each other. In the “drug name” column and “component amount” column in the figure, the drug name and component amount of the drug 22 are recorded, respectively. In the “generic drug information” column, if the drug 22 is a generic drug, the drug name of the generic drug is recorded. As a result, by referring to the drug information DB 36, it is possible to determine the original drug or the generic drug of the drug 22.

The collation unit 37 refers to the drug information DB 36 and acquires the first drug name acquisition result 48 input from the first drug name acquisition unit 33 and the second drug name input from the second drug name acquisition unit 35. The acquisition result 50 is collated. Then, the collation unit 37 determines that the acquisition result 48 and the acquisition result 50 are the same when all of the first drug names included in the acquisition result 48 and all of the second drug names included in the acquisition result 50 match. It is determined that they match. In this case, the collation part 37 outputs a collation result to the display part 15 and the dispensing information generation part 38, respectively.

Moreover, the collation part 37 is the case where the at least 1 1st medicine name of the acquisition result 48 and the at least 1 2nd medicine name of the acquisition result 50 do not correspond, ie, one of a 1st medicine name and a 2nd medicine name. When there is no corresponding other, it is determined that the acquisition result 48 and the acquisition result 50 do not match. In this case, the collation unit 37 outputs a collation result including the first drug name and the second drug name that do not match to the display unit 15 and the dispensing information generation unit 38.

At this time, the collation unit 37 refers to the drug information DB 36 as a result of referring to the drug information DB 36 even if the first drug name and the second drug name do not match, the drug 22 having the second drug name changes the first drug name. In the case of a generic drug (which may be a generic drug) having the same active ingredient as the drug 22 it has, it is determined that the two match. If the drug 22 having the second drug name is not the generic drug or the like of the drug 22 having the first drug name, but is the same kind of the same effect drug having the same effective segment, it is determined that the two match. . In this case, information indicating the correspondence relationship between the same-type same-effect drugs is stored in advance in the drug information DB 36.

As shown in FIG. 6, when the collation result that the acquisition result 48 and the acquisition result 50 match is input from the collation unit 37, the display unit 15 inputs the content of the prescription 17 together with the collation result. A display prompting the user to execute the input operation is displayed. This input execution operation is executed by the operation receiving unit 30.

Moreover, as shown in FIG. 7, when the collation result that the 1st chemical | medical agent name and the 2nd chemical | medical agent name do not correspond is input from the collation part 37 as shown in FIG. 2 A warning display including the drug name is displayed. Thereby, for example, an error in picking the medicine 22 by the pharmacist, an acquisition error of the first medicine name and the second medicine name, and the like can be warned to the pharmacist. In FIG. 7, both the corresponding first drug name and second drug name are displayed, but at least one of the first drug name and the second drug name may be displayed.

Returning to FIG. 6, the dispensing information generation unit 38 is connected to the printer 28, the operation receiving unit 30, the verification unit 37, and the dispensing information storage unit 40. The dispensing information generation unit 38 makes a claim request based on the data (first drug name, usage, etc.) indicating the contents of the prescription 17 input to the operation receiving unit 30 and the verification result of the verification unit 37. Dispensing information 52 to be used is generated.

Specifically, when the collation result that the acquisition result 48 and the acquisition result 50 match is input from the collation unit 37, the dispensing information generation unit 38 sets the first medicine name specified in the prescription 17. Instead, the dispensing information 52 including the second medicine name based on the acquisition result 50 is generated. That is, dispensing information 52 including the name of the medicine 22 actually picked by the pharmacist according to the prescription 17 is generated.

For example, when A potassium, B potassium, C potassium, and D potassium are specified in prescription 17, the pharmacist picks generic drug X instead of C potassium, and generic drug Y instead of D potassium. In this case, the first drug name and the second drug name are partially different. In such a case, the dispensing information generation unit 38, if the active ingredients of the drug 22 having the first drug name and the second drug name match, the second drug name “A potassium” based on the acquisition result 50. , B potassium, generic drug X, generic drug Y "is generated.

On the other hand, when a collation result indicating that the acquisition result 48 and the acquisition result 50 do not match is input from the collation unit 37, the dispensing information generation unit 38, the picking error by the pharmacist or the like, the first drug name, Since there is a possibility that an error has occurred in the acquisition of the second medicine name, the dispensing information 52 is not generated. Instead of generating the dispensing information 52, the dispensing information generating unit 38 may generate the dispensing information 52 including the first medicine name of the prescription 17 input to the operation receiving unit 30 previously.

The dispensing information generation unit 38 outputs the generated dispensing information 52 to the dispensing information storage unit 40 and the printer 28 when an input execution operation is performed in the operation reception unit 30. The dispensing information storage unit 40 stores dispensing information 52 for each patient. The printer 28 prints the dispensing information 52. The print of the dispensing information 52 is used, for example, for patient compliance instruction.

<Operation of prescription input device>
Next, the operation of the prescription input device 10 having the above configuration will be described with reference to FIG. When the pharmacist or the like receives the prescription 17 from the patient, the pharmacist operates the operation receiving unit 30 to input the contents of the prescription 17 to the receipt computer 14 (step S1). Data indicating the contents of the prescription 17 is input from the operation reception unit 30 to the dispensing information generation unit 38.

Next, the pharmacist or the like sets the prescription 17 in front of the first camera 12 and then inputs an imaging execution instruction to the operation reception unit 30. Thereby, the 1st camera 12 images the prescription 17, and the content of the prescription 17 is optically read by the 1st camera 12 (step S2). The first camera 12 outputs the image data 18 of the prescription 17 to the first OCR processing unit 31.

The first OCR processing unit 31 performs OCR processing on the image data 18 input from the first camera 12 (step S3). Thereby, the character string (medicine name, component amount, etc.) included in the image based on the image data 18 is recognized by the first OCR processing unit 31, and the character recognition result is transferred from the first OCR processing unit 31 to the first drug name acquisition unit 33. 42 is output.

After the input of the character recognition result 42, the first medicine name acquisition unit 33 extracts a search key 45 that can identify each medicine 22 from the medicine name DB 32 as shown in FIG. The character string extracted from the recognition result 42 is collated (step S4). And the 1st medicine name acquisition part 33 acquires the name of medicine 22 whose collation value becomes more than the 1st threshold in each collation from medicine name DB32 as the 1st medicine name (Step S5, the 1st medicine name acquisition step) ).

In addition, although illustration is abbreviate | omitted in FIG. 8, the 1st chemical | medical agent name acquisition part 33 searches with a collation value becoming more than a 2nd threshold value about the character string whose collation value with each search key 45 is less than a 1st threshold value. The candidate of the 1st medicine name for every key 45 is acquired from medicine name DB32. Then, the first medicine name acquisition unit 33 outputs all candidates to the display unit 15. Thereby, as shown in FIG. 4, each candidate of the first medicine name is displayed on the display unit 15. Then, when a pharmacist or the like performs the selection operation of the first drug name at the operation reception unit 30, the first drug name acquisition unit 33 acquires the candidate selected by the selection operation as the first drug name.

Also, the first medicine name acquisition unit 33 determines that the name and candidate of the medicine 22 cannot be acquired for a character string whose collation value with each search key 45 is less than the second threshold value. In this case, the first medicine name acquisition unit 33 outputs acquisition error information indicating that there is a character string from which the name and candidate of the medicine 22 cannot be acquired to the display unit 15. Thereby, the acquisition error information is displayed on the display unit 15. In this case, when the pharmacist or the like inputs the first drug name corresponding to the corresponding character string in the operation reception unit 30, the first drug name acquisition unit 33 acquires the first drug name.

The first drug name acquisition unit 33 outputs the acquisition result 48 of the first drug name to the collation unit 37.

The pharmacist or the like picks the medicine 22 from the medicine shelf 20 according to the prescription 17 in parallel with or before or after the above-described step S1 to step S5 (step S6). Next, the pharmacist or the like sets the package 23 of each picked medicine 22 in front of the second camera 13 and then inputs an imaging execution instruction to the operation reception unit 30. Thereby, the 2nd camera 13 images the packaging 23 (step S7). Then, the second camera 13 outputs the image data 27 of the package 23 to the second OCR processing unit 34.

The second OCR processing unit 34 performs OCR processing on the image data 27 input from the second camera 13 (step S7). Thereby, the character string of the recording information 24 included in the image of the package 23 based on the image data 27 is recognized by the second OCR processing unit 34, and the character recognition result 47 is transferred from the second OCR processing unit 34 to the second medicine name acquisition unit 35. Is output.

The second drug name acquisition unit 35 refers to the drug name DB 32 based on the character recognition result 47 and performs the same collation as the first drug name acquisition unit 33 described above, whereby the drug 22 (packaging machine) picked by the pharmacist. 2nd medicine name which shows the name of medicine inputted into 26 is acquired (Step S8, 2nd medicine name acquisition step). Then, the second medicine name acquisition unit 35 outputs the second medicine name acquisition result 50 to the verification unit 37.

The collation unit 37 refers to the drug information DB 36 and acquires the first drug name acquisition result 48 input from the first drug name acquisition unit 33 and the second drug name input from the second drug name acquisition unit 35. The acquisition result 50 is collated (step S9, collation step). Then, the collation unit 37 determines that the acquisition result 48 and the acquisition result 50 are the same when all of the first drug names included in the acquisition result 48 and all of the second drug names included in the acquisition result 50 match. It is determined that they match (NO in step S10). At this time, the collation unit 37 refers to the drug information DB 36 even if the first drug name and the second drug name do not match, and the validity of the drug 22 having the first drug name and the second drug name is valid. Check whether the components match. And the collation part 37 determines with both agree | coinciding, when the chemical | medical agent which has a 1st chemical | medical agent name and a 2nd chemical | medical agent name is a generic drug etc. which have the same active ingredient.

Next, when it is determined that the acquisition result 48 and the acquisition result 50 match, the verification unit 37 outputs a verification result indicating that to the display unit 15 and the dispensing information generation unit 38, respectively. As a result, as shown in FIG. 6 described above, the collation result by the collation unit 37 and a display prompting the input execution operation are displayed on the display unit 15.

On the other hand, the collation unit 37 determines that the acquisition result 48 and the acquisition result 50 do not match when the at least one first drug name in the acquisition result 48 and the at least one second drug name in the acquisition result 50 do not match. (YES in step S10). In this case, the collation unit 37 outputs a collation result including the first drug name and the second drug name that do not match to the display unit 15 and the dispensing information generation unit 38. As a result, as shown in FIG. 7, a warning display including the corresponding first drug name and second drug name (at least one of the first drug name and the second drug name is allowed) is displayed on the display unit 15. (Step S11, display step). As a result, it is possible to warn a pharmacist or the like of an error in picking the medicine 22, errors in the first medicine name acquisition unit 33 and the second medicine name acquisition unit 35, and the like.

The pharmacist or the like makes appropriate changes / corrections when the warning display is displayed on the display unit 15 (step S12). For example, the pharmacist or the like checks whether or not there is an error in picking the medicine 22, and if there is an error, picks the medicine 22 again. Further, the pharmacist or the like performs the processing from the above-described step S2 to step S5 and the above-described processing from step S7 to step S8 when the acquisition error of the first medicine name and the second medicine name has occurred. Repeat at least one of them. Thereafter, the processes in steps S11, S12, and S9 described above are repeatedly executed until it is determined as NO in step S10.

The dispensing information generation unit 38 operates simultaneously with or before or after the display of the display unit 15 shown in FIG. The dispensing information generation unit 38 indicates the contents of the prescription 17 input to the operation reception unit 30 in step S1 when a verification result indicating that the acquisition result 48 and the acquisition result 50 match is input from the verification unit 37. Generation of dispensing information 52 is started based on the data and the acquisition result 50 (step S14, dispensing information generation step). Specifically, as shown in FIG. 6, the dispensing information generation unit 38 replaces the first medicine name specified in the prescription 17 with the dispensing information 52 including the second medicine name based on the acquisition result 50. Generate. Thereby, the dispensing information 52 including the name of the medicine 22 actually picked by the pharmacist according to the prescription 17 is generated.

Next, when a pharmacist or the like who confirmed the display on the display unit 15 shown in FIG. 6 performs an input execution operation on the operation reception unit 30, the dispensing information generation unit 38 stores the generated dispensing information 52 in the dispensing information storage unit 40 and The data is output to the printer 28 (step S15). The dispensing information 52 is stored in the dispensing information storage unit 40 and is output from the printer 28 (step S16).

Hereinafter, each time the pharmacist or the like receives a new prescription, the processing of each step described above is repeatedly executed (step S17).

<Operation effect of prescription input device>
According to the present invention, the first medicine name acquired from the prescription 17 and the second medicine name obtained from the packaging 23 of the medicine 22 are collated, and the medicine 22 having the first medicine name and the second medicine name is the same. If it has an active ingredient, the dispensing information 52 including the second medicine name is automatically generated by the receipt computer 14. For this reason, even when the medicine 22 specified in the prescription 17 and the medicine 22 prescribed to the patient are different, as in the case of prescribing the generic medicine 22 specified in the prescription 17, the patient The name of the medicine 22 to be prescribed can be automatically entered into the receipt computer 14. Further, even when the abbreviation of the medicine 22 is written on the prescription 17 or when the prescription 17 is handwritten, it is not necessary to input the second medicine name to the receipt computer 14 by a pharmacist or the like. As a result, it is possible to prevent mistakes in inputting the name of the medicine and to reduce the labor of input work.

<Others>
In the above embodiment, when the collation unit 37 determines that the acquisition result 48 and the acquisition result 50 do not match, warning information is displayed on the display surface of the display unit 15. You may use the audio | voice display part which carries out the audio | voice display, and other various display parts.

In the above embodiment, the first camera 12 and the second camera 13 are provided separately, but one camera may be used as the first camera 12 and the second camera 13. A personal computer may be used as the receipt computer 14. Furthermore, the 1st chemical | medical agent name acquisition part and 2nd chemical | medical agent name acquisition part of this invention are not limited to the structure shown in FIG. 2, etc., You may change a structure suitably as mentioned above.

In the above-described embodiment, the dispensing information 52 generated by the receipt computer 14 is output to the dispensing information storage unit 40 and the printer 28, and the dispensing information 52 is used to identify the medicine 22 packaged by the packaging machine 26. An inspection (dispensing audit) may be performed.

DESCRIPTION OF SYMBOLS 10 ... Prescription input device, 12 ... 1st camera, 13 ... 2nd camera, 14 ... Receptacle computer, 15 ... Display part, 22 ... Drug, 23 ... Packaging, 24 ... Record information, 30 ... Operation reception part, 31 ... 1st 1 ... OCR processing unit, 32 ... drug name database, 33 ... first drug name acquisition unit, 34 ... second OCR processing unit, 35 ... second drug name acquisition unit, 36 ... drug information database, 37 ... verification unit, 38 ... drug information Generator

Claims (10)

1. A first drug name acquisition unit that acquires a first drug name indicating the name of the drug specified in the prescription based on a reading result obtained by optically reading a drug prescription;
   A second drug name acquisition unit that acquires a second drug name indicating the name of the drug prescribed to the patient based on the read result of reading the record information recorded in the package of the drug prescribed to the patient;
   The active ingredient of the medicine corresponding to the first medicine name acquired by the first medicine name acquisition section matches the active ingredient of the medicine corresponding to the second medicine name acquired by the second medicine name acquisition section. A collation unit for collating whether or not
   A first display unit that displays at least one of the first drug name and the second drug name when there is the first drug name and the second drug name that do not match in the verification by the verification unit;
   A dispensing information generating unit that generates dispensing information including the second drug name when the active ingredients of the drug of the first drug name and the second drug name match in the matching by the matching unit;
   A prescription input device comprising:
2. It has a drug name database that stores drug names,
   The first drug name acquisition unit acquires the first drug name by referring to the drug name database based on at least a part of a drug name that can be optically read from the prescription. Prescription input device.
3. The said 2nd chemical | medical agent name acquisition part acquires the said 2nd chemical | medical agent name with reference to the said chemical | medical agent name database based on at least one part of the name of the chemical | medical agent read from the said packaging as said recording information. Prescription input device.
4. A second display unit that displays the plurality of candidates when the first drug name acquisition unit determines that there are a plurality of candidates for the first drug name;
   A reception unit that receives the candidate selection operation;
   The prescription input device of Claim 2 or 3 provided with these.
5. It has a drug information database that stores information indicating the correspondence between the original drug and the generic drug,
   The collation unit refers to the medicine information database, and when the medicine having the second medicine name is a medicine having the same active ingredient as the medicine having the first medicine name, the first medicine name and the first medicine The prescription input device according to any one of claims 1 to 4, wherein the two drug names are determined to match.
6. The prescription according to any one of claims 1 to 5, wherein the second medicine name acquisition unit optically reads the recorded information recorded in the packaging of the medicine picked by a picking operation based on the prescription. Input device.
7. The said 2nd chemical | medical agent name acquisition part optically reads the said record information currently recorded on the said packaging of the chemical | medical agent before thrown into the packaging machine which divides a chemical | medical agent. Prescription input device.
8. The prescription input device according to any one of claims 1 to 7, wherein the first medicine name acquisition unit optically reads the handwritten prescription.
9. The prescription input device according to any one of claims 1 to 8, wherein the first drug name and the second drug name include a component amount of the drug.
10. A first drug name acquisition step for acquiring a first drug name indicating the name of the drug specified in the prescription based on a reading result obtained by optically reading a drug prescription;
    A second drug name acquisition step of acquiring a second drug name indicating the name of the drug prescribed to the patient based on the read result of reading the record information recorded in the package of the drug prescribed to the patient;
    The active ingredient of the medicine corresponding to the first medicine name acquired in the first medicine name acquisition step matches the active ingredient of the medicine corresponding to the second medicine name acquired in the second medicine name acquisition step. A collation step for collating whether or not
    A display step of displaying at least one of the first drug name and the second drug name when there is the first drug name and the second drug name that do not match in the verification in the verification step;
    Dispensing information generating step for generating dispensing information including the second medicine name when the active ingredients of the medicines of the first medicine name and the second medicine name match in the collation of the collating step;
    A prescription input method having:
    

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