CN111180036A - Medical prescription flow direction monitoring system and method - Google Patents

Abstract

The invention relates to the technical field of medical information monitoring management, and provides a medical prescription flow direction monitoring system which aims to solve the problem that in the prior art, as medical prescriptions do not use corresponding retrospective measures, part of patients use forged medical prescriptions to go to a pharmacy to buy medicines, so that medical accidents occur; the prescription generating module is used for generating a medical prescription according to the prescription information; a database for storing the generated medical prescription; the acquisition module is also used for acquiring inquiry information of the pharmacy; the query module is used for querying the corresponding medical prescription from the database according to the query information; and the feedback module is used for feeding back confirmation information after the query module queries the corresponding medical prescription from the database, and otherwise feeding back denial information. The invention realizes traceability of medical prescriptions. The invention also provides a medical prescription flow direction monitoring method.

Description

Medical prescription flow direction monitoring system and method

Technical Field

The invention relates to the technical field of medical information monitoring management, in particular to a medical prescription flow direction monitoring system and a medical prescription flow direction monitoring method.

Background

The prescription is a written file of the medicine taken by a doctor to a patient, is the basis for preparing the medicine by a pharmacy staff, and has legal, technical and economic responsibilities. In the current medical system, after a patient is diagnosed in a hospital and a medical prescription is issued by a doctor, the patient needs to go to a pharmacy of the hospital to take a medicine. However, since a hospital visits a lot of patients every day, so there are many patients waiting for taking a medicine in a pharmacy, and since there are limited staff in the pharmacy, although the location of the corresponding medicine can be quickly found by means of the intelligent management system, it takes a long time for the patients to wait for taking the medicine, so some patients choose to go to a retail pharmacy to buy the medicine.

Since most medicines in the medical prescriptions issued by doctors belong to prescription medicines which generally have certain toxicity and other potential influences, the medicines have special requirements on the medication method and time and need to be used under the guidance of doctors, and therefore, when the prescription medicines are sold in retail drug stores, the people who buy the medicines are required to sell the medicines after the corresponding medical prescriptions are issued. However, since the medical prescriptions held by patients are paper pieces of medical prescriptions printed after doctors enter prescription information into a hospital management system, and no traceability measures are provided, some patients who do not want to visit hospitals can print medical prescriptions by themselves according to past experiences or things checked on the internet, thereby making fake medical prescriptions and buying medicines in a pharmacy.

Disclosure of Invention

The invention aims to provide a medical prescription flow direction monitoring system and a medical prescription flow direction monitoring method, which aim to solve the problem that medical accidents occur due to the fact that some patients use forged medical prescriptions to go to a pharmacy to buy medicines because corresponding traceability measures are not used for medical prescriptions in the prior art.

The basic scheme provided by the invention is as follows: the medical prescription flow direction monitoring system comprises an acquisition module, a flow control module and a flow control module, wherein the acquisition module is used for acquiring prescription information issued by a doctor;

the prescription generating module is used for generating a medical prescription according to the prescription information;

a database for storing the generated medical prescription;

wherein: the acquisition module is also used for acquiring inquiry information of the pharmacy;

the query module is used for querying the corresponding medical prescription from the database according to the query information;

the feedback module is used for feeding back confirmation information after the query module queries the corresponding medical prescription from the database, and otherwise feeding back denial information;

the marking module is used for marking the corresponding query information and generating marking information when the query module feeds back the denial information, and the database stores the marking information;

the matching module is used for matching the acquired query information with the marking information;

the feedback module is also used for feeding back warning information when the matching module is successfully matched; and when the matching of the matching module fails, the query module starts.

The basic scheme has the working principle and the beneficial effects that: compared with the existing medical prescription, the scheme includes that 1, after the generated medical prescription is stored in the database, the acquisition module acquires inquiry information sent by a pharmacy, the inquiry module inquires, if the medical prescription corresponding to the inquiry information is inquired, the medical prescription is issued by a doctor and belongs to an effective medical prescription, the feedback module feeds back confirmation information to the pharmacy, and the pharmacy can dispense medicines according to the medical prescription; the traceability of the medical prescription is realized through the matching of the acquisition module and the query module, so that the effectiveness of the medical prescription flowing out of a hospital is ensured, and the occurrence of medical accidents is reduced;

2. in the scheme, when the inquiry module feeds back the negative information, the inquiry module indicates that the medical prescription of the pharmacy is forged, and the marking module marks the inquiry information and generates marking information; therefore, after the acquisition module acquires the query information, the matching module firstly matches the query information, if the matching is successful, the medical prescription matched with the query information at the pharmacy is forged, at the moment, the feedback module directly sends the warning information to remind the staff of the pharmacy, the query step is not carried out any more, and the query efficiency of the effectiveness of the medical prescription is improved.

The first preferred scheme is as follows: preferably, as a first basic scheme, the obtaining module is further configured to obtain medical order information associated with the prescription information, the database stores the medical order information in association with the corresponding medical prescription, and when the feedback module sends the confirmation information, the feedback module further feeds back the medical order information associated with the queried medical prescription together. Has the advantages that: considering that for some prescription drugs, the patient needs to pay extra attention when taking the drugs, in the scheme, corresponding order information is fed back together when the confirmation information is fed back to the pharmacy, and the staff of the pharmacy receives the confirmation information and the order information at the same time, so that the patient is informed of the order information again, the patient is ensured to take the drugs correctly, and medical accidents are avoided.

The preferred scheme II is as follows: preferably, as a first basic scheme, the obtaining module is further configured to obtain order information sent by a pharmacy, and the database stores the order information in association with a corresponding medical prescription. Has the advantages that: in the scheme, the acquisition module acquires the order information of the pharmacy, namely the medicine of the medical prescription is sold to the patient by the pharmacy, and the database stores the order information and the medical prescription information in a correlation manner, so that the source of the medicine can be traced conveniently.

The preferable scheme is three: preferably, the system further comprises a statistics module for performing statistics on the order information of each pharmacy and generating an order value of the corresponding pharmacy. Has the advantages that: in the scheme, the single value represents the single times of the pharmacy, and the larger the single value is, the more the single times of the pharmacy are, the more the medicine sources of the pharmacy are represented, so that after the doctor diagnoses, if the patient wants to go to the pharmacy to buy the medicine, the doctor can recommend the corresponding pharmacy to the patient according to the counted single value, and the patient can be guaranteed to successfully buy the medicine in the pharmacy.

The preferable scheme is four: preferably, the obtaining module is further configured to obtain location information of the pharmacy, and the statistics module performs statistics according to the location information when the billing information of the pharmacy is counted. Has the advantages that: considering that different patients come from different regions, when the patients go to a pharmacy to buy medicines, the patients tend to go to the pharmacy near the own family to buy medicines, so the statistics is carried out according to the position information when the statistics is carried out to form order information, and thus, when the doctors recommend the pharmacies to the patients, the recommendations can be carried out according to the places where the patients are located, and the patients can conveniently buy the medicines.

The second basic scheme provided by the invention is as follows: a medical prescription flow monitoring method, comprising the steps of:

a medical prescription generating step of generating a medical prescription according to the acquired prescription information;

a storage step of storing the generated medical prescription;

an inquiry step, which inquires from the stored medical prescriptions according to the received inquiry information;

a feedback step of feeding back confirmation information after inquiring the medical prescription associated with the inquiry information; denying feedback negative acknowledgement information;

a marking step, marking corresponding inquiry information and generating marking information when the denial information is fed back, and storing the marking information;

a matching step, which is used for matching the acquired query information with the marking information;

the feedback step is also used for feeding back warning information when the matching module is successfully matched; and when the matching fails, performing a query step.

Has the advantages that: after the generated medical prescription is stored, inquiring is carried out through an inquiring step, if the medical prescription corresponding to the inquiring information is inquired, the medical prescription is issued by a doctor and belongs to an effective medical prescription, confirmation information is fed back to a pharmacy at the moment, and the pharmacy can issue medicines according to the medical prescription; the traceability of the medical prescription is realized through the inquiry step, so that the effectiveness of the medical prescription flowing out of a hospital is ensured, and the occurrence of medical accidents is reduced;

2. in the scheme, when the negative information is fed back, the fact that the medical prescription of the pharmacy is forged is shown, the inquiry information is marked at the moment, and the marking information is generated; therefore, after the query information is obtained, the query information is matched firstly, if the matching is successful, the medical prescription matched with the query information at the pharmacy is forged, at the moment, the warning information is directly sent to remind the staff of the pharmacy, the query step is not carried out any more, and the query efficiency of the medical prescription effectiveness is improved.

The preferable scheme is six: preferably, in the storage step, medical order information associated with the prescription information is acquired, and the medical order information and the corresponding medical prescription are stored in an associated manner; in the feedback step, the medical advice information and the medical prescription information are fed back together. Has the advantages that: considering that for some prescription drugs, the patient needs to pay extra attention when taking the drugs, in the scheme, corresponding order information is fed back together when the confirmation information is fed back to the pharmacy, and the staff of the pharmacy receives the confirmation information and the order information at the same time, so that the patient is informed of the order information again, the patient is ensured to take the drugs correctly, and medical accidents are avoided.

The preferable scheme is seven: preferably, the storage step further includes acquiring order information sent by the pharmacy and storing the order information in association with the corresponding medical prescription. Has the advantages that: according to the scheme, after the order information of the pharmacy is acquired, namely the medicine of the medical prescription is sold to the patient by the pharmacy, and the order information and the medical prescription information are stored in a correlation mode, the source of the medicine can be traced conveniently.

The preferable scheme is eight: preferably, the method further comprises a counting step of counting the order information of each pharmacy and generating an order value of the corresponding pharmacy. Has the advantages that: in the scheme, the single value represents the single times of the pharmacy, and the larger the single value is, the more the single times of the pharmacy are, the more the medicine sources of the pharmacy are represented, so that after the doctor diagnoses, if the patient wants to go to the pharmacy to buy the medicine, the doctor can recommend the corresponding pharmacy to the patient according to the counted single value, and the patient can be guaranteed to successfully buy the medicine in the pharmacy.

The preferable scheme is nine: preferably, in the statistics step, the information on the order of the pharmacy is counted based on the location information of the pharmacy. Has the advantages that: considering that different patients come from different regions, when the patients go to a pharmacy to buy medicines, the patients tend to go to the pharmacy near the own family to buy medicines, so the statistics is carried out according to the position information when the statistics is carried out to form order information, and thus, when the doctors recommend the pharmacies to the patients, the recommendations can be carried out according to the places where the patients are located, and the patients can conveniently buy the medicines.

Drawings

FIG. 1 is a block diagram of a monitoring system according to one embodiment of the present invention;

fig. 2 is a flowchart of a monitoring method in a medical prescription flow direction monitoring system and method according to an embodiment of the invention.

Detailed Description

The following is further detailed by way of specific embodiments:

example one

Substantially as shown in figure 1: the medical prescription flow monitoring system comprises an acquisition module, a flow management module and a flow management module, wherein the acquisition module is used for acquiring prescription information issued by a doctor, associated medical order information, inquiry information of a pharmacy and order information sent by the pharmacy;

the prescription generating module is used for generating a medical prescription according to the prescription information;

the database is used for storing the generated medical prescriptions, storing the medical advice information and the corresponding medical prescriptions in an associated manner, and storing the order information and the corresponding medical prescriptions in an associated manner; the database stores a blank prescription module, and the prescription generating module fills the received prescription information into the blank prescription module to generate a medical prescription when generating processing information;

the query module is used for querying the corresponding medical prescription from the database according to the query information;

the feedback module is used for feeding back confirmation information after the query module queries the corresponding medical prescription from the database, and feeding back medical order information related to the queried medical prescription; otherwise, feeding back denial information;

the marking module is used for marking the corresponding query information and generating marking information when the query module feeds back the denial information, and the database stores the marking information;

the matching module is used for matching the acquired query information with the marking information;

the feedback module is also used for feeding back warning information when the matching module is successfully matched; and when the matching of the matching module fails, the query module starts.

As shown in fig. 2, based on the above management system, the present embodiment further provides a medical prescription flow direction monitoring method, including the following steps:

a medical prescription generating step of generating a medical prescription according to the acquired prescription information;

a storage step of storing the generated medical prescription and storing the acquired medical advice information in association with the corresponding medical prescription; acquiring order information sent by a pharmacy and storing the order information and a corresponding medical prescription in an associated manner;

an inquiry step, which inquires from the stored medical prescriptions according to the received inquiry information;

a feedback step, after the medical prescription associated with the query information is queried, feeding back confirmation information and feeding back the associated and stored medical advice information; denying feedback negative acknowledgement information;

a marking step, marking corresponding inquiry information and generating marking information when the denial information is fed back, and storing the marking information;

matching, namely matching the acquired query information with the mark information;

the feedback step is also used for feeding back warning information when the matching module is successfully matched; when the matching fails, a query step is carried out;

and a counting step, namely counting the order information of each pharmacy and generating an order value of the corresponding pharmacy, and specifically counting the order information of the pharmacy according to the position information of the pharmacy.

The specific implementation process is as follows: after a patient first visits a doctor, a doctor inputs prescribed information and medical advice information into a system, an acquisition module acquires the prescribed information and the medical advice information, and a prescription generation module processes the prescribed information to generate a medical prescription; the prescription information given by the doctor is "medicine a, 20mg × 7/box, X box, once daily, 20mg once oral", and the generated medical prescription M is shown in table one.

Name of medicine	Specification of	Number of	Application method	Frequency of	Dosage/time
						A	20mg 7/box	X box	Is administered orally	Once a day	20mg

And setting the medical order information B, storing the medical prescription M and the medical order information B in the database in a correlation manner, and storing the medical prescription M and the medical order information B in the database in a correlation manner for clarifying the patient identity relative to the medical prescription.

When the patient A goes to the pharmacy to take a medicine, the medical prescription is issued to staff in the pharmacy, and the staff sends inquiry information to the system, such as 'patient A, medicine A, 20mg 7/box, X box'. After the acquisition module acquires the query information, the query module queries a database and queries a corresponding medical prescription M from the database, and the feedback module feeds back confirmation information at the moment and also feeds back medical advice information B to a pharmacy; after receiving the confirmation information and the medical order information B, the staff of the pharmacy may sell the corresponding medicine to the patient a according to the medical prescription, and at the same time, may provide the medical order information B to the patient a again.

If the patient B carries the same medical prescription to a pharmacy to take a medicine, the query module cannot query the corresponding medical prescription in the database according to the query information 'patient B, medicine A, 20mg X7/box, X box', the feedback module feeds back denial information, and staff of the pharmacy cannot sell the medicine to the patient B. Meanwhile, the marking module marks the query information to generate marking information, such as 'marking, patient B, medicine A, 20mg X7/box, X box', and the database stores the marking information; after the acquisition module acquires the query information again, the matching module matches whether the label information matched with the query information exists in the label information or not, if the corresponding label information exists, the medical prescription held by the patient is a problematic medical prescription, the feedback module directly feeds back the warning information, and after the staff receives the warning information, the staff needs to take care of the treatment; if the corresponding label information is not matched from the stored label information, the query module queries the corresponding medical method from the database.

Example two

The difference from the first embodiment is that the first embodiment further includes a statistics module, configured to perform statistics on the order information of each pharmacy and generate an order value of the corresponding pharmacy; the acquisition module is also used for acquiring the position information of the pharmacy, and the statistical module is also used for respectively carrying out statistics according to the position information when carrying out statistics on the order information of the pharmacy;

after the pharmacy sells the medicine to the patient A, the pharmacy sends ordering information to the system, such as 'order forming, patient A and medicine A', the counting module performs counting to generate an ordering value, if the counting result of the ordering information of the pharmacy X1 is S1, the ordering value of the pharmacy X1 is S1, the obtaining module further obtains the position information of the pharmacy, and if the position information of the pharmacy X1 is D1, the counted ordering value is 'pharmacy X1, order forming value S1 and position information D1'; if the position information of the pharmacy X2 is D2, the counted result is 'pharmacy X2, result S2 and position information D2'; if the position information of the pharmacy X3 is D1, the counted result values are 'pharmacy X3, result value S3 and position information D1', and if the result value of the pharmacy is high, the number of times of successful transactions of the pharmacy is large, which indicates that the medicine stock is sufficient, so that after the diagnosis is completed, a doctor can recommend the patient to buy the medicine for the corresponding pharmacy according to the position information and the result value of the pharmacy. If the patient is in the D area, the single values of the two pharmacies in the D area are counted as a pharmacy X1, a single value S1, a pharmacy X3 and a single value S3, the patient can go to the two pharmacies to purchase the medicines, and if S3 is greater than S1, the patient is recommended to go to a pharmacy D3 preferentially to purchase the medicines.

EXAMPLE III

For hospital or drugstore, the medicines are usually stacked in the medicine storehouse in the whole case mode, and when medical personnel needed, the medicines in the whole case were taken out from the medicine storehouse and were distributed to drugstore or nurse station, because the medicines are stored in the mode of stacking, the stability that the medicine was stacked is weakened to the irregular action of getting it filled, receives slight vibration, the condition that the medical kit dropped appears easily. And part medicine still adopts glass package in the hospital, it breaks very easily to lead to glass package to collide with, the medical kit drops and makes the medicine bottle in it destroyed, thereby make the medicine drop, and the medical kit drops and usually can bring a series of chain reaction, for example, collide other medical kits, make a large amount of medicines all take place to drop from this, multiple medicine drops at all unable discernment, can only all abandon the medicine that drops, consequently, in order to avoid the waste of medical resource, should medical personnel's the action of getting it filled of lack of standardization supervise, avoid piling the condition emergence of the medical resource waste that the unstability caused because of the medicine.

The difference between the present embodiment and the first embodiment is: the system also comprises a medicine taking supervision subsystem, an identity verification terminal and a plurality of monitoring terminals. The identity verification terminal is arranged at the door of the medicine warehouse, and medical staff who get the medicine can open the door of the medicine warehouse to get the medicine through verification. The monitoring terminals are arranged in the medicine storage, are respectively arranged in a plurality of directions of the medicine storage and are used for shooting storage videos of the stacked medicines in four directions.

The identity verification terminal is used for obtaining identity information of medical staff for verification, generating a verification signal when the verification is successful, and uploading the verification signal to the medicine taking supervision subsystem.

The medicine taking supervision subsystem comprises a monitoring control module, a behavior recognition module, a stacking early warning module, a comparison module and a reminding module.

And the monitoring control module is used for controlling the starting of the monitoring terminal when receiving the verification signal.

The monitoring terminal is used for collecting storage videos containing stacked medicine libraries in the medicine libraries and uploading the storage videos to the medicine taking supervision subsystem in real time. In this embodiment, the number of the monitoring terminals is four, and the monitoring terminals are respectively used for shooting images of the front side, the left side, the right side and the rear side of the stacked medicine.

The basic identification module is used for receiving and storing videos, performing image identification on the stored videos, marking the stored videos when identifying medical personnel, and sending the marked stored videos to the behavior identification module. In this embodiment, the number of the stored videos is four, and when the left side and the right side of the medical staff are completely overlapped with the stacked medicines in any one group of the stored videos, the group of videos is marked as front-side images; when medical staff and stacked medicines are in the same picture in any group of stored videos and the left side and the right side of the medical staff are not overlapped with the stacked medicines, the group of videos are marked as left and right side images, and the left and right side images are divided into at most two groups.

The behavior recognition module is used for receiving the storage video, performing image recognition on the storage video, recognizing actions of medical workers when recognizing the medical workers, and marking medicine boxes in stacked medicines according to recognition results. The recognition result is a prediction of the medical staff's removal of the medicine kit from the stacked medicines.

The stack early warning module is preset with an analysis model, and in the embodiment, the behavior analysis model adopts a BP neural network model. The stacking early warning module is used for inputting the marked medicine boxes and the storage videos in the four directions into the analysis module, outputting the stability results generated according to the marked medicine boxes and the storage videos in the four directions in the analysis module, wherein the stability results comprise stable structures and unstable structures, and sending the stability results to the comparison module.

The comparison module is used for receiving the storage video, carrying out image recognition on the storage video, comparing the medicine box with the marked medicine box when the medical staff is recognized to take away the medicine box for stacking the medicines, generating a predicted consistent signal when the medicine box and the marked medicine box are the same, generating a reminding signal when a stability result with an unstable structure is received, and sending the reminding signal to the reminding module; and the stacking early warning module is also used for updating the marked medicine box into the medicine box when the medicine box and the stacking early warning module are different medicine boxes, and sending the marked medicine box to the stacking early warning module.

The reminding module is used for receiving reminding signals and sending out reminding to medical staff.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. The medical prescription flow direction monitoring system comprises an acquisition module, a flow control module and a flow control module, wherein the acquisition module is used for acquiring prescription information issued by a doctor;

the prescription generating module is used for generating a medical prescription according to the prescription information;

a database for storing the generated medical prescription;

the method is characterized in that: the acquisition module is also used for acquiring inquiry information of the pharmacy;

the query module is used for querying the corresponding medical prescription from the database according to the query information;

the feedback module is used for feeding back confirmation information after the query module queries the corresponding medical prescription from the database, and otherwise feeding back denial information;

the marking module is used for marking corresponding query information and generating marking information when the query module feeds back the denial information, and the database stores the marking information;

the matching module is used for matching the acquired query information with the marking information;

the feedback module is also used for feeding back warning information when the matching module is successfully matched; and when the matching of the matching module fails, the query module is started.

2. The medical prescription flow direction monitoring system according to claim 1, wherein: the acquisition module is further used for acquiring medical order information associated with prescription information, the database stores the medical order information and the corresponding medical prescription in an associated manner, and the feedback module feeds back the medical order information associated with the inquired medical prescription when the feedback module sends the confirmation information.

3. The medical prescription flow direction monitoring system according to claim 1, wherein: the acquisition module is further used for acquiring order information sent by a pharmacy, and the database stores the order information and corresponding medical prescriptions in an associated manner.

4. The medical prescription flow direction monitoring system according to claim 3, wherein: the system also comprises a statistic module which is used for carrying out statistics on the order information of each pharmacy and generating the order value of the corresponding pharmacy.

5. The medical prescription flow direction monitoring system according to claim 4, wherein: the acquisition module is further used for acquiring the position information of the pharmacy, and the counting module is used for counting according to the position information when counting the order information of the pharmacy.

6. The medical prescription flow direction monitoring method is characterized in that: the method comprises the following steps:

a medical prescription generating step of generating a medical prescription according to the acquired prescription information;

a storage step of storing the generated medical prescription;

an inquiry step, which inquires from the stored medical prescriptions according to the received inquiry information;

a feedback step of feeding back confirmation information after inquiring the medical prescription associated with the inquiry information; denying feedback negative acknowledgement information;

a marking step, marking corresponding inquiry information and generating marking information when the denial information is fed back, and storing the marking information;

a matching step, which is used for matching the acquired query information with the marking information;

the feedback step is also used for feeding back warning information when the matching module is successfully matched; and when the matching fails, performing a query step.

7. The medical prescription flow direction monitoring method according to claim 6, wherein: in the storage step, medical advice information associated with prescription information is obtained, and the medical advice information and the corresponding medical prescription are stored in an associated manner; in the feedback step, the medical advice information and the medical prescription information are fed back together.

8. The medical prescription flow direction monitoring method according to claim 6, wherein: the storage step further comprises the steps of obtaining order information sent by a pharmacy and storing the order information and the corresponding medical prescriptions in an associated mode.

9. The medical prescription flow direction monitoring method according to claim 8, wherein: the method also comprises a statistic step for counting the order information of each pharmacy and generating the order value of the corresponding pharmacy.

10. The medical prescription flow direction monitoring method according to claim 9, wherein: in the counting step, the order information of the pharmacy is counted according to the position information of the pharmacy.

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