CN106126889A - The medicine method for customizing in knowledge based storehouse and system - Google Patents

Abstract

The invention discloses a method for customizing medicine, which comprises the following steps: obtaining the patient's condition information; matching the obtained condition information with various condition information pre-stored in a drug knowledge base; The drug configuration information corresponding to the information; obtain the retrieved drug configuration information, and send the drug configuration information to the Internet of Things. The above-mentioned drug customization method based on the knowledge base matches the condition information of patients with individualized diseases with various condition information pre-stored in the drug knowledge base, thereby achieving the accuracy of matching condition information; and then through the condition information retrieval The pre-stored drug configuration information realizes the quickness of obtaining drug configuration information; finally, the drug configuration information is sent to the Internet of Things, realizing the targeted and low-cost pharmaceutical equipment under the Internet of Things terminal. The invention also discloses a drug customization system.

Description

Drug customization method and system based on knowledge base

technical field

The invention relates to the technical field of medical knowledge base systems, in particular to a knowledge base-based drug customization method and system.

Background technique

At present, in the traditional technology, medicines are produced first, and then medicines are selected according to the symptoms of patients. Although the symptoms of different patients are similar, this small difference will also lead to different effects of the same drug on different patients, including beneficial effects and harmful effects. Therefore prior art can't customize the medicine that is most suitable for this patient according to the individualized disease of different patients, can't satisfy the optimal drug demand of the individualized disease of patient.

Contents of the invention

Based on this, it is necessary to provide a knowledge base-based drug customization method and system that can meet the needs of patients for the best medicines for individualized diseases in a timely manner according to the individualized diseases of different patients.

A method for customizing medicine, comprising the following steps:

Obtain patient information;

Matching the acquired condition information with various condition information pre-stored in the drug knowledge base;

Retrieving drug configuration information corresponding to the condition information according to the successfully matched condition information;

The retrieved drug configuration information is acquired, and the drug configuration information is sent to the Internet of Things.

In one of the embodiments, it also includes: controlling the customization of medicines through the Internet of Things.

In one of the embodiments, before the step of obtaining the patient's condition information, it also includes: classifying the various condition information pre-stored in the drug knowledge base;

Wherein, the classification is performed according to the attributes of the multiple kinds of disease information, the degree of the disease, and one or more symptoms corresponding to the degree of the disease.

In one embodiment, matching the acquired condition information with various condition information pre-stored in the drug knowledge base specifically includes: matching step by step according to the classified categories from high to low.

In one of the embodiments, the disease information pre-stored in the knowledge base is in a one-to-one correspondence with the drug configuration information.

A drug customization system, comprising:

An acquisition module, configured to acquire the patient's condition information;

A matching module, configured to match the acquired condition information with various condition information pre-stored in the drug knowledge base;

A retrieval module, configured to retrieve drug configuration information corresponding to the condition information according to the successfully matched condition information;

A sending module, configured to acquire the retrieved drug configuration information, and send the drug configuration information to the Internet of Things.

In one of the embodiments, it also includes: a control module, which is used to control the customization of medicine through the Internet of Things.

In one of the embodiments, it further includes: a storage module, configured to store the various disease information and the drug configuration information in the drug knowledge base.

In one of the embodiments, it also includes: a classification module, configured to classify the various disease information pre-stored in the drug knowledge base;

Wherein, the classification is performed according to the attributes of the multiple kinds of disease information, the degree of the disease, and one or more symptoms corresponding to the degree of the disease.

In one of the embodiments, the condition information pre-stored in the drug knowledge base is in a one-to-one correspondence with the drug configuration information.

The above drug customization method and system, by obtaining the condition information of different patients, matches the condition information of patients with individualized diseases with various condition information pre-stored in the drug knowledge base, thereby achieving the accuracy of matching condition information ; and then retrieve the pre-stored drug configuration information through the disease information, realizing the quickness of obtaining drug configuration information; finally sending the drug configuration information to the Internet of Things, realizing the targeted and low-cost pharmaceutical equipment under the Internet of Things terminal sex.

Description of drawings

Fig. 1 is a schematic flow chart of a drug customization method in an embodiment;

Fig. 2 is a schematic flow chart of a method for customizing medicine in another embodiment;

Fig. 3 is a schematic structural diagram of a drug customization system in an embodiment; and

Fig. 4 is a schematic structural diagram of a drug customization system in another embodiment.

detailed description

In order to make the purpose, technical solution and advantages of the present invention clearer, the specific implementation of the knowledge base-based pharmaceutical method and system of the present invention will be further described in detail through the following examples and in conjunction with the accompanying drawings. It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

Referring to Figure 1, in one embodiment, the method for customizing medicine may include the following steps:

Step S100, acquiring the patient's condition information.

Wherein, obtaining the patient's condition information is inputting the patient's condition information through the terminal.

It can be understood that the terminal here can be a computer or other electronic terminal devices capable of entering and uploading disease information, such as smart phones, wearable smart devices, tablet computers, and the like.

Specifically, the patient's condition management system can be run on the terminal, and the patient's condition information can be entered through the system. The condition information that can be entered includes but is not limited to the patient's name, age, patient's symptoms, and patient's vital signs.

In addition, before the step of obtaining the patient's condition information, it also includes: classifying various condition information pre-stored in the drug knowledge base. Specifically, the classification is performed according to the attributes of the various disease information, the degree of the disease, and one or more symptoms corresponding to the degree of the disease. For example, in the drug knowledge base, it is classified according to surgery, internal medicine, pediatrics, gynecology, etc. Further, internal medicine can be further classified, for example, otolaryngology, cold symptoms in otolaryngology, cold in otolaryngology Symptoms (mild cold), cold symptoms (moderate cold) in otolaryngology, cold symptoms (severe cold) in otolaryngology, further, the cold in the cold symptoms in the above otolaryngology The degree will continue to be subdivided according to the specific adaptation symptoms, which will not be repeated here.

It is understandable that the drug knowledge base pre-stores a variety of disease information and drug configuration information corresponding to the various disease information. Its knowledge base is structured, easy to operate, easy to use, comprehensive and organized in knowledge engineering. Knowledge cluster is a collection of interconnected knowledge pieces that are stored, organized, managed and used in computer memory by means of medical knowledge representation to meet the needs of solving problems in the medical field. These pieces of knowledge include theoretical knowledge, factual data, and heuristic knowledge obtained from expert experience in the medical field, such as definitions, theorems, algorithms, and common sense knowledge in the medical field.

Step S200, matching the acquired disease information with various disease information pre-stored in the drug knowledge base.

For example, the condition information of patient A is Li XX, 26 years old, sore throat, runny nose symptoms, and vital signs (body temperature 36.9°C), which are matched step by step according to the pre-classification among the various condition information pre-stored in the drug knowledge base The result is a cold symptom (mild cold) in the Department of Otorhinolaryngology; patient B’s condition information is Wang XX, 26 years old, sore throat, runny nose symptoms, vital signs (body temperature 39.9 ℃), in the pre-stored drug knowledge The result of step-by-step matching according to the pre-classification among the multiple disease information in the database is a cold disease (severe cold) in the Department of Otorhinolaryngology.

Through the above subdivision of the condition information, when matching the acquired patient condition information with the subdivided various condition information in the drug knowledge base, it is matched step by step according to the divided categories according to the level from high to low , thereby improving the efficiency and accuracy in the condition matching process.

Step S300, searching for drug configuration information corresponding to the medical condition information according to the successfully matched medical condition information. Among them, the drug configuration information includes, but is not limited to, the name of the drug, the content of each component in the drug, the single dose of the drug, the time of drug administration, the route of administration, and the combined drug regimen.

For example, the condition information of patient A is Li XX, 26 years old, sore throat, runny nose symptoms, vital signs (body temperature 36.9 ℃), and the matching result among the various condition information pre-stored in the drug knowledge base is ENT For cold symptoms (mild colds) in the department, the drug configuration information corresponding to the above-mentioned condition information is: 2g trichaku, 2g plum, 3g calendula silver plate, 4g peppermint oil, 2g wild chrysanthemum, chlorobenzene maleate Namin 5g, caffeine 2g, acetaminophen 4g, sucrose powder 2g; medication time is before meals, morning and evening, twice a day; orally. Patient B’s condition information is Wang XX, 26 years old, sore throat, runny nose, and vital signs (body temperature 39.9°C). The cold symptoms (severe cold), the drug configuration information corresponding to the above disease information is: Sanchaku 3g, Gangmei 5g, Calendula Silver Plate 6g, Peppermint Oil 4g, Wild Chrysanthemum Flower 5g, Chlorpheniramine Maleate 5g , caffeine 2g, acetaminophen 4g, sucrose powder 2g, penicillin 6g; medication time is before breakfast and lunch, three times a day; orally. It should be noted that the above drug configuration information is in the medical field, and the doctor's routine drug treatment for the above diseases is information pre-stored in the drug knowledge base.

Step S400, obtaining the retrieved drug configuration information, and sending the drug configuration information to the Internet of Things. Among them, the Internet of Things uses communication technologies such as local networks or the Internet to connect sensors, controllers, machines, people and things through new layouts and combinations to form a connection between people and things, and things and things. In one embodiment of the present invention, a variety of equipment for manufacturing medicines can be pre-connected to the Internet of Things, that is, the equipment for manufacturing medicines can implement medicines for different patients according to the above-mentioned medicine configuration information. Thus, the goals of informatization, personalization, remote management control and intelligent drug customization can be realized.

Referring to FIG. 2 , in another embodiment, the method for ordering medicines includes not only steps S100 - S400 described above, but also step S500 , controlling the ordering of medicines through the Internet of Things.

Specifically, one of the terminals of the Internet of Things is configured to be connected to a device for manufacturing drugs. Personalized proportioning and customization of drugs based on the above information such as single dose, medication time, route of administration, and combined drug regimen.

The above drug customization method first obtains the patient’s condition information; then matches the acquired condition information with various condition information pre-stored in the drug knowledge base; then retrieves the corresponding drug configuration information according to the successfully matched condition information; Obtain drug configuration information, and send the drug configuration information to the Internet of Things, and finally the Internet of Things controls the customization of drugs. The present invention matches the condition information of patients with personalized diseases with various condition information pre-stored in the drug knowledge base by acquiring the condition information of different patients, thereby achieving the accuracy of matching condition information; The pre-stored drug configuration information is retrieved, which realizes the quickness of obtaining drug configuration information; finally, the drug configuration information is sent to the Internet of Things, realizing the pertinence, low cost, and further improvement of pharmaceutical equipment under the Internet of Things terminal. According to the individualized disease of different patients, the present invention customizes the most suitable drug for the patient, and can meet the needs of the best drug for the individualized disease of the patient in time.

Based on the same inventive concept, in one embodiment, a drug customization system is also proposed. Referring to FIG. 3 , the drug customization system may include an acquisition module 110 , a matching module 120 , a retrieval module 130 and a sending module 140 .

Among them, the obtaining module 110 is used to obtain the patient's condition information; the matching module 120 is used to match the obtained condition information with various condition information pre-stored in the drug knowledge base; The corresponding drug configuration information is retrieved; the sending module 140 is used to obtain the drug configuration information, and send the drug configuration information to the Internet of Things.

In addition, referring to FIG. 4 , a drug ordering system provided by the present invention, in addition to the above modules, also includes a control module 150 for controlling drug ordering through the Internet of Things.

Furthermore, the drug customization system provided by the present invention further includes a storage module 160 (not shown in the figure) for storing various disease information and drug configuration information in the drug knowledge base. Wherein, the condition information pre-stored in the knowledge base and the drug configuration information have a one-to-one correspondence.

Furthermore, the drug customization system provided by the present invention further includes a classification module 170 (not shown in the figure) for classifying various disease information pre-stored in the drug knowledge base. Specifically, the categories may be divided according to the attributes of various diseases, the degree of the disease, and one or more symptoms corresponding to the degree of the disease. Therefore, through the subdivision of the disease information by the classification module, the efficiency and accuracy of the matching process are improved when the obtained patient's disease information is matched with the subdivided various disease information in the drug knowledge base. .

The above-mentioned drug customization system first obtains the patient's condition information through the acquisition module 110; then matches the obtained condition information with the various condition information pre-stored in the drug knowledge base through the matching module 120; then through the retrieval module 130 according to the matching success The medical condition information retrieves its corresponding drug configuration information; the sending module 140 obtains the drug configuration information, and sends the drug configuration information to the Internet of Things, and finally controls the customization of drugs through the Internet of Things through the control module 150. The present invention acquires the drug configuration information of different patients Condition information, matching the condition information of patients with personalized diseases with various condition information pre-stored in the drug knowledge base, so as to achieve the accuracy of matching condition information; and then retrieve the pre-stored drug configuration through condition information information, realizing the quickness of obtaining drug configuration information; finally sending the drug configuration information to the Internet of Things, realizing the pertinence and low cost of pharmaceutical equipment under the Internet of Things terminal, and further, the present invention is based on the needs of different patients Customized medicines that are most suitable for the patient, and can meet the needs of the best medicines for the patient's personalized illness in a timely manner.

The above-mentioned embodiments only express several implementation modes of the present invention, and the descriptions thereof are relatively specific and detailed, but should not be construed as limiting the patent scope of the present invention. It should be pointed out that those skilled in the art can make several modifications and improvements without departing from the concept of the present invention, and these all belong to the protection scope of the present invention. Therefore, the protection scope of the patent for the present invention should be based on the appended claims.

Claims (10)

1. A method for customizing medicine, is characterized in that, comprises the following steps: Obtain patient information; Matching the acquired condition information with various condition information pre-stored in the drug knowledge base; Retrieving drug configuration information corresponding to the condition information according to the successfully matched condition information; The retrieved drug configuration information is acquired, and the drug configuration information is sent to the Internet of Things. 2. The method for customizing medicine according to claim 1, further comprising: controlling the customization of medicine through the Internet of Things. 3. The drug customization method according to claim 1, further comprising: before the step of obtaining the patient's condition information, classifying the various condition information pre-stored in the drug knowledge base; Wherein, the classification is performed according to the attributes of the multiple kinds of disease information, the degree of the disease, and one or more symptoms corresponding to the degree of the disease. 4. The drug customization method according to claim 1, wherein matching the acquired condition information with various condition information pre-stored in the drug knowledge base specifically comprises: High to low matching step by step. 5 . The method for customizing medicine according to claim 1 , wherein the medical condition information pre-stored in the medicine knowledge base is in a one-to-one correspondence with the medicine configuration information. 6 . 6. A drug customization system, characterized in that, comprising: An acquisition module, configured to acquire the patient's condition information; A matching module, configured to match the acquired condition information with various condition information pre-stored in the drug knowledge base; A retrieval module, configured to retrieve drug configuration information corresponding to the condition information according to the successfully matched condition information; A sending module, configured to acquire the retrieved drug configuration information, and send the drug configuration information to the Internet of Things. 7. The medicine customization system according to claim 6, further comprising: a control module for controlling the customization of medicines through the Internet of Things. 8 . The drug customization system according to claim 6 , further comprising: a storage module, configured to store the various disease information and the drug configuration information in the drug knowledge base. 9. The drug customization system according to claim 6, further comprising: A classification module, configured to classify the various disease information pre-stored in the drug knowledge base; Wherein, the classification is performed according to the attributes of the multiple kinds of disease information, the degree of the disease, and one or more symptoms corresponding to the degree of the disease. 10. The drug customization system according to claim 6, wherein the disease information pre-stored in the drug knowledge base is in a one-to-one correspondence with the drug configuration information.