CN112908454B - Method and system for intelligently keeping anesthetic - Google Patents

Abstract

The invention discloses a method and a system for intelligently keeping anesthetic, wherein the method comprises the following steps: acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; and storing the first anesthetic according to the first management scheme. Solves the technical problems of the prior art that the quality of the anesthetic is affected due to the low management efficiency of multiple drug types in the storage of the anesthetic.

Description

Method and system for intelligently keeping anesthetic

Technical Field

The invention relates to the field of medicine preservation, in particular to a method and a system for intelligently preserving anesthetic.

Background

Anesthetic refers to a medicament which can temporarily and reversibly unconsciously and pain the body or the body part by using a pharmaceutical or non-pharmaceutical method, is mostly used for surgery or treatment of certain diseases, and is used for strictly managing the storage and the preservation of the anesthetic in medical application, and scientifically and reasonably managing the anesthetic to improve the clinical medication safety.

However, in the process of implementing the technical scheme of the embodiment of the application, the inventor discovers that the above technology has at least the following technical problems:

the prior art anesthetic is stored, and the technical problems of low management efficiency of various medicine types and influence on the quality of the anesthetic exist.

Disclosure of Invention

The embodiment of the application solves the technical problem that the quality of the anesthetic is affected due to low management efficiency of various types of medicines in the anesthetic storage in the prior art by providing the method and the system for intelligently storing the anesthetic, and achieves the technical effects of intelligently storing the anesthetic according to the types of medicines, enhancing the management efficiency of the anesthetic and further ensuring the quality of the anesthetic medicines.

In view of the above problems, an embodiment of the present application provides a method and a system for intelligently keeping anesthetic.

In a first aspect, embodiments of the present application provide a method for intelligently keeping an anesthetic, the method comprising: acquiring first image information by the image acquisition device, wherein the first image information is external package image information of a first anesthetic; obtaining the medicine name of the first anesthetic according to the first image information; acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining usage information of a first anesthetic, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; and storing the first anesthetic according to the first management scheme.

In another aspect, the present application also provides a system for intelligently keeping anaesthetic, the system comprising: the first obtaining unit is used for obtaining first image information through the image acquisition device, wherein the first image information is external package image information of the first anesthetic; a second obtaining unit configured to obtain a drug name of the first anesthetic from the first image information; a third obtaining unit, configured to obtain attribute cloud data information of the first anesthetic according to a drug name of the first anesthetic; a fourth obtaining unit for inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; a fifth obtaining unit for obtaining usage information of a first anesthetic, the usage information including usage information of the first anesthetic, usage time information, and first predicted usage information; a sixth obtaining unit, configured to obtain a first management manner of the first anesthetic according to the usage time information and the first expected usage information of the first anesthetic; a seventh obtaining unit, configured to obtain a first unlocking mode of the first anesthetic according to the usage information of the first anesthetic; an eighth obtaining unit configured to obtain a storage scheme of the first anesthetic according to the first storage condition, the first management mode, and the first unlocking mode; and the first preserving unit is used for preserving the first anesthetic according to the first preserving scheme.

In a third aspect, the present application provides a system for intelligent safekeeping of anaesthetic agents comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method of the first aspect when the program is executed by the processor.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

acquiring attribute cloud data information of the first anesthetic due to the adoption of the drug name according to the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; according to the first management scheme, the first anesthetic is stored, so that the anesthetic is intelligently stored according to the type of the medicine, the management efficiency of the anesthetic is enhanced, and the technical effect of the quality of the anesthetic medicine is guaranteed.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

FIG. 1 is a flow chart of a method for intelligently keeping anesthetic according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a system for intelligently keeping anesthetic according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an exemplary electronic device according to an embodiment of the present application.

Reference numerals illustrate: the device comprises a first obtaining unit 11, a second obtaining unit 12, a third obtaining unit 13, a fourth obtaining unit 14, a fifth obtaining unit 15, a sixth obtaining unit 16, a seventh obtaining unit 17, an eighth obtaining unit 18, a first holding unit 19, a bus 300, a receiver 301, a processor 302, a transmitter 303, a memory 304, and a bus interface 305.

Detailed Description

The embodiment of the application solves the technical problem that the quality of the anesthetic is affected due to low management efficiency of various types of medicines in the anesthetic storage in the prior art by providing the method and the system for intelligently storing the anesthetic, and achieves the technical effects of intelligently storing the anesthetic according to the types of medicines, enhancing the management efficiency of the anesthetic and further ensuring the quality of the anesthetic medicines. Hereinafter, exemplary embodiments according to the present application will be described in detail with reference to the accompanying drawings. It should be apparent that the described embodiments are only some embodiments of the present application and not all embodiments of the present application, and it should be understood that the present application is not limited by the example embodiments described herein.

Summary of the application

Anesthetic refers to a medicament which can temporarily and reversibly unconsciously and pain the body or the body part by using a pharmaceutical or non-pharmaceutical method, is mostly used for surgery or treatment of certain diseases, and is used for strictly managing the storage and the preservation of the anesthetic in medical application, and scientifically and reasonably managing the anesthetic to improve the clinical medication safety. However, the prior art anesthetic is stored with a plurality of drug types and has low management efficiency, thereby influencing the quality of the anesthetic.

Aiming at the technical problems, the technical scheme provided by the application has the following overall thought:

the embodiment of the application provides a method for intelligently keeping anesthetic, which comprises the following steps: acquiring first image information by the image acquisition device, wherein the first image information is external package image information of a first anesthetic; obtaining the medicine name of the first anesthetic according to the first image information; acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining usage information of a first anesthetic, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; and storing the first anesthetic according to the first management scheme.

Having described the basic principles of the present application, various non-limiting embodiments of the present application will now be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1, an embodiment of the present application provides a method for intelligently keeping anesthetic, wherein the method includes:

step S100: acquiring first image information by the image acquisition device, wherein the first image information is external package image information of a first anesthetic;

specifically, the first image information is the medicine external package image information of the first anesthetic, the first anesthetic is an anesthetic to be stored, common anesthetic medicines include etorphine, acephate, etc., the external package image information of the first anesthetic includes contents such as general names, components, characters, indications or functional indications, specifications, usage, adverse reactions, contraindications, notes, storage, production dates, product lot numbers, validity periods, approval notes, production enterprises, etc., the indications or functional indications, usage, adverse reactions, contraindications, notes, etc., and the main contents should be marked and the words of "detailed description" should be noted.

Step S200: obtaining the medicine name of the first anesthetic according to the first image information;

specifically, the drug name of the first anesthetic is the generic name of the anesthetic, for example, inhalation anesthetics such as diethyl ether, isoflurane, sevoflurane, desflurane, etc.; intravenous total anesthetics, such as sodium thiopentetate, benzodiazepines such as diazepam, ketamine, dexmedetomidine, and the like; opioids such as fentanyl, remifentanil, sufentanil, and the like; muscle relaxants, such as non-depolarizing and depolarizing muscle relaxants; lipid local anesthetics such as procaine; amide local anesthetics such as lidocaine, bupivacaine, ropivacaine, and the like.

Step S300: acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic;

specifically, the attribute cloud data information is a generic term of technologies and platforms of data integration, data analysis, data integration, data distribution and data early warning of the first anesthetic attribute applied based on a cloud computing business model, and includes basic information of the anesthetic such as molecular formula, structural formula, safety information, computing chemical data, storage method, synthesis method, application, pharmacological action, indication, usage amount, medication contraindication, clinical application and the like. For example, the anesthetic such as sodium thiopenton is sealed in an ampoule for storage in shade, has high fat solubility, is extremely easy to pass through a blood-cerebrospinal fluid barrier, has a short induction period and no excitation period, has the main advantages of quick response, reduces cerebral blood flow, cerebral metabolism and cerebral oxygen consumption, does not raise intracranial pressure in the anesthesia period, and is mainly used for inducing anesthesia and basic anesthesia clinically.

Step S400: inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic;

further, the step S400 of the embodiment of the present application further includes:

step S410: the method comprises the steps of taking attribute cloud data information of the first anesthetic as input information of an anesthetic preservation condition model, and inputting the anesthetic preservation condition model, wherein the anesthetic preservation condition model is obtained through training of multiple sets of attribute cloud data information serving as training data, and each set of data in the multiple sets of attribute cloud data information serving as the training data comprises: the attribute cloud data information of the first anesthetic and the identification information for identifying the preservation condition of the first anesthetic;

step S420: obtaining an output of the anesthetic preservation condition model, the output including a first preservation condition of the first anesthetic.

Specifically, the anesthetic preservation condition model is a neural network model, namely a neural network model in machine learning, and the neural network (NeuralNetworks, NN) is a complex neural network system formed by widely interconnecting a large number of simple processing units (called neurons), reflects many basic characteristics of human brain functions, and is a highly complex nonlinear power learning system. The neural network model is described based on a mathematical model of neurons. An artificial neural network (ArtificialNeuralNetworks, ANN) is a description of the first order nature of the human brain system. In brief, it is a mathematical model. And inputting the attribute cloud data information of the first anesthetic into a neural network model through training of a large amount of training data, and outputting a first storage condition of the first anesthetic.

Furthermore, the training process is essentially a supervised learning process, each set of supervision data includes attribute cloud data information of the first anesthetic and identification information for identifying a storage condition of the first anesthetic, the attribute cloud data information of the first anesthetic is input into a neural network model, and the neural network model performs continuous self-correction and adjustment according to the identification information for identifying the storage condition of the first anesthetic until an obtained output result is consistent with the identification information, and the set of data supervised learning is ended to perform the next set of data supervised learning; and when the output information of the neural network model reaches the preset accuracy rate/reaches a convergence state, ending the supervised learning process. Through the supervised learning of the neural network model, the neural network model is enabled to process the input information more accurately, and then the first storage condition of the output first anesthetic agent is enabled to be more reasonable and accurate, and further the technical effects of intelligent storage of the anesthetic agent through the attribute cloud data information of the anesthetic agent, improvement of anesthetic agent management efficiency and further guarantee of anesthetic drug quality are achieved.

Step S500: obtaining usage information of a first anesthetic, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic;

further, the step S500 of the embodiment of the present application further includes the step of obtaining usage information of the first anesthetic, where the usage information includes usage information, usage time information, and first expected usage information of the first anesthetic:

step S510: obtaining first prescription information;

step S520: judging whether the first prescription information contains the first anesthetic information;

step S530: if the first prescription information contains the first anesthetic information, use time information, and first expected amount information of the first anesthetic information are extracted from the first prescription information.

Specifically, the usage information of the first anesthetic is indication information of clinical application of the anesthetic, the usage time information of the first anesthetic is usage time of the anesthetic after the anesthetic is started, and the first predicted usage information of the first anesthetic is usage information of the anesthetic. For example, the anesthetic such as sodium thiopenton has short effect time, but quick effect, and is seldom used singly because of insignificant analgesic effect, but can be repeatedly and statically injected for a small amount for compound general anesthesia; the convulsion is controlled, the effect of intravenous injection is quick, but not durable, and only urgent can be overcome; the medicine is effective in correcting intracranial pressure rise caused by general anesthesia, but has no obvious effect on pathological intracranial hypertension, such as intracranial space occupying lesions, cerebral edema and acute brain injury, and is not beneficial; the basic anesthesia of the children can be administrated by intramuscular injection. When the composition is used for basic anesthesia of children and patients with hyperthyroidism and mental stress, 30mg/kg of the sodium thiopenton is used for enema each time (for children); or intramuscular injection, 0.5g for each adult, 15-20 mg/kg for children, and 2.5% solution for deep intramuscular injection.

The first prescription information refers to a medical document which is issued for a patient by registered medical practitioners and medical assistant doctors in diagnosis and treatment activities, is checked, allocated and checked by a pharmaceutical professional staff qualified for the role of pharmaceutical professional technology, and is taken as a patient administration certificate, the prescription comprises an administration order of a medical institution disease area, the prescription is a written document of the doctor for the patient administration, and the basis for the medicine staff to allocate medicines is provided with legal, technical and economic responsibility. Physicians should prescribe according to medical treatment, prevention and health care requirements, diagnosis and treatment specifications, medicine indications, pharmacological actions, usage, dosage, contraindications, adverse reactions, notes and the like in the medicine specifications. If the first prescription information contains the first anesthetic information, extracting the application information, the use time information and the first predicted dosage information of the first anesthetic information from the first prescription information, wherein the technical significance of the prescription is that the prescription writes the names, the number, the dosage forms, the dosage of the usage and the like of the medicines, and the technical effects of ensuring the specification, safety and effectiveness of the medicines are achieved.

Step S600: obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic;

Specifically, the first management mode of the first anesthetic is a special management mode for storing and using the anesthetic according to the usage time information and the first expected usage information of the first anesthetic, and a general injection type anesthetic is prescribed at one time, the usage cannot exceed two days, and the oral administration anesthetic is prescribed at one time, and the usage cannot exceed seven days. The high-efficiency anesthetic management mode can ensure the quality of anesthetic drugs, obviously improve the satisfaction rate of operators, shorten the preparation time before anesthesia, reduce the loss of the anesthetic drugs and has very positive application value.

Step S700: obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic;

further, the step S700 of the embodiment of the present application further includes:

step S710: obtaining control level information of the first anesthetic according to the application information;

step S720: obtaining a predetermined control level threshold;

step S730: judging whether the control level information of the first anesthetic is within the preset control level threshold value;

Step S740: and if the management level information of the first anesthetic is within the preset management level threshold, obtaining a first unlocking mode according to a first main treating doctor, a first main treating doctor and a first anesthesiologist.

Specifically, the first unlocking mode of the first anesthetic is a mode of applying for use of the anesthetic according to the usage information of the first anesthetic, for example, the anesthetic needs to be applied to the compound general anesthesia of the patient. The control level information of the first anesthetic is the anesthetic control level implemented according to the clinical application purpose of the anesthetic, the preset control level threshold is the preset anesthetic control level range, and the safety use of medical treatment, teaching and scientific research can be ensured by strictly managing anesthetic drugs according to the formulated control level method of different types of the anesthetic. If the control level information of the first anesthetic is within the preset control level threshold, namely the first anesthetic can be unlocked for use, the first anesthetic is unlocked for use according to a first unlocking mode obtained by a first main treating doctor, a first main treating doctor and a first anesthesiologist, a clinical anesthesia implementing doctor is responsible for making the anesthetic, and only the common confirmation of the main treating doctor, the main treating doctor and the anesthesiologist is obtained, the anesthetic is authorized to be unlocked for use, so that the technical effect of strictly controlling the anesthetic through the control level and the doctor responsibility is achieved, and the safe use of the anesthetic is ensured.

Step S800: obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode;

step S900: and storing the first anesthetic according to the first management scheme.

Specifically, the first anesthetic storage scheme integrates the first storage condition, the first management mode and the first unlocking mode to store the anesthetic, for example, the anesthetic is stored in a dark place while avoiding high temperature, the anesthetic use storage scheme is comprehensively determined according to the use information of a prescription and the use unlocking mode of a responsible doctor, and the anesthetic is stored in a special storage management mode according to the anesthetic storage scheme, so that the anesthetic is stored intelligently according to the type of medicine, and the quality of an anesthetic medicine is ensured.

Further, step S530 of the embodiment of the present application further includes:

step S531: judging the anesthesia type of the first anesthetic according to the medicine name information of the first anesthetic;

step S532: if the first anesthetic is a non-general anesthesia type anesthetic, obtaining first usage object information and usage type information of the first anesthetic according to the usage information of the first anesthetic;

Step S533: determining a first dose preset fluctuation range according to the first usage object information and the usage type information;

step S534: and adjusting the first predicted dosage information according to the first dosage preset fluctuation range to obtain first predicted dosage threshold information.

Specifically, in terms of anesthesia mode, the anesthetic is divided into general anesthetic and local anesthetic, the anesthetic type of the first anesthetic is judged according to the medicine name information of the first anesthetic, if the first anesthetic is of a non-general anesthetic type, first usage object information and usage type information of the first anesthetic, namely physiological state information of a patient needing anesthesia operation and type information of anesthesia operation, are obtained according to clinical application usage of the first anesthetic, the adjustable range of the anesthetic dose can be fluctuated is determined according to the physiological state information of the patient needing anesthesia operation, and the first predicted usage information is adjusted according to the preset fluctuation range of the anesthetic dose, so that the finally adjusted predicted usage range of the anesthetic is obtained. For example, when the patient is operated, if the anesthesia operation is not general anesthesia operation, a doctor can ask the patient that no pain is felt after injecting a certain dose of anesthetic, if the patient has pain, the dose of the anesthetic is adjusted according to the physiological state of the patient, the patient is continuously injected until the pain does not reach the operation standard, the dosage of the anesthetic is adjusted according to the clinical application state, the safe operation is ensured, and the technical effect of the anesthetic management efficiency is further enhanced.

Further, if the first anesthetic management level information is within the predetermined management level threshold, a first unlocking manner is obtained according to the first attending physician, the first primary physician and the first anesthesiologist, and step S740 further includes:

step S741: obtaining first authorization code information according to the first attending physician;

step S742: obtaining second authorization code information according to the first master knife doctor;

step S743: obtaining third authorization code information according to the first anesthesiologist;

step S744: acquiring illness state information of a first applicable object according to the application information of the first anesthetic;

step S745: determining the importance of the first attending physician, the first main physician and the first anesthesiologist according to the condition information;

step S746: according to the importance degree, respectively carrying out ranking extraction on the first authorization code, the second authorization code and the third authorization code, and then sequentially combining to obtain a first unlocking key;

step S747: and obtaining a first unlocking mode according to the first unlocking key.

Specifically, the first main doctor and the first anesthesiologist correspond to the first authorization code information, the second authorization code information and the third authorization code information respectively, and only if the common confirmation of the authorization codes of the main doctor, the main doctor and the anesthesiologist of the patient is obtained, the anesthetic is authorized to be unlocked for use. The disease information of the first applicable object is the disease information of the patient applicable to the anesthetic, the importance degree of the patient in the operation treatment process is determined according to the disease information, the doctor and the anesthesiologist are mainly treated, the corresponding authorization codes are extracted by different importance degrees of the doctor and then are combined in sequence again, an unlocking key is obtained to determine the unlocking mode of the anesthetic, the anesthetic is unlocked and used later, the anesthetic is controlled strictly, and the safe use of the anesthetic is guaranteed.

Further, according to the importance level, the first authorization code, the second authorization code, and the third authorization code are sequentially combined after being ranked and extracted, so as to obtain a first unlock key, and step S746 further includes:

step S7461: obtaining a first unlocking code according to the first authorization code and the importance degree;

step S7462: obtaining a second unlocking code according to the second authorization code and the importance degree;

step S7463: obtaining a third unlocking code according to the third authorization code and the importance degree;

step S7464: respectively storing the first bit unlocking code, the second bit unlocking code and the third bit unlocking code in different storage spaces;

step S7465: and obtaining the first unlocking code, the second unlocking code and the third unlocking code from the different storage spaces, and sequentially combining the first unlocking code, the second unlocking code and the third unlocking code according to the importance degree to obtain a first unlocking key.

Specifically, according to the importance degree of the main doctor, the main doctor and the anesthesiologist of the patient and different authorization codes corresponding to different doctors in the surgical treatment process, the unlocking codes of the anesthetic are obtained by re-sequentially combining according to the importance degree after the ranking extraction, wherein the first position, the second position and the third position of the unlocking codes are only used for distinguishing the digits of the unlocking codes, and the specific sequence is not limited. For example, in the operation process, the first main doctor of the patient extracts the first character of the first authorization code corresponding to the first character, the main doctor extracts the second character of the second authorization code corresponding to the second character, the anesthesiologist extracts the third character of the third authorization code corresponding to the third character, and then the extracted three characters are sequentially arranged in sequence to form a new password, namely a first unlocking key, so that the unlocking key of the anesthetic is determined according to the importance degree of the responsibility of the doctor, and the technical effect of dynamic management of the anesthetic use authority is realized.

In summary, the method and system for intelligently keeping anesthetic provided by the embodiment of the application have the following technical effects:

1. acquiring attribute cloud data information of the first anesthetic due to the adoption of the drug name according to the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; according to the first management scheme, the first anesthetic is stored, so that the anesthetic is intelligently stored according to the type of the medicine, the management efficiency of the anesthetic is enhanced, and the technical effect of the quality of the anesthetic medicine is guaranteed.

2. Due to the fact that the mode that the attribute cloud data information of the first anesthetic is input into the neural network model is adopted, the first storage condition of the output first anesthetic is more reasonable and accurate, the anesthetic is stored intelligently through the attribute cloud data information of the anesthetic, the anesthetic management efficiency is improved, and the technical effect of quality of anesthetic medicines is guaranteed.

3. Because the anesthetic is strictly controlled by the management and control grade and the doctor responsibility, the dosage of the anesthetic is adjusted according to the clinical application state, the safe operation is ensured, the dynamic management of the anesthetic use authority is realized, the specification and the safety and the effectiveness of the medicament are ensured, and the technical effect of the anesthetic management efficiency is further enhanced.

Example two

Based on the same inventive concept as the method for intelligently keeping anesthetic in the previous embodiment, the present invention further provides a system for intelligently keeping anesthetic, as shown in fig. 2, the system includes:

a first obtaining unit 11, where the first obtaining unit 11 is configured to obtain first image information through an image capturing device, where the first image information is external package image information of a first anesthetic;

a second obtaining unit 12, wherein the second obtaining unit 12 is configured to obtain a drug name of the first anesthetic according to the first image information;

a third obtaining unit 13, where the third obtaining unit 13 is configured to obtain attribute cloud data information of the first anesthetic according to a drug name of the first anesthetic;

a fourth obtaining unit 14, where the fourth obtaining unit 14 is configured to input attribute cloud data information of the first anesthetic into an anesthetic preservation condition model, and obtain a first preservation condition of the first anesthetic;

A fifth obtaining unit 15 for obtaining usage information of a first anesthetic, the usage information including usage information of the first anesthetic, usage time information, and first predicted usage information;

a sixth obtaining unit 16, where the sixth obtaining unit 16 is configured to obtain a first management mode of the first anesthetic according to the usage time information and the first expected usage information of the first anesthetic;

a seventh obtaining unit 17, where the seventh obtaining unit 17 is configured to obtain a first unlocking mode of the first anesthetic according to the usage information of the first anesthetic;

an eighth obtaining unit 18, wherein the eighth obtaining unit 18 is configured to obtain a storage scheme of the first anesthetic according to the first storage condition, the first management mode, and the first unlocking mode;

the first keeping unit 19, the first keeping unit 19 is configured to keep the first anesthetic according to the first keeping scheme.

Further, the system further comprises:

a ninth obtaining unit for obtaining first prescription information;

a first judging unit for judging whether the first prescription information contains the first anesthetic information;

And a first extraction unit for extracting usage information, usage time information, and first predicted usage information of the first anesthetic information from the first prescription information if the first prescription information includes the first anesthetic information.

Further, the system further comprises:

the second judging unit is used for judging the anesthesia type of the first anesthetic according to the medicine name information of the first anesthetic;

a tenth obtaining unit configured to obtain first usage object information and usage type information of the first anesthetic according to usage information of the first anesthetic if the first anesthetic is a non-general anesthesia type anesthetic;

a first determining unit configured to determine a first dose predetermined fluctuation range based on the first usage object information and the usage type information;

an eleventh obtaining unit, configured to adjust the first predicted usage information according to the first dose preset fluctuation range, and obtain first predicted usage threshold information.

Further, the system further comprises:

A twelfth obtaining unit for obtaining management level information of the first anesthetic agent according to the usage information;

a thirteenth obtaining unit configured to obtain a predetermined management level threshold;

the third judging unit is used for judging whether the control level information of the first anesthetic is within the preset control level threshold value or not;

a fourteenth obtaining unit for obtaining a first unlocking means according to a first attending physician, a first primary physician and a first anesthesiologist if the management level information of the first anesthetic is within the predetermined management level threshold.

Further, the system further comprises:

a fifteenth obtaining unit for obtaining first authorization code information according to the first attending physician;

a sixteenth obtaining unit that obtains second authorization code information according to the first primary knife doctor;

a seventeenth obtaining unit configured to obtain third authorization code information according to the first anesthesiologist;

an eighteenth obtaining unit, configured to obtain disease information of a first applicable subject according to usage information of the first anesthetic;

A second determining unit for determining importance degrees of the first attending physician, the first main physician and the first anesthesiologist according to the condition information;

a nineteenth obtaining unit, configured to, according to the importance degree, respectively perform ranking extraction on the first authorization code, the second authorization code, and the third authorization code, and then re-combine the first authorization code, the second authorization code, and the third authorization code in order to obtain a first unlock key;

the twentieth obtaining unit is used for obtaining a first unlocking mode according to the first unlocking key.

Further, the system further comprises:

a twenty-first obtaining unit, configured to obtain a first unlocking code according to the first authorization code and the importance level;

a twenty-second obtaining unit, configured to obtain a second unlock code according to the second authorization code and the importance level;

a twenty-third obtaining unit, configured to obtain a third unlocking code according to the third authorization code and the importance level;

the first storage unit is used for respectively storing the first bit unlocking code, the second bit unlocking code and the third bit unlocking code in different storage spaces;

And the twenty-fourth obtaining unit is used for obtaining the first unlocking code, the second unlocking code and the third unlocking code from the different storage spaces and sequentially combining the first unlocking code, the second unlocking code and the third unlocking code according to the importance degree to obtain a first unlocking key.

Further, the system further comprises:

the first input unit is used for taking the attribute cloud data information of the first anesthetic as input information of the anesthetic preservation condition model and inputting the anesthetic preservation condition model, wherein the anesthetic preservation condition model is obtained through training of multiple sets of attribute cloud data information serving as training data, and each set of data in the multiple sets of attribute cloud data information serving as training data comprises: the attribute cloud data information of the first anesthetic and the identification information for identifying the preservation condition of the first anesthetic;

a twenty-fifth obtaining unit for obtaining an output result of the anesthetic preserving condition model, the output result including a first preserving condition of the first anesthetic.

The above-described various modifications and embodiments of the method for intelligently storing anesthetic agent in the first embodiment of fig. 1 are equally applicable to the system for intelligently storing anesthetic agent in the present embodiment, and those skilled in the art will be aware of the implementation method of the system for intelligently storing anesthetic agent in the present embodiment through the above-described detailed description of the method for intelligently storing anesthetic agent, so that the detailed description will not be repeated here for brevity.

Exemplary electronic device

An electronic device of an embodiment of the application is described below with reference to fig. 3.

Fig. 3 illustrates a schematic structural diagram of an electronic device according to an embodiment of the present application.

Based on the inventive concept of a method for intelligently keeping anaesthetic as in the previous embodiments, the present application also provides a system for intelligently keeping anaesthetic, on which a computer program is stored, which when executed by a processor, implements the steps of any of the above-described methods for intelligently keeping anaesthetic.

Where in FIG. 3 a bus architecture (represented by bus 300), bus 300 may comprise any number of interconnected buses and bridges, with bus 300 linking together various circuits, including one or more processors, represented by processor 302, and memory, represented by memory 304. Bus 300 may also link together various other circuits such as peripheral devices, voltage regulators, power management circuits, etc., as are well known in the art and, therefore, will not be described further herein. Bus interface 305 provides an interface between bus 300 and receiver 301 and transmitter 303. The receiver 301 and the transmitter 303 may be the same element, i.e. a transceiver, providing a means for communicating with various other systems over a transmission medium.

The processor 302 is responsible for managing the bus 300 and general processing, while the memory 304 may be used to store data used by the processor 302 in performing operations.

The embodiment of the invention provides a method for intelligently keeping anesthetic, which comprises the following steps: acquiring first image information by the image acquisition device, wherein the first image information is external package image information of a first anesthetic; obtaining the medicine name of the first anesthetic according to the first image information; acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic; inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic; obtaining usage information of a first anesthetic, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic; obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic; obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic; obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode; and storing the first anesthetic according to the first management scheme. Solves the technical problems of low management efficiency of various drug types in the prior art anesthetic storage, thereby influencing the quality of the anesthetic, and achieves the technical effects of intelligently storing the anesthetic according to the drug types, enhancing the management efficiency of the anesthetic and further ensuring the quality of the anesthetic.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create a system for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks. While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. A method of intelligently safeguarding anesthetic, wherein the method is applied to a system for intelligently safeguarding anesthetic, the system having an image acquisition device, the method comprising:

acquiring first image information by the image acquisition device, wherein the first image information is external package image information of a first anesthetic;

obtaining the medicine name of the first anesthetic according to the first image information;

acquiring attribute cloud data information of the first anesthetic according to the medicine name of the first anesthetic;

inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic;

obtaining usage information of a first anesthetic, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic;

Obtaining a first management mode of the first anesthetic according to the using time information and the first expected using amount information of the first anesthetic;

obtaining a first unlocking mode of the first anesthetic according to the application information of the first anesthetic;

obtaining a preservation scheme of the first anesthetic according to the first preservation condition, the first management mode and the first unlocking mode;

storing the first anesthetic according to the first storage regimen;

the obtaining a first unlocking mode of the first anesthetic according to the usage information of the first anesthetic includes:

obtaining control level information of the first anesthetic according to the application information;

obtaining a predetermined control level threshold;

judging whether the control level information of the first anesthetic is within the preset control level threshold value;

if the first anesthetic administration level information is within the predetermined administration level threshold, obtaining a first unlocking mode according to a first attending physician, a first primary physician and a first anesthesiologist;

wherein if the first anesthetic administration level information is within the predetermined administration level threshold, obtaining a first unlocking mode according to a first attending physician, a first primary physician, and a first anesthesiologist, comprising:

Obtaining first authorization code information according to the first attending physician;

obtaining second authorization code information according to the first master knife doctor;

obtaining third authorization code information according to the first anesthesiologist;

acquiring illness state information of a first applicable object according to the application information of the first anesthetic;

determining the importance of the first attending physician, the first main physician and the first anesthesiologist according to the condition information;

according to the importance degree, respectively carrying out ranking extraction on the first authorization code, the second authorization code and the third authorization code, and then sequentially combining to obtain a first unlocking key;

obtaining a first unlocking mode according to the first unlocking key;

and according to the importance degree, respectively performing ranking extraction on the first authorization code, the second authorization code and the third authorization code, and then re-combining the first authorization code, the second authorization code and the third authorization code in sequence to obtain a first unlocking key, wherein the method comprises the following steps of:

obtaining a first unlocking code according to the first authorization code and the importance degree;

obtaining a second unlocking code according to the second authorization code and the importance degree;

obtaining a third unlocking code according to the third authorization code and the importance degree;

Respectively storing the first bit unlocking code, the second bit unlocking code and the third bit unlocking code in different storage spaces;

and obtaining a first unlocking code, a second unlocking code and a third unlocking code from the different storage spaces, and sequentially combining the first unlocking code, the second unlocking code and the third unlocking code according to the importance degree to obtain a first unlocking key.

2. The method of claim 1, wherein the obtaining usage information of the first anesthetic agent, the usage information including usage information, usage time information, and first expected usage information of the first anesthetic agent, comprises:

obtaining first prescription information;

judging whether the first prescription information contains the first anesthetic information;

if the first prescription information contains the first anesthetic information, use time information, and first expected amount information of the first anesthetic information are extracted from the first prescription information.

3. The method of claim 2, wherein the method comprises:

judging the anesthesia type of the first anesthetic according to the medicine name information of the first anesthetic;

if the first anesthetic is a non-general anesthesia type anesthetic, obtaining first usage object information and usage type information of the first anesthetic according to the usage information of the first anesthetic;

Determining a first dose preset fluctuation range according to the first usage object information and the usage type information;

and adjusting the first predicted dosage information according to the first dosage preset fluctuation range to obtain first predicted dosage threshold information.

4. The method of claim 1, wherein the inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic comprises:

the method comprises the steps of taking attribute cloud data information of the first anesthetic as input information of an anesthetic preservation condition model, and inputting the anesthetic preservation condition model, wherein the anesthetic preservation condition model is obtained through training of multiple sets of attribute cloud data information serving as training data, and each set of data in the multiple sets of attribute cloud data information serving as the training data comprises: the attribute cloud data information of the first anesthetic and the identification information for identifying the preservation condition of the first anesthetic;

obtaining an output of the anesthetic preservation condition model, the output including a first preservation condition of the first anesthetic.

5. A system for intelligent safeguarding of anesthetics, wherein the system comprises:

The first obtaining unit is used for obtaining first image information through the image acquisition device, wherein the first image information is external package image information of the first anesthetic;

a second obtaining unit configured to obtain a drug name of the first anesthetic from the first image information;

a third obtaining unit, configured to obtain attribute cloud data information of the first anesthetic according to a drug name of the first anesthetic;

a fourth obtaining unit for inputting the attribute cloud data information of the first anesthetic into an anesthetic preservation condition model to obtain a first preservation condition of the first anesthetic;

a fifth obtaining unit for obtaining usage information of a first anesthetic, the usage information including usage information of the first anesthetic, usage time information, and first predicted usage information;

a sixth obtaining unit, configured to obtain a first management manner of the first anesthetic according to the usage time information and the first expected usage information of the first anesthetic;

a seventh obtaining unit, configured to obtain a first unlocking mode of the first anesthetic according to the usage information of the first anesthetic;

An eighth obtaining unit configured to obtain a storage scheme of the first anesthetic according to the first storage condition, the first management mode, and the first unlocking mode;

the first preserving unit is used for preserving the first anesthetic according to the first preserving scheme;

a twelfth obtaining unit for obtaining management level information of the first anesthetic agent according to the usage information;

a thirteenth obtaining unit configured to obtain a predetermined management level threshold;

the third judging unit is used for judging whether the control level information of the first anesthetic is within the preset control level threshold value or not;

a fourteenth obtaining unit for obtaining a first unlocking means according to a first attending physician, a first primary physician, and a first anesthesiologist if the management level information of the first anesthetic is within the predetermined management level threshold;

a fifteenth obtaining unit for obtaining first authorization code information according to the first attending physician;

A sixteenth obtaining unit that obtains second authorization code information according to the first primary knife doctor;

a seventeenth obtaining unit configured to obtain third authorization code information according to the first anesthesiologist;

an eighteenth obtaining unit, configured to obtain disease information of a first applicable subject according to usage information of the first anesthetic;

a second determining unit for determining importance degrees of the first attending physician, the first main physician and the first anesthesiologist according to the condition information;

a nineteenth obtaining unit, configured to, according to the importance degree, respectively perform ranking extraction on the first authorization code, the second authorization code, and the third authorization code, and then re-combine the first authorization code, the second authorization code, and the third authorization code in order to obtain a first unlock key;

the twentieth obtaining unit is used for obtaining a first unlocking mode according to the first unlocking key;

a twenty-first obtaining unit, configured to obtain a first unlocking code according to the first authorization code and the importance level;

A twenty-second obtaining unit, configured to obtain a second unlock code according to the second authorization code and the importance level;

a twenty-third obtaining unit, configured to obtain a third unlocking code according to the third authorization code and the importance level;

the first storage unit is used for respectively storing the first bit unlocking code, the second bit unlocking code and the third bit unlocking code in different storage spaces;

and the twenty-fourth obtaining unit is used for obtaining the first unlocking code, the second unlocking code and the third unlocking code from the different storage spaces and sequentially combining the first unlocking code, the second unlocking code and the third unlocking code according to the importance degree to obtain a first unlocking key.

6. A system for intelligent safeguarding of anaesthetic agents comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method of any one of claims 1-4 when the program is executed by the processor.