CN112820386A - Emergency single-machine transmission system for information of seeing a doctor in hospital - Google Patents

Abstract

The invention relates to the technical field of medical systems and discloses a hospital information emergency stand-alone transmission system, which comprises an area stand-alone construction system, wherein the area stand-alone construction system is formed by combining a doctor host computer, a special machine room switch, a nurse station host computer and other medical service terminals. The invention improves the accuracy of medical data in an emergency state that an information system in a hospital cannot be used, intelligently assists in avoiding handwriting of wrong medical records, prescriptions and inspection and examination when a doctor inputs the medical data, and avoids mistaken recognition and charge collection by scanning one-dimensional codes and two-dimensional codes by charging window personnel; the input efficiency is obviously improved, the data processing capacity of each part under the emergency condition is improved, and the overlong waiting time of patients in each link is avoided; the data integrity is improved, all data are completely stored, and after information failure is recovered, the data can be synchronized to the hospital electronic medical record database, so that the integrity of hospital information data is guaranteed.

Description

Emergency single-machine transmission system for information of seeing a doctor in hospital

Technical Field

The invention relates to the technical field of medical systems, in particular to a medical information emergency single-machine transmission system applied to hospitals.

Background

Medical informatization is rapidly developed, and an information system suitable for the treatment process of each hospital is built to support the treatment process of patients in the hospital. Hospital information systems have become an indispensable key part for ensuring the normal operation of hospitals. The hospital management system basically covers all departments of the hospital, including outpatient emergency registration, medical record management, inspection and examination systems, financial management and the like, so that all departments involved in the patient treatment process have increasingly dependence on the hospital information management system. However, the information system is vulnerable while providing a quick and efficient procedure for patients and various departments in the hospital. The failure of the information system to operate normally can lead to paralysis of the overall hospital visit process. In the using process of the system, the medical service may be paralyzed under the conditions of system abnormity, such as network disconnection, server damage, and control upgrading, which result in the condition that the local program cannot be used. Therefore, a good emergency plan needs to be made to effectively cope with the information system abnormality.

When a network security incident occurs in a hospital, the hospital generally starts a set emergency plan, the emergency plan ensures the continuity of medical activities, and the information of the patient to be treated is clearly transmitted as efficiently as possible among all departments and links, so that the patient can continue to be treated. According to the normal outpatient medical work flow of a hospital and the importance and the deferrable performance of the work of each link of a doctor, most emergency plans are set to be in an emergency mode of manually writing paper medical records, prescriptions and examination application sheets under the condition that a local or global system is paralyzed, so that the transmission of medical information data among all departments is ensured. The paper document has a great relationship with the clear handwriting, the finishing degree and the integrity of paper, and the paper document written in the doctor consultation link needs to input data into a single machine again according to the handwritten document in each department of subsequent charging, inspection, dispensing and the like, so that the efficiency is low and the error rate is increased. In the construction of the hospital information system emergency system at the present stage, a set of emergency plans supporting accurate and efficient data transmission is an urgent need.

Disclosure of Invention

The invention provides a hospital information emergency single-machine transmission system, which is applied to hospitals and is provided with a data transmission system for operating each department based on single-machine condition in the emergency state of a hospital information system.

The invention provides the following technical scheme: an emergency stand-alone transmission system of information for seeing a doctor in a hospital comprises an area stand-alone construction system, wherein the area stand-alone construction system is formed by combining a doctor host computer, a special machine room switch, a nurse station host computer and other medical service terminal machines;

when network or program failure occurs, the main server cannot be connected correctly, or an online information system cannot be used, a local area network is constructed by a machine room switch, a medical computer host and a nurse station computer host, and the local area network server consisting of the machine room switch can provide support in the local area network; data conversion, transmission and downloading are realized;

the emergency single machine management process method comprises the following operation steps:

the single machine management flow system comprises a main server and an emergency server;

the first step is as follows: entry of data

The patient firstly needs to make appointment registration processing at a registration charging workstation, corresponding appointment registration data can be written into a main server, and the main server can back up the appointment registration data and back up the appointment registration data into an emergency server;

the second step is that: diagnosis by doctor

Patients wait in line at a nurse workstation for diagnosis of doctors; when diagnosis is carried out, the phenomenon of network disconnection does not occur, a doctor calls registration data information from the main server by using a computer, obtains corresponding medical record data according to communication and diagnosis and treatment with a patient, and opens a corresponding prescription according to the medical record information; the related medical record information data and prescription data are recorded in the main server, the doctor prints the related medical record and prescription and delivers the medical record and prescription to the patient, and the patient goes to the corresponding charging and medicine taking place to carry out card swiping, charging and medicine taking;

when network or program faults occur, the main server cannot be connected correctly, or an online information system cannot be used, a doctor calls registration data information of a patient through an emergency server in a local area network through a computer, corresponding medical record data is obtained according to communication and diagnosis and treatment with the patient, and a corresponding prescription is made according to the medical record information; recording related medical record information data and prescription data into an emergency server, enabling a patient to arrive at a nurse station, printing the medical record information and paying in a centralized manner, calling the emergency server data information by a nurse station computer, printing the medical record information and the prescription data, producing corresponding two-dimensional code data after printing, scanning the two-dimensional code by the patient according to the two-dimensional code to pay for the medical record information, taking a corresponding prescription order to a pharmacy, taking medicine, and completing diagnosis;

the emergency single-computer data transmission reading method comprises the following operation steps:

when network or program failure occurs, the main server cannot be connected correctly, or an online information system cannot be used, the emergency server provides data support;

1) reading local data of a patient, wherein the data comprises appointment information, medical record information and prescription data; judging whether the related data is contained; if the data does not exist, the local data information is read again; if the data is contained, the next step is carried out;

2) data verification, verifying data content, including: medical record data, prescription data, inspection related data poles, and inspection prescription data; after the data inspection is finished, producing a single-machine two-dimensional code;

3) reading the two-dimension code, judging whether the data carried by the two-dimension code exists repeated data after reading, and reading the two-dimension code again when judging that the repeated data exists, or else, performing the next step;

4) after the data is judged, converting the data into charging data according to the data type, judging the charging data again, judging whether the payment is needed, if so, importing the data, finishing the payment after the patient finishes the payment, and reading the two-dimensional code again without the payment data;

the system is operated based on a computer network in a hospital; the system is arranged in a hospital internal network in a C/S framework, the application is positioned in a hospital internal network, and the database is positioned on a hospital internal security platform; the hospital divides all the consulting rooms in the outpatient service area into areas, and connects all the consulting room computers in a single area and the nurse desk computers outside the area to the same intranet switch, so that the single-computer emergency program can still run through the local network environment under the condition that the network core switch and the convergence switch are in failure;

the system comprises a doctor end and a nurse end; the interface after logging in is a patient list; a list of patients who have been visited is recorded;

the doctor end can enter basic information and medical record content of a patient, and then can continue to perform corresponding diagnosis and treatment operations through functional modules in the system, such as a medication prescription, an examination application, a check application, a treatment application and the like;

the information data generated in the diagnosis are transmitted to a centralized printing module of a nurse end through the local area switch network, and the nurse end prints the two-dimensional code application form through centralized printing.

Preferably, the structured medical record module comprises: date of visit, department of visit, age, patient's name, clinic number, weight, allergy history, chief complaints, current medical history, past medical history, physical examination, preliminary diagnosis, treatment opinions, and physician's name.

Preferably, the medication prescription module comprises: prescription attribute, group, drug name, size, dosage, usage, route, frequency, quantity, unit price, and drip rate.

Preferably, the examination application template includes: the name, the number, the unit price, the inspection method, whether to be urgent or not and the inspection requirement.

Preferably, the inspection application template includes: test name, number, unit price, specimen type, urgency, test description.

Preferably, the treatment application template comprises: name of treatment, amount, unit price, method of treatment, frequency, time.

Preferably, the data format of the single-machine system is standardized and is classified and set according to variable characteristics; the numerical variables are specific numerical values such as age, weight, height and the like; boolean variables are expressed as yes/no, or presence/absence, such as nutritional abnormalities, falling high risk groups, etc.; the enumerated variables enumerate all possible values of the variables according to the variable characteristics, and are displayed as multiple choices of preset values, such as medication routes, anal plug, intramuscular injection, vein and the like.

Preferably, after the network security event is recovered, all local area data of the single-edition doctor workstation can be synchronized to the hospital electronic medical record database after being checked, so that the integrity of hospital information data is guaranteed.

The invention has the following beneficial effects:

1. the accuracy of medical data in an emergency state that an information system in a hospital cannot be used is improved, handwriting of wrong medical records, prescription and inspection and examination during doctor input are intelligently and auxiliarily avoided, and a charging window person scans one-dimensional codes and two-dimensional codes to avoid mistaken recognition and charging;

2. the input efficiency is obviously improved, the data processing capacity of each part under the emergency condition is improved, and the overlong waiting time of patients in each link is avoided;

3. the data integrity is improved, all data are completely stored, and after information failure is recovered, the data can be synchronized to the hospital electronic medical record database, so that the integrity of hospital information data is guaranteed.

Drawings

FIG. 1 is a diagram of an emergency management framework of the present invention;

FIG. 2 is a flow chart of data determination according to the present invention;

FIG. 3 is a diagram of a stand-alone data delivery framework of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an emergency stand-alone transmission system for information of medical treatment in a hospital includes a regional stand-alone construction system, which is formed by combining a doctor host computer, a special machine room switch, a nurse station host computer and other medical service terminals;

when network or program faults occur, the main server cannot be connected correctly, or an online information system cannot be used, a local area network is constructed by a machine room switch, a medical computer host and a nurse station computer host, and the local area network server consisting of the machine room switch can provide support in the local area network; data conversion, transmission and downloading are realized;

the emergency single machine management process method comprises the following operation steps:

the single machine management flow system comprises a main server and an emergency server;

the first step is as follows: entry of data

The patient firstly needs to make appointment registration processing at a registration charging workstation, corresponding appointment registration data can be written into a main server, and the main server can back up the appointment registration data and back up the appointment registration data into an emergency server;

the second step is that: diagnosis by doctor

Patients wait in line at a nurse workstation for diagnosis of doctors; when diagnosis is carried out, the phenomenon of network disconnection does not occur, a doctor calls registration data information from the main server by using a computer, obtains corresponding medical record data according to communication and diagnosis and treatment with a patient, and opens a corresponding prescription according to the medical record information; the related medical record information data and prescription data are recorded in the main server, the doctor prints the related medical record and prescription and delivers the medical record and prescription to the patient, and the patient goes to the corresponding charging and medicine taking place to carry out card swiping, charging and medicine taking;

when network or program faults occur, the main server cannot be connected correctly, or an online information system cannot be used, a doctor calls registration data information of a patient through an emergency server in a local area network through a computer, corresponding medical record data is obtained according to communication and diagnosis and treatment with the patient, and a corresponding prescription is made according to the medical record information; recording related medical record information data and prescription data into an emergency server, enabling a patient to arrive at a nurse station, printing the medical record information and paying in a centralized manner, calling the emergency server data information by a nurse station computer, printing the medical record information and the prescription data, producing corresponding two-dimensional code data after printing, scanning the two-dimensional code by the patient according to the two-dimensional code to pay for the medical record information, taking a corresponding prescription order to a pharmacy, taking medicine, and completing diagnosis;

the emergency single-computer data transmission reading method comprises the following operation steps:

when network or program failure occurs, the main server cannot be connected correctly, or an online information system cannot be used, the emergency server provides data support;

1) reading local data of a patient, wherein the data comprises appointment information, medical record information and prescription data; judging whether the related data is contained; if the data does not exist, the local data information is read again; if the data is contained, the next step is carried out;

2) data verification, verifying data content, including: medical record data, prescription data, inspection related data poles, and inspection prescription data; after the data inspection is finished, producing a single-machine two-dimensional code;

3) reading the two-dimension code, judging whether the data carried by the two-dimension code exists repeated data after reading, and reading the two-dimension code again when judging that the repeated data exists, or else, performing the next step;

4) after the data is judged, converting the data into charging data according to the data type, judging the charging data again, judging whether the payment is needed, if so, importing the data, finishing the payment after the patient finishes the payment, and reading the two-dimensional code again without the payment data;

the system is operated based on a computer network in a hospital; the system is arranged in a hospital internal network in a C/S framework, the application is positioned in a hospital internal network, and the database is positioned on a hospital internal security platform; the hospital divides all the consulting rooms in the outpatient service area into areas, and connects all the consulting room computers in a single area and the nurse desk computers outside the area to the same intranet switch, so that the single-computer emergency program can still run through the local network environment under the condition that the network core switch and the convergence switch are in failure;

the system comprises a doctor end and a nurse end; the interface after logging in is a patient list; a list of patients who have been visited is recorded;

the doctor end can enter basic information and medical record content of a patient, and then can continue to perform corresponding diagnosis and treatment operations through functional modules in the system, such as a medication prescription, an examination application, a check application, a treatment application and the like;

the structured medical record module comprises: date of visit, department of visit, age, patient's name, clinic number, weight, allergy history, chief complaints, current medical history, past medical history, physical examination, preliminary diagnosis, treatment opinions, and physician's name;

the medication prescription module comprises: prescription attribute, group, drug name, specification, dosage, usage, route, frequency, quantity, unit price, dripping speed;

the examination application template includes: checking name, quantity, unit price, checking method, urgency and checking requirement;

the inspection application template includes: the name, the number, the unit price, the type of the specimen, whether the specimen is urgent or not and the description of the inspection;

the treatment application template comprises: treatment name, amount, unit price, treatment method, frequency, time;

information data generated in the diagnosis process are transmitted to a centralized printing module of a nurse end through the local area switch network, and the nurse end prints a two-dimensional code application form through centralized printing; the system enters a doctor visiting interface and a nurse printing interface according to judgment of doctors and nurses; the doctor seeing interface can only print the medical record, and all the application forms containing the two-dimensional codes are printed on a nurse station; printing is centralized to accelerate the doctor to see and examine.

The data format of the single machine system is standardized and defined, and classified setting is carried out according to variable characteristics; the numerical variables are specific numerical values such as age, weight, height and the like; boolean variables are expressed as yes/no, or presence/absence, such as nutritional abnormalities, falling high risk groups, etc.; enumerating all possible values of the enumerated variable according to the variable characteristics, and displaying the enumerated variable as a plurality of choices of preset values, such as medication ways, anal plug, intramuscular injection, vein and the like;

after the network security incident is recovered, all local area data of the single-computer doctor workstation can be synchronized to the hospital electronic medical record database after being checked, so that the integrity of hospital information data is guaranteed.

After the diagnosis and treatment data are input by the doctor end of the system, the nurse end can print a two-dimensional code application form, the nurse end database receives the data input by the regional doctor end, the centralized printing module prints the two-dimensional code application form, and the two-dimensional code application form has four main contents which are respectively:

(1) one-dimensional bar code: basic information such as the number of the outpatient clinic is contained;

(2) two-dimensional code: the medical information comprises prescription information, treatment information, examination and examination application of the patient at the current visit, the quantity and price of related items and the like;

(3) and (3) character information: besides the bar code information, the two-dimensional code application form contains the text information of the patient with content in the current clinic, so that the information check of operators in the later link is facilitated;

(4) and (3) guiding information: according to the content of the patient in the current visit, clear guide information is provided for the patient.

Implementation of system data management:

1. the medical staff under the condition of information system failure manually inputs the basic information of the patient by logging in the system, and clicks the patient information line to enter the patient data interface;

2. the doctor interface is divided into a navigation bar and a content bar, the navigation bar is in a list structure and displays the name, the number, the department and the category name of a patient, the content bar is divided into blocks such as a structured medical record, a medication prescription, an examination application, a treatment application and the like, and the doctor inputs the medical history, establishes a prescription, examines and examines the patient on the doctor interface.

3. The nurse interface is of a list structure and displays the outpatient service number, the name, the registered department, the outpatient service code, the outpatient service name and the printing state of the patient, and the nurse can realize the printing function by clicking the printing button.

The implementation that the charging system obtains the charging information of the patient from the two-dimensional code application form is as follows:

1. the toll collector firstly obtains the clinic number according to the one-dimensional code, and then obtains the basic information of the patient according to the clinic number association and displays the basic information on the toll software.

2. And then obtaining the prescription information, treatment information, examination and examination application, the quantity and price of related items and the like of the patient at the current visit according to the two-dimensional code.

3. After the charging is finished, the prescription information can be synchronized to departments of pharmacy, inspection, check and the like.

The invention has the technical effects that:

(I) ensuring the medical service of hospital to be continuously developed

The medical institution information system always keeps 7 x 24 uninterrupted and high-load operation, and under the condition, the conditions of information system failure, network accidental interruption and the like cannot be essentially avoided; therefore, it is critical for medical institutions to ensure the continuous operation of hospital medical services through the use of a single-machine version of an emergency system.

(II) ensuring the accuracy and integrity of hospital information data

At present, under the condition that an information system is interrupted in an out-of-home emergency treatment, a medical institution basically uses a paper application document to continue medical service; the paper document has various problems of irregular writing, non-uniform item names, indefinite item price, incapability of distinguishing handwritten handwriting and the like, and the problems are continued to a charging link to cause the hidden trouble of entry item errors; through a single-machine emergency system and a two-dimensional code application form code scanning application, the accuracy and the integrity of charging information input under the emergency condition can be guaranteed.

(III) ensuring the medical safety of patients

Different from the traditional paper application single mode, after the single-machine emergency system is used, the consistency of the information input by a toll collector and a doctor prescription can be guaranteed; the huge medical safety hidden danger brought to the medical safety of the patient due to the fact that a toll collector inputs wrong information is avoided, and therefore the medical safety of the patient is guaranteed.

(IV) greatly shortening the time consumed by the traditional paper emergency mode

After the single-machine emergency system is adopted, the operation habit, the operation interface and the operation content of a doctor are consistent with those of a normally used system, and compared with the traditional paper emergency flow, the links of centralized printing of a nurse station and code scanning and inputting of a charging terminal added in the single-machine emergency system greatly shorten the operation difficulty and the operation time of the whole flow; is an important method for guaranteeing the patient treatment order under the emergency condition.

(V) improve the patient's satisfaction of seeing a doctor, reduce the patient's waiting time under the emergency situation

Adopt unit version emergency system under emergency situation, the normal clear of the link of ensuring that the doctor visits, the quick of paying of patient is gone on, alleviates the regional condition that the patient order of seeing a doctor is chaotic that appears of outpatient emergency to reduce patient's latency under the emergency situation, alleviate patient's anxiety, improve patient's satisfaction.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an emergency stand-alone transfer system of information of seeing a doctor who is applied to in hospital, includes regional stand-alone construction system, its characterized in that: the regional single machine construction system is formed by combining a doctor computer host, a special machine room switch, a nurse station computer host and other medical service terminals;

when network or program failure occurs, the main server cannot be connected correctly, or an online information system cannot be used, a local area network is constructed by a machine room switch, a medical computer host and a nurse station computer host, and the local area network server consisting of the machine room switch can provide support in the local area network; data conversion, transmission and downloading are realized;

the emergency single machine management process method comprises the following operation steps:

the single machine management flow system comprises a main server and an emergency server;

the first step is as follows: entry of data

The patient firstly needs to make appointment registration processing at a registration charging workstation, corresponding appointment registration data can be written into a main server, and the main server can back up the appointment registration data and back up the appointment registration data into an emergency server;

the second step is that: diagnosis by doctor

Patients wait in line at a nurse workstation for diagnosis of doctors; when diagnosis is carried out, the phenomenon of network disconnection does not occur, a doctor calls registration data information from the main server by using a computer, obtains corresponding medical record data according to communication and diagnosis and treatment with a patient, and opens a corresponding prescription according to the medical record information; the related medical record information data and prescription data are recorded in the main server, the doctor prints the related medical record and prescription and delivers the medical record and prescription to the patient, and the patient goes to the corresponding charging and medicine taking place to carry out card swiping, charging and medicine taking;

when network or program faults occur, the main server cannot be connected correctly, or an online information system cannot be used, a doctor calls registration data information of a patient through an emergency server in a local area network through a computer, corresponding medical record data is obtained according to communication and diagnosis and treatment with the patient, and a corresponding prescription is made according to the medical record information; recording related medical record information data and prescription data into an emergency server, enabling a patient to arrive at a nurse station, printing the medical record information and paying in a centralized manner, calling the emergency server data information by a nurse station computer, printing the medical record information and the prescription data, producing corresponding two-dimensional code data after printing, scanning the two-dimensional code by the patient according to the two-dimensional code to pay for the medical record information, taking a corresponding prescription order to a pharmacy, taking medicine, and completing diagnosis;

the emergency single-computer data transmission reading method comprises the following operation steps:

when network or program failure occurs, the main server cannot be connected correctly, or an online information system cannot be used, the emergency server provides data support;

1) reading local data of a patient, wherein the data comprises appointment information, medical record information and prescription data; judging whether the related data is contained; if the data does not exist, the local data information is read again; if the data is contained, the next step is carried out;

2) data verification, verifying data content, including: medical record data, prescription data, inspection related data poles, and inspection prescription data; after the data inspection is finished, producing a single-machine two-dimensional code;

3) reading the two-dimension code, judging whether the data carried by the two-dimension code exists repeated data after reading, and reading the two-dimension code again when judging that the repeated data exists, or else, performing the next step;

4) after the data is judged, converting the data into charging data according to the data type, judging the charging data again, judging whether the payment is needed, if so, importing the data, finishing the payment after the patient finishes the payment, and reading the two-dimensional code again without the payment data;

the system is operated based on a computer network in a hospital; the system is arranged in a hospital internal network in a C/S framework, the application is positioned in a hospital internal network, and the database is positioned on a hospital internal security platform; the hospital divides all the consulting rooms in the outpatient service area into areas, and connects all the consulting room computers in a single area and the nurse desk computers outside the area to the same intranet switch, so that the single-computer emergency program can still run through the local network environment under the condition that the network core switch and the convergence switch are in failure;

the system comprises a doctor end and a nurse end; the interface after logging in is a patient list; a list of patients who have been visited is recorded;

the doctor end can enter basic information and medical record content of a patient, and then can continue to perform corresponding diagnosis and treatment operations through functional modules in the system, such as a medication prescription, an examination application, a check application, a treatment application and the like;

the information data generated in the diagnosis are transmitted to a centralized printing module of a nurse end through the local area switch network, and the nurse end prints the two-dimensional code application form through centralized printing.

2. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the structured medical record module comprises: date of visit, department of visit, age, patient's name, clinic number, weight, allergy history, chief complaints, current medical history, past medical history, physical examination, preliminary diagnosis, treatment opinions, and physician's name.

3. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the medication prescription module comprises: prescription attribute, group, drug name, size, dosage, usage, route, frequency, quantity, unit price, and drip rate.

4. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the inspection application template includes: the name, the number, the unit price, the inspection method, whether to be urgent or not and the inspection requirement.

5. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the inspection application template includes: test name, number, unit price, specimen type, urgency, test description.

6. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the treatment application template comprises: name of treatment, amount, unit price, method of treatment, frequency, time.

7. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: the data format of the single machine system is standardized and defined, and classified setting is carried out according to variable characteristics; the numerical variables are specific numerical values such as age, weight, height and the like; boolean variables are expressed as yes/no, or presence/absence, such as nutritional abnormalities, falling high risk groups, etc.; the enumerated variables enumerate all possible values of the variables according to the variable characteristics, and are displayed as multiple choices of preset values, such as medication routes, anal plug, intramuscular injection, vein and the like.

8. The emergency stand-alone delivery system for the clinic information in the hospital according to claim 1, wherein: after the network security incident is recovered, all local area data of the single-computer doctor workstation can be synchronized to the hospital electronic medical record database after being checked, so that the integrity of hospital information data is guaranteed.

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