CN111755132B - Information management system - Google Patents

Abstract

The invention discloses an information management system, which belongs to the field of informationized management systems and comprises a doctor workstation subsystem, a nurse workstation subsystem, a laboratory result subsystem, a consultation subsystem, a patient use subsystem, an information transfer docking management subsystem, a server, a medical institution statistics subsystem, a medicine management subsystem, a patient transfer subsystem and a professional exposure management subsystem. The invention improves the efficiency of information filling and processing, and changes the traditional mode of 'patient visit-filling paper form-data input reporting' into 'patient visit complete flow informatization'. The repeated information is automatically called by the system, unnecessary repeated input is omitted, meanwhile, laboratory data can be obtained by calling a hospital LIS or HIS system database to be automatically filled, the working efficiency is remarkably improved, manual input errors are reduced, and the labor cost is remarkably reduced.

Description

Information management system

Technical Field

The invention relates to the field of informationized management systems, in particular to an information management system.

Background

In the past years, the basic management of the antiviral treatment work of the AIDS in the whole area is realized by the national system in the area. In practice, however, the operations of screening tuberculosis, detecting HIV antibodies of single-yang spouse, filling individual follow-up table and the like of the cured person each year are mainly carried out by an AIDS antiviral treatment fixed-point hospital, and the workload of the fixed-point hospital is obviously increased. In addition, fixed-point hospitals also bear the assessment and treatment of acquired immune deficiency syndrome professional exposure, and acquired immune deficiency syndrome professional exposure management work is in a disordered state of non-informationized management for years due to the deactivation of laboratory systems in national systems. With the extension of the development time of antiviral treatment, the problems of toxic and side effects, treatment failure, drug resistance and monitoring and treatment of complications related to long-term antiviral treatment are increasingly prominent. The related management of AIDS prevention and treatment in I area is provided with higher requirements, and the prior national information system can not meet the requirements of comprehensive antiviral treatment management in I area. The main aspects are as follows:

1. the related information of the anti-virus treatment of the AIDS is large in quantity, the manual input workload is large, and errors are easy to occur. The traditional working mode is that after a doctor or a nurse fills a paper form, an information input person inputs a national data system, so that the efficiency is low and the input error is easy. With the increase of the number of the patients, the daily diagnosis and treatment workload of the medical staff at each treatment point is large, and the acquisition and input quantity of the data information is also large. Hospitals with a large number of treatment people often need to arrange a plurality of full-time information input personnel to work, and the labor burden is heavy.

2. The data content of the repeated filling in of the different workshops is more, and time and energy are wasted. In actual work, from patient visit to epidemic situation report, individual case follow-up table filling, tuberculosis screening and partner detection registration, laboratory result recording, information input system and other working links are completed, medical staff needs to manually fill medical records and various forms, filling items are numerous, and most of information has repeatability, such as patient name, sex, address, identity card number, antiviral treatment number, detection result and the like. The repeated filling of the same content disperses and wastes the time and energy of medical staff, thereby affecting the quality of main works such as diagnosis and treatment, consultation and the like.

3. The time efficiency of collecting and reporting other relevant working data except antiviral treatment and statistical analysis is low. For the diagnosis of AIDS patients, most treatment points still stay at the level of original working modes such as manual writing of medical records and prescriptions, manual filling of forms, manual statistics and the like, and compared with the diagnosis and treatment of other diseases at each treatment point which is assisted by an informatization mode, the diagnosis and treatment of other diseases at each treatment point is far behind, and the efficiency is extremely low. In addition, due to the limitation of the authority of the national system, hospitals cannot realize informationized management such as tuberculosis screening, spouse detection, individual case follow-up and the like through the national system, original data of all treatment points still need to be reported after manual registration, classification and statistics, timeliness and accuracy are difficult to ensure, and the efficiency of data reporting and statistical analysis is greatly restricted.

4. The information exchange process has potential safety hazards. The AIDS treatment data has corresponding confidentiality requirements, and the treatment information (treatment list, number of people, examination and approval of transfer, follow-up visit completion condition, summarized analysis result and the like) of each treatment point is stored and dispersed, and is transmitted through the Internet only through simple encryption during transmission, so that the information safety is difficult to ensure, and potential safety hazards of data loss and leakage exist.

5. The monitoring of relevant medical indexes such as treatment failure, toxic and side effects of antiviral treatment drugs, long-term complications and the like in antiviral treatment work lacks a rapid guiding method. The traditional Guangxi AIDS diagnosis and treatment quality control center downloads historical cards in the national system to carry out statistical analysis on related indexes, and feeds back the relevant indexes to each treatment point after finding out problems, so that the treatment data size is large, the time consumption is long, and the timeliness is low.

Disclosure of Invention

The invention aims to provide an information management system which solves the technical problems mentioned in the background art. The information management system is mainly used for carrying out informatization management on data of the whole treatment process of patients with AIDS.

The information management system comprises a doctor workstation subsystem, a nurse workstation subsystem, a laboratory result subsystem, a consultation subsystem, a patient use subsystem, an information transfer docking management subsystem, a server, a medical institution statistics subsystem, a medicine management subsystem, a patient transfer subsystem and a professional exposure management subsystem, wherein the doctor workstation subsystem, the nurse workstation subsystem, the laboratory result subsystem, the consultation subsystem and the patient use subsystem are connected with the server through the information transfer docking management subsystem, and the medical institution statistics subsystem, the medicine management subsystem, the patient transfer subsystem and the professional exposure management subsystem are all connected with the server;

the doctor workstation subsystem is used for recording basic information of a patient, tuberculosis screening detection result data and patient spouse information; the nurse workstation subsystem is used for registering the information of the doctor, the appointment and the follow-up information of the patient; the laboratory result subsystem is used for recording and counting the test result, the monitoring index and the drug resistance test result information; the consultation subsystem is used for submitting consultation information and recording consultation process data and the selection of consultation specialists; the patient using subsystem is used for reminding the patient of taking medicines, carrying out follow-up time information and reading detection result information; the information transfer docking management subsystem is used for direct communication, information sharing and communication among the doctor workstation subsystem, the nurse workstation subsystem, the laboratory result subsystem and the consultation subsystem; the server is used for storing data, updating data and inquiring data; the medical institution statistics subsystem is used for statistically recording hospital information with consultation capability of patients, relevant doctor information of the hospitals and medication related information of the hospitals; the medicine management subsystem is used for recording and counting the use condition of antiviral medicines and reporting, using and destroying condition data of medicines in each hospital; the patient transfer subsystem is used for docking between hospitals and acquiring treatment history data of patients when the patients are transferred; the job exposure management subsystem is used for counting job exposure personnel information and issuing first-pass job subsidies.

The doctor workstation subsystem comprises a basic information management module, a follow-up visit and medication information management module, a tuberculosis screening detection management module and a spouse detection management module, wherein the basic information management module is used for inquiring and recording basic information data of a patient; the follow-up visit and medication information management module is used for recording and inquiring follow-up visit information and medication information of a patient, the tuberculosis screening detection management module is used for recording tuberculosis screening detection result data of the patient, and the spouse detection management module is used for recording and inquiring spouse information and detection result information of the patient.

The nurse workstation subsystem comprises a telephone follow-up management module, a visit registration module, a today follow-up module and a to-be-diagnosed management module, wherein the telephone follow-up management module is used for recording information related to telephone follow-up, including non-follow-up information and visited information; the medical consultation system comprises a consultation registering module, a consultation management module, a present follow-up module and a short message notification module, wherein the consultation registering module is used for recording information of people needing to be treated and transmitting the information of the people needing to be treated to a consultation subsystem, the present follow-up module is used for inquiring information of patients needing to be followed by telephone on the same day and notifying corresponding responsible nurses of the information, and the present management module is used for managing information of the people not needing to be treated and arranging the information of the patients needing to be treated.

The laboratory result subsystem comprises a drug-resistant early warning and monitoring index management module, a virology effect index management module, a drug-resistant detection result management module, a detection result importing module and an abnormal value reminding module, wherein the drug-resistant early warning and monitoring index management module is used for recording and monitoring early drug resistance of a patient, simultaneously notifying corresponding doctors of early drug data short messages of the drug resistance, the virology effect index management module is used for recording virology effect data of the patient and storing statistical data in a server, the drug-resistant detection result management module is used for recording and counting detection result data of the drug-resistant patient, the detection result importing module imports the detected result data into the server for inquiry, and the abnormal value reminding module is used for setting a comparison value of the administration detection data of each drug, and when abnormal data appear, the module sends short messages to notify the doctors and nurses.

The consultation subsystem comprises a consultation application module, a consultation recording module and an expert database module, wherein the consultation application module is used for enabling registered nurses to make appointment consultation for consultation staff, inquiring corresponding doctors from the expert database module and transmitting consultation application data to the consultation recording module, the consultation recording module is used for enabling the doctors to input and store consultation process information in the consultation process, the consultation process information comprises video data of the consultation staff process and diagnosis and suggestion data of the doctors, and the expert database module is used for storing consultation expert information.

The patient using subsystem comprises a follow-up reminding module, a detection result inquiring and reading module and a medicine taking reminding module, wherein the follow-up reminding module comprises a nurse phone follow-up visit and doctor-to-home visit time arrangement and sends out voice reminding users, the detection result inquiring and reading module is used for storing detection results of different degrees and corresponding interpretation data, the detection results are used for timely inquiring and reading by patients, and the medicine taking reminding module is used for reminding the patients to take medicines timely.

The information transfer docking management subsystem comprises an operation log recording module, a message version module, a real-time online communication module, an internal notification announcement module, a mail center module and a file data module, wherein the operation log recording module is used for recording distance operation log data of a doctor workstation subsystem, a nurse workstation subsystem, a laboratory result subsystem and a consultation subsystem, the message version module is used for enabling a patient to leave messages for doctors and nurses or enabling doctors and nurses to leave messages mutually between the doctors and nurses, the real-time online communication module is used for enabling real-time online communication between the doctors and the doctors, between nurses and nurses or between the doctors and nurses to communicate, the internal notification announcement module is used for publishing related notification data, the mail center module is used for enabling doctors and the doctors, between nurses and doctors or between doctors and nurses to communicate by sending mails, and the file data module is used for uploading shared data between hospitals and doctors.

The medical institution statistics subsystem comprises a hospital management module, a medical staff management module, an antiviral treatment scheme statistics module, an antiviral treatment queue analysis report module, a treatment condition statistics module, a treatment scheme statistics module, a queue analysis report module, a medicine distribution statistics module, a work progress report module and a patient information module, wherein the hospital management module records and counts hospital information with treatment qualification, the medical staff management module is used for recording information about medical staff first, the antiviral treatment scheme statistics module is used for recording an antiviral treatment scheme and is used for inquiring, the treatment scheme statistics module is used for counting treatment schemes for inquiring treatment of subsequent patients, and the medicine distribution statistics module is used for counting data of medicines distributed by hospitals and patients.

The medicine management subsystem comprises an antiviral medicine use condition summarizing module, a pharmacy medicine dispensing module, a medicine inventory registering module, a medicine inventory management module, a medicine claim module, a prescription unit dose counting module, a medicine loss reporting/destroying module, a medicine warehouse-in registering module and a doctor prescription counting module, wherein the medicine management subsystem sets labels for every hospital, and manages corresponding medicines in and out of the hospital and medicines distributed to patients.

The job exposure management subsystem comprises a subsidy issuing management module, a job exposure information management module, a patient history card downloading module and a treatment condition statistics module, wherein the subsidy issuing management module is used for managing corresponding subsidy issuing conditions of job exposure staff, the job exposure information management module is used for recording information and family information of job exponents, the patient history card downloading module is used for downloading patient treatment process data, and the treatment condition statistics module is used for summarizing all treatment data of each patient.

The invention adopts the technical proposal and has the following technical effects:

(1) The invention improves the efficiency of information filling and processing, and changes the traditional mode of 'patient visit-filling paper form-data input reporting' into 'patient visit complete flow informatization'. By simulating the flow of the hospital patient visit, the record of 'in-the-event' is realized in each flow serving the visit work. By automatically calling the repeated information by the system, unnecessary repeated input is saved. And laboratory data can be acquired by calling a hospital LIS or HIS system database to be automatically filled, so that manual input errors are reduced. Through the above modes, the efficiency is obviously improved, the workload of medical staff at each treatment point is reduced, the manpower is liberated, the information interconnection and intercommunication of the treatment points in the whole area are realized, and the information interconnection and intercommunication of the treatment points in the whole area are convenient for communication management through the internal communication interactive edition.

(2) The information safety is easier to ensure, the problem that the safety management is difficult to ensure when the traditional data are scattered at all treatment points is solved, and the centralized management of the data is realized through centralized storage; the settings of authority setting, purpose management and the like for information transmission, checking, modification, copying and downloading are enhanced, the source of the information is guaranteed to the greatest extent, and the leakage risk in the transmission process is reduced; all information, data, notices and the like related to treatment are stored and read in a server, so that closed use of the information is realized, and meanwhile, the use of the pursuit data is realized by recording an operation log, and the data are automatically classified, counted and analyzed to serve quality control, guidance, supervision and decision; the timeliness is improved. The treatment condition of the patients in the whole area can be recorded through the system 'in-process', so that the relevant treatment condition of the whole area can be known comprehensively and dynamically in real time.

(3) The flexibility is high, and the Guangxi system can timely and conveniently increase contents according to the actual management work requirement, such as: the detection condition of the spouse, positive spouse positive rotation rate, tuberculosis detection rate, statistics of side effects of medicines, distribution and dynamic change of patients can be combined with a GIS system and the like.

Drawings

Fig. 1 is a system block diagram of the invention.

Fig. 2 is a block diagram of an inventive physician workstation subsystem.

Fig. 3 is a block diagram of the inventive nurse workstation subsystem.

FIG. 4 is a block diagram of an inventive laboratory results subsystem.

Fig. 5 is a block diagram of an inventive patient use subsystem module.

Fig. 6 is a block diagram of the consultation subsystem of the invention.

Fig. 7 is a block diagram of an inventive information transfer docking management subsystem.

Fig. 8 is a block diagram of an inventive medication management subsystem module.

Fig. 9 is a block diagram of an inventive medical facility statistics subsystem.

Fig. 10 is a block diagram of an inventive professional exposure management subsystem.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and by way of preferred embodiments. It should be noted, however, that many of the details set forth in the description are merely provided to provide a thorough understanding of one or more aspects of the invention, and that these aspects of the invention may be practiced without these specific details.

As shown in fig. 1, an information management system according to the present invention includes a doctor workstation subsystem, a nurse workstation subsystem, a laboratory results subsystem, a consultation subsystem, a patient use subsystem, an information transfer docking management subsystem, a server, a medical institution statistics subsystem, a medicine management subsystem, a patient transfer subsystem, and a professional exposure management subsystem. The doctor workstation subsystem, the nurse workstation subsystem, the laboratory result subsystem, the consultation subsystem and the patient using subsystem are connected with the server through the information transfer docking management subsystem, and the medical institution statistics subsystem, the medicine management subsystem, the patient transfer subsystem and the occupational exposure management subsystem are all connected with the server. Doctor workstation subsystems are used primarily by doctors and nurse workstation subsystems are used primarily by nurses. The repeated information is automatically called by the system, unnecessary repeated input is omitted, meanwhile, laboratory data can be obtained by calling a hospital LIS or HIS system database to be automatically filled, the working efficiency is remarkably improved, manual input errors are reduced, and the labor cost is remarkably reduced.

As shown in fig. 2, the doctor workstation subsystem is used for recording basic information of a patient, tuberculosis screening test result data and patient spouse information. The doctor workstation subsystem comprises a basic information management module, a follow-up visit and medication information management module, a tuberculosis screening detection management module and a spouse detection management module, wherein the basic information management module is used for inquiring and recording basic information data of a patient; the follow-up visit and medication information management module is used for recording and inquiring follow-up visit information and medication information of a patient, the tuberculosis screening detection management module is used for recording tuberculosis screening detection result data of the patient, and the spouse detection management module is used for recording and inquiring spouse information and detection result information of the patient.

As shown in fig. 3, the nurse workstation subsystem is used to register the visit information, appointment visit, and patient follow-up information. The nurse workstation subsystem comprises a telephone follow-up management module, a visit registration module, a today follow-up module and a to-be-diagnosed management module, wherein the telephone follow-up management module is used for recording information related to telephone follow-up, including non-follow-up information and visited information; the medical consultation system comprises a consultation registering module, a consultation management module, a present follow-up module and a short message notification module, wherein the consultation registering module is used for recording information of people needing to be treated and transmitting the information of the people needing to be treated to a consultation subsystem, the present follow-up module is used for inquiring information of patients needing to be followed by telephone on the same day and notifying corresponding responsible nurses of the information, and the present management module is used for managing information of the people not needing to be treated and arranging the information of the patients needing to be treated.

As shown in fig. 4, the laboratory results subsystem is used to record and count test results, monitoring indicators, and drug resistance test result information. The laboratory result subsystem comprises a drug-resistant early warning and monitoring index management module, a virology effect index management module, a drug-resistant detection result management module, a detection result importing module and an abnormal value reminding module, wherein the drug-resistant early warning and monitoring index management module is used for recording and monitoring early drug resistance of a patient, simultaneously notifying corresponding doctors of early drug data short messages of the drug resistance, the virology effect index management module is used for recording virology effect data of the patient and storing statistical data in a server, the drug-resistant detection result management module is used for recording and counting detection result data of the drug-resistant patient, the detection result importing module imports the detected result data into the server for inquiry, and the abnormal value reminding module is used for setting a comparison value of the administration detection data of each drug, and when abnormal data appear, the module sends short messages to notify the doctors and nurses.

As shown in fig. 5, the consultation subsystem is used for submitting consultation information, recording consultation process data and consultation expert selection. The consultation subsystem comprises a consultation application module, a consultation recording module and an expert database module, wherein the consultation application module is used for enabling registered nurses to make appointment consultation for consultation staff, inquiring corresponding doctors from the expert database module and transmitting consultation application data to the consultation recording module, the consultation recording module is used for enabling the doctors to input and store consultation process information in the consultation process, the consultation process information comprises video data of the consultation staff process and diagnosis and suggestion data of the doctors, and the expert database module is used for storing consultation expert information.

As shown in fig. 6, the patient use subsystem is used to alert the patient to medication, follow-up time information, and interpretation of test result information. The patient using subsystem comprises a follow-up reminding module, a detection result inquiring and reading module and a medicine taking reminding module, wherein the follow-up reminding module comprises a nurse phone follow-up visit and doctor-to-home visit time arrangement and sends out voice reminding users, the detection result inquiring and reading module is used for storing detection results of different degrees and corresponding interpretation data, the detection results are used for timely inquiring and reading by patients, and the medicine taking reminding module is used for reminding the patients to take medicines timely.

As shown in fig. 7, the information transfer docking management subsystem is used for direct communication, information sharing and communication among the doctor workstation subsystem, the nurse workstation subsystem, the laboratory result subsystem and the consultation subsystem. The information transfer docking management subsystem comprises an operation log recording module, a message version module, a real-time online communication module, an internal notification announcement module, a mail center module and a file data module, wherein the operation log recording module is used for recording distance operation log data of a doctor workstation subsystem, a nurse workstation subsystem, a laboratory result subsystem and a consultation subsystem, the message version module is used for enabling a patient to leave messages for doctors and nurses or enabling doctors and nurses to leave messages mutually between the doctors and nurses, the real-time online communication module is used for enabling real-time online communication between the doctors and the doctors, between nurses and nurses or between the doctors and nurses to communicate, the internal notification announcement module is used for publishing related notification data, the mail center module is used for enabling doctors and the doctors, between nurses and doctors or between doctors and nurses to communicate by sending mails, and the file data module is used for uploading shared data between hospitals and doctors.

As shown in fig. 8, the server is configured to store data, update data, and query data; the medical institution statistics subsystem is used for statistically recording hospital information with consultation capability of patients, relevant doctor information of hospitals and medication related information of hospitals. The medicine management subsystem is used for recording and counting the use condition of antiviral medicines and reporting, using and destroying condition data of medicines in each hospital. The medicine management subsystem comprises an antiviral medicine use condition summarizing module, a pharmacy medicine dispensing module, a medicine inventory registering module, a medicine inventory management module, a medicine claim module, a prescription unit dose counting module, a medicine loss reporting/destroying module, a medicine warehouse-in registering module and a doctor prescription counting module, wherein the medicine management subsystem sets labels for every hospital, and manages corresponding medicines in and out of the hospital and medicines distributed to patients.

As shown in fig. 9, the medical institution statistics subsystem includes a hospital management module, a medical staff management module, an antiviral treatment plan statistics module, an antiviral treatment queue analysis report module, a treatment condition statistics module, a treatment plan statistics module, a queue analysis report module, a drug delivery statistics module, a work progress report module and a patient information module, wherein the hospital management module records and counts hospital information with treatment qualification, the medical staff management module is used for recording information about medical staff first, the antiviral treatment plan statistics module is used for recording an antiviral treatment plan and is used for query, the treatment plan statistics module is used for counting treatment plans for subsequent patient treatment query, and the drug delivery statistics module is used for counting data of drugs delivered by each hospital and patient.

As shown in fig. 10, the patient transfer subsystem is used for docking between hospitals and acquiring treatment history data of patients when the patients are transferred; the job exposure management subsystem is used for counting job exposure personnel information and issuing first-pass job subsidies. The job exposure management subsystem comprises a subsidy issuing management module, a job exposure information management module, a patient history card downloading module and a treatment condition statistics module, wherein the subsidy issuing management module is used for managing corresponding subsidy issuing conditions of job exposure staff, the job exposure information management module is used for recording information and family information of job exponents, the patient history card downloading module is used for downloading patient treatment process data, and the treatment condition statistics module is used for summarizing all treatment data of each patient.

The foregoing is merely a preferred embodiment of the invention, and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the invention, which are intended to be comprehended within the scope of the invention.

Claims (1)

1. An information management system, characterized in that: the medical institution statistics subsystem, the medicine management subsystem, the patient transfer subsystem and the occupational exposure management subsystem are all connected with the server;

the doctor workstation subsystem is used for recording basic information of a patient, tuberculosis screening detection result data and patient spouse information; the nurse workstation subsystem is used for registering the information of the doctor, the appointment and the follow-up information of the patient; the laboratory result subsystem is used for recording and counting the test result, the monitoring index and the drug resistance test result information; the consultation subsystem is used for submitting consultation information and recording consultation process data and the selection of consultation specialists; the patient using subsystem is used for reminding the patient of taking medicines, carrying out follow-up time information and reading detection result information; the information transfer docking management subsystem is used for direct communication, information sharing and communication among the doctor workstation subsystem, the nurse workstation subsystem, the laboratory result subsystem and the consultation subsystem; the server is used for storing data, updating data and inquiring data; the medical institution statistics subsystem is used for statistically recording hospital information with consultation capability of patients, relevant doctor information of the hospitals and medication related information of the hospitals; the medicine management subsystem is used for recording and counting the use condition of antiviral medicines and reporting, using and destroying condition data of medicines in each hospital; the patient transfer subsystem is used for docking between hospitals and acquiring treatment history data of patients when the patients are transferred; the job exposure management subsystem is used for counting job exposure personnel information and issuing first-pass job subsidies;

the doctor workstation subsystem comprises a basic information management module, a follow-up visit and medication information management module, a tuberculosis screening detection management module and a spouse detection management module, wherein the basic information management module is used for inquiring and recording basic information data of a patient; the follow-up visit and medication information management module is used for recording and inquiring follow-up visit information and medication information of a patient, the tuberculosis screening detection management module is used for recording tuberculosis screening detection result data of the patient, and the spouse detection management module is used for recording and inquiring spouse information and detection result information of the patient;

the nurse workstation subsystem comprises a telephone follow-up management module, a visit registration module, a today follow-up module and a to-be-diagnosed management module, wherein the telephone follow-up management module is used for recording information related to telephone follow-up, including non-follow-up information and visited information; the present invention relates to a medical treatment system, which comprises a medical treatment registering module, a consultation subsystem, a present follow-up module, a short message service managing module and a medical treatment managing module, wherein the medical treatment registering module is used for recording information of medical treatment personnel required and transmitting the information of medical treatment to the consultation subsystem;

the laboratory result subsystem comprises a drug-resistant early warning and monitoring index management module, a virology effect index management module, a drug-resistant detection result management module, a detection result importing module and an abnormal value reminding module, wherein the drug-resistant early warning and monitoring index management module is used for recording and monitoring early drug resistance of a patient, notifying corresponding doctors of early drug data short messages of the drug resistance, the virology effect index management module is used for recording virology effect data of the patient and storing statistical data in a server, the drug-resistant detection result management module is used for recording and counting detection result data of the drug-resistant patient, the detection result importing module imports the detected result data into the server for inquiry, and the abnormal value reminding module is used for setting a comparison value of the administration detection data of each drug, and when abnormal data appear, the module sends short messages to notify the doctors and nurses;

the consultation subsystem comprises a consultation application module, a consultation recording module and an expert database module, wherein the consultation application module is used for enabling registered nurses to make appointment consultation for consultants, inquiring corresponding doctors from the expert database module and transmitting consultation application data to the consultation recording module, the consultation recording module is used for inputting and storing consultation process information in the consultation process of the doctors, the consultation process information comprises video data of the consultation personnel process and diagnosis and suggestion data of the doctors, and the expert database module is used for storing consultation expert information;

the patient using subsystem comprises a follow-up reminding module, a detection result inquiring and reading module and a medicine taking reminding module, wherein the follow-up reminding module comprises a nurse phone follow-up and doctor-to-home visit time arrangement and sends out voice reminding users, the detection result inquiring and reading module is used for storing detection results of different degrees and corresponding interpretation data for timely inquiring and reading by patients, and the medicine taking reminding module is used for reminding the patients to take medicines in time;

the information transfer docking management subsystem comprises an operation log recording module, a message version module, a real-time online communication module, an internal notification announcement module, a mail center module and a file data module, wherein the operation log recording module is used for recording distance operation log data of a doctor workstation subsystem, a nurse workstation subsystem, a laboratory result subsystem and a consultation subsystem, the message version module is used for enabling a patient to leave messages for doctors and nurses or enabling doctors and nurses to leave messages mutually between the doctors and nurses, the real-time online communication module is used for enabling real-time online communication between the doctors and the doctors, between nurses and nurses or between the doctors and nurses to communicate, the internal notification announcement module is used for publishing related notification data, the mail center module is used for enabling doctors and the doctors, between nurses and doctors or between doctors and nurses to communicate by sending mail, and the file data module is used for uploading shared data between hospitals and doctors;

the medical institution statistics subsystem comprises a hospital management module, a medical staff management module, an antiviral treatment scheme statistics module, an antiviral treatment queue analysis report module, a treatment condition statistics module, a treatment scheme statistics module, a queue analysis report module, a medicine distribution statistics module, a work progress report module and a patient information module, wherein the hospital management module records and counts hospital information with treatment qualification, the medical staff management module is used for recording information about medical staff at first, the antiviral treatment scheme statistics module is used for recording an antiviral treatment scheme and is used for inquiring, the treatment scheme statistics module is used for counting treatment schemes for inquiring treatment of subsequent patients, and the medicine distribution statistics module is used for counting data of medicines distributed by each hospital and each patient;

the medicine management subsystem comprises an antiviral medicine use condition summarizing module, a pharmacy medicine dispensing module, a medicine inventory registering module, a medicine inventory management module, a medicine claim module, a prescription unit dose counting module, a medicine loss reporting/destroying module, a medicine warehouse-in registering module and a doctor prescription counting module, wherein the medicine management subsystem sets a label for each hospital, and manages the corresponding medicine of the hospital to enter and exit and the medicine distributed to a patient;

the job exposure management subsystem comprises a subsidy issuing management module, a job exposure information management module, a patient history card downloading module and a treatment condition statistics module, wherein the subsidy issuing management module is used for managing corresponding subsidy issuing conditions of job exposure staff, the job exposure information management module is used for recording information and family information of job exponents, the patient history card downloading module is used for downloading patient treatment process data, and the treatment condition statistics module is used for summarizing all treatment data of each patient.