CN117558405A - Intelligent hemodialysis management system - Google Patents

Abstract

The invention discloses an intelligent hemodialysis management system, which particularly relates to the technical field of hemodialysis management, and comprises an application service layer, a data docking service layer, a data authority layer and a storage layer; the application service layer and the data docking service layer are both communicated with the data authority layer, the data authority layer is communicated with the storage layer, the application service layer is a working layer for providing business processing and interaction service for each hospital area and is used for realizing specific business functions, the data docking service layer is used for synchronizing information, the data authority layer is used for providing authority management service for the application service layer and the data docking service layer, and the storage layer is used for storing information. The invention greatly reduces the workload of medical staff, improves the efficiency of the medical staff, improves the accuracy and the safety of data, improves the hemodialysis treatment experience, reduces the management burden and greatly improves the treatment quality.

Description

Intelligent hemodialysis management system

Technical Field

The invention relates to the technical field of hemodialysis, in particular to an intelligent hemodialysis management system.

Background

Hemodialysis treatment of a patient suffering from kidney disease is carried out without kidney source transplantation, and most of hemodialysis treatment is accompanied with dialysis treatment for life, and is another option outside of drug treatment, the basic principle is that blood is extracted, toxins or substances to be removed are filtered out through a special filter membrane, and the blood is returned to the body, so that blood purification treatment is important and effective in treatment of diseases, and is a treatment scheme which is widely used. The existing hospitals have the following problems in hemodialysis treatment:

1. along with the continuous pursuit of medical staff for improving the curative effect of hemodialysis treatment, in the process of continuously exploring a better treatment scheme, the condition that the hemodialysis machine equipment is various in brand and model also appears. In order to follow up the treatment condition of the patient, medical staff can copy important dialysis index data on the hemodialysis equipment at intervals so as to further follow up a later treatment scheme and improve the treatment effect. However, the blood permeability index parameter units or calculation modes between different brands and different types of the same brands are different, and the data transmission communication protocols are different, so that under the condition of no system, medical workers can hardly utilize the data information to judge the recent treatment condition of a patient, and the accurate, effective and reliable follow-up treatment scheme of the patient is also difficult to carry out.

2. Unlike other patients in departments, hemodialysis patients are dialysis treatment patients in long-term hospital, and in order to lighten frequent doctor orders and reduce frequent queuing and registration fee collection of patients, most of hospitals currently adopt a scheme of pre-paying one month of hemodialysis fee and medicine fee per month, and medicines are stored by the patients and carried by the patients each time. However, the burden of carrying a large amount of medicines on patients is increased, and the requirements on temperature and illumination time limit are met for storing some medicine preparations, so that inconvenience and unsafe performance exist. To enhance the patient treatment experience, and to take into account safety factors, the hemodialysis room will store purchased hemodialysis medicines, and the medical staff will be ready for relevant consumables and medicines before each time the patient gets the hemodialysis. Due to the management of the fee determining system, the hemodialysis room has a great deal of complicated work in the aspects of medicine preparation and warehouse-out.

3. Before paperless, a hemodialysis department doctor cannot see the hemodialysis treatment condition, the medication condition and the like of a patient through the system, the only reference data are patient dialysis treatment notes written by medical staff, the content is fragmented, the style is different, some desktop hemodialysis systems are available in some hospitals, but the functional profiling cannot meet the requirements of the medical staff, and the system information such as HIS, LIS, RIS and the like cannot be conveniently and rapidly consulted.

4. In the whole hemodialysis treatment period, clinical nurses have heavy record tasks, medicine in-out warehouse accounting, charge collection and other tasks except for the hemodialysis treatment, and the important data information is not systematically managed, so that the clinical nurses cannot generate sufficient treatment data value for subsequent treatment.

5. Compared with medicines, the hemodialysis room of each hospital is different in consumable management, and a plurality of hospital areas are used for controlling the purchase and use of consumable in the department, and most of hospital areas adopt an excel recording mode, so that the conditions of missing in-out records, overdue consumable, consumable loss and the like are easy to occur under the condition of no system management, and the inventory quantity is wrong.

6. When the paper management mode is adopted, doctors change medical advice and change treatment schemes usually through oral communication, the communication success rate is high, the scheduling of medical staff on a patient treatment plan is increased, the dialysis preparation for the patient is inconvenient in advance, the work flow is not standard, and work errors are easy to occur.

7. In the treatment process, when the treatment index of a patient exceeds the normal range, the paper sheet cannot be effectively embodied. The inspection paper is various and easy to lose, and the curative effect of dialysis treatment cannot be intuitively reflected. In the nursing process of nurses, if the equipment data exceeds the normal range, the equipment data cannot be intuitively reflected on the paper sheet.

Disclosure of Invention

In order to overcome the defects in the prior art, the intelligent hemodialysis management system provided by the invention greatly reduces the work load of medical staff, improves the efficiency of the medical staff, improves the accuracy and safety of data, improves the hemodialysis treatment experience, reduces the management load and greatly improves the treatment quality.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent hemodialysis management system comprises an application service layer, a data docking service layer, a data authority layer and a storage layer;

the application service layer and the data docking service layer are both communicated with the data authority layer, and the data authority layer is communicated with the storage layer;

the application service layer provides business processing and interaction service for each hospital area and is used for realizing specific business functions;

the application service layer comprises a hospital area web service module and a hospital area interface service module, wherein the hospital area interface service module comprises a basic information unit, a hemodialysis service unit, a CRRT service unit, a hemodialysis pharmacy management unit and a hardware data acquisition unit;

the data docking service layer is used for synchronizing information; the data docking service layer comprises a hospital area data synchronization service module, wherein the hospital area data synchronization service module comprises a basic information synchronization unit, an order information synchronization unit and a check information synchronization unit and is used for synchronizing basic information, order information and check information of a patient;

the data authority layer provides authority management service for the application service layer and the data docking service layer;

the storage layer is used for storing information and comprises a hemodialysis database, a synchronous data center, a file service database and a data acquisition database.

Preferably, the system further comprises a third party platform, wherein the third party platform stores an HIS basic information module, an doctor advice module, an LIS inspection information module and an RIS inspection information module of each hospital area data center;

the HIS basic information module transmits basic information of the patient to a basic information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the basic information of the patient;

the medical advice module transmits medical advice information of the patient to the medical advice information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the medical advice information of the patient;

the LIS examination information module and the RIS examination information module transmit examination information of the patient to an examination information synchronization unit of the hospital area data synchronization service module for synchronizing the examination information of the patient.

Preferably, the hospital area data synchronization service module transmits the synchronized information to a synchronous data center database of a storage layer for storage, and the synchronous data center database is convenient for comprehensively checking various records of patient treatment, checking index trend analysis and medication condition by periodically synchronizing hemodialysis patient information.

Preferably, the hardware data acquisition unit is used for acquiring information of various brands and models of hemodialysis equipment, and uploading acquired acquisition data to the data acquisition database for storage through the HTTP interface, so that the data acquisition unit is used for business service.

Preferably, the hemodialysis pharmacy management unit calls information of patients in the synchronous data center database, and the patient's doctor's advice information falls on the disc, is connected with the pharmacy system, is convenient for managing medicine inventory, is convenient for nurses to check rooms and execute medicines according to the doctor's advice, and stores medicine information into the hemodialysis database;

the hemodialysis pharmacy management unit records a of single medicine X in a warehouse for one-time payment as X _a Then all the warehouse-ins of medicine X are recorded asAll ex-warehouse of drug X is noted +.>The current remaining inventory is then the one that,

preferably, the hemodialysis pharmacy management unit is further used for managing consumable materials used by hemodialysis, the consumable materials are put in storage to uniformly generate two-dimensional code information, the two-dimensional code information is pasted on the consumable materials, and the code is scanned and discharged when the consumable materials are discharged.

Preferably, the method also comprises a dialysis treatment process, which comprises the following specific steps:

s1: the patient is admitted to the hospital for pre-examination, weighing and marking reminding can be carried out on the patient and the blood pressure information is abnormal when the patient is pre-examined, so that the medical staff can pay attention to the patient conveniently, and meanwhile, in the pre-examination diagnosis and treatment process, important treatment indexes, examination trends and abnormalities of the patient are analyzed, and the medical staff is intuitively informed of the current dialysis treatment condition of the patient;

s2: a doctor prescribes a treatment scheme and a doctor's advice;

s3: the nurse performs hemodialysis scheduling on the patient according to the treatment scheme, and prepares daily drug discharging consumables and medicines;

s4: after the evaluation before penetration, the patient is self-help on the machine;

s5: the doctor checks the room according to the doctor's advice, collects vital signs and blood of the patient, marks abnormal vital sign data collected by the hemodialysis equipment, and records the ventilation event;

s6: and (3) taking off the machine, sterilizing, and after taking off the machine, evaluating the treatment, and automatically generating a daily electronic dialysis treatment list and shift.

Preferably, feedback and calculation are performed according to the treatment scheme, the doctor's advice period and the use state in the process of arranging medicines by nurses, and the doctor's advice calculation algorithm is as follows:

the doctor's advice frequency of use satisfies the following periodic formula:

x(t)＝a，t＝nT+m，∈P，t＞k；

where T is one week, i.e., 7 days, and k is the date expressed using UTC timing in seconds.

The invention has the technical effects and advantages that:

1. compared with the existing hemodialysis management scheme, the invention effectively solves the problems of data acquisition and unified format output of various hemodialysis equipment, greatly reduces the workload of medical staff, and improves the accuracy and safety of data;

2. the invention solves the problems of clinical hemodialysis medicine and consumable management, improves hemodialysis treatment experience, reduces management load and reduces the problems of wrong account and missed account;

3. the invention solves the problem of disordered work flow of clinical nurses, effectively improves treatment service and quality control quality according to specifications;

4. the invention solves the problems of high treatment scheme and doctor-advice change communication cost between doctors and nurses, reduces error links and improves the working efficiency of nurses;

5. the invention solves the management work of various abnormal treatment index data in the treatment process, greatly improves the treatment quality and is convenient for medical staff to work and check the rounds.

Drawings

FIG. 1 is a system architecture diagram of the present invention;

FIG. 2 is a flow chart of data acquisition of the hemodialysis apparatus of the present invention;

FIG. 3 is a diagram of a hemodialysis pharmacy management unit according to the present invention;

FIG. 4 is a flow chart of consumable management according to the present invention;

fig. 5 is a flow chart of the dialysis treatment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 of the specification, the invention provides an intelligent hemodialysis management system, which comprises an application service layer, a data docking service layer, a data authority layer and a storage layer, wherein the application service layer and the data docking service layer are both communicated with the data authority layer, and the data authority layer is communicated with the storage layer;

the application service layer provides business processing and interaction service for each hospital area and is used for realizing specific business functions;

the application service layer comprises a hospital area web service module and a hospital area interface service module, wherein the hospital area interface service module comprises a basic information unit, a hemodialysis service unit, a CRRT service unit, a hemodialysis pharmacy management unit and a hardware data acquisition unit;

the data docking service layer is used for synchronizing information; the data docking service layer comprises a hospital area data synchronization service module, wherein the hospital area data synchronization service module comprises a basic information synchronization unit, an order information synchronization unit and a check information synchronization unit and is used for synchronizing basic information, order information and check information of a patient;

the data authority layer provides authority management service for the application service layer and the data docking service layer;

the storage layer is used for storing information and comprises a hemodialysis database, a synchronous data center, a file service database and a data acquisition database.

Referring to fig. 1 of the specification, the intelligent hemodialysis management system further comprises a third party platform, wherein the third party platform stores an HIS basic information module, an order module, an LIS inspection information module and an RIS inspection information module of each hospital area data center.

The HIS basic information module transmits basic information of the patient to a basic information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the basic information of the patient; the medical advice module transmits medical advice information of the patient to the medical advice information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the medical advice information of the patient; the LIS examination information module and the RIS examination information module transmit examination information of the patient to an examination information synchronization unit of the hospital area data synchronization service module for synchronizing the examination information of the patient, and then the hospital area data synchronization service module transmits the synchronized information to a synchronous data center database of the storage layer for storage.

In order to solve the problem of comprehensively checking patient treatment information, the system is in butt joint with a LIS, RIS, HIS system through a hospital area data synchronization service module, periodically synchronizes hemodialysis patient information, supports desktop application and flat mobile office work, comprehensively checks various records of patient treatment, checks trend analysis of inspection indexes, medication conditions and the like, and performs long-term analysis and display on various treatment indexes in the hemodialysis system.

Referring to fig. 2 of the specification, in order to solve the problem of device data acquisition, a hardware data acquisition unit of the system is used for acquiring information of various brands and models of hemodialysis devices, and uploading acquired acquisition data to a data acquisition database for storage through an HTTP interface, so that the acquired acquisition data are used by business services.

Referring to the attached figure 3 of the specification, in order to solve the problem of medicine management of patients, the system establishes communication connection with a hospital information system, a pharmacy system and an HIS, and the hemodialysis pharmacy management unit calls information of patients in a synchronous data center database, and drops the doctor's advice information of the patients, and meanwhile, the system is connected with the pharmacy system, so that medicine inventory is convenient to manage, meanwhile, nurses can check rooms and execute medicine according to the doctor's advice, and medicine information is stored in the hemodialysis database, so that medicine inventory of the patients can be managed conveniently.

The hemodialysis pharmacy management unit records a of single medicine X in a warehouse for one-time payment as X _a Then all the warehouse-ins of medicine X are recorded asAll ex-warehouse of drug X is noted +.>The current remaining inventory is then the one that,

referring to fig. 4 of the specification, in order to solve the problem of consumable management, the consumable warehouse entry uniformly generates two-dimensional code information, the two-dimensional code information is pasted on the consumable, the consumable is scanned and delivered when delivered, and the consumable is hooked to each treatment record.

In order to reduce the workload of clinical nurses, as shown in fig. 5, the system also provides a complete, efficient and convenient dialysis treatment flow, which comprises the following specific steps:

s1: the patient is admitted to the hospital for pre-examination, weighing and marking reminding can be carried out on the patient and the blood pressure information is abnormal when the patient is pre-examined, so that the medical staff can pay attention to the patient conveniently, and meanwhile, in the pre-examination diagnosis and treatment process, important treatment indexes, examination trends and abnormalities of the patient are analyzed, and the medical staff is intuitively informed of the current dialysis treatment condition of the patient;

s2: a doctor prescribes a treatment scheme and a doctor's advice;

s3: the nurse performs hemodialysis scheduling on the patient according to the treatment scheme, and prepares daily drug discharging consumables and medicines;

s4: after the evaluation before penetration, the patient is self-help on the machine;

s5: the doctor checks the room according to the doctor's advice, collects vital signs and blood of the patient, marks abnormal vital sign data collected by the hemodialysis equipment, and records the ventilation event;

s6: and (3) taking off the machine, sterilizing, and after taking off the machine, evaluating the treatment, and automatically generating a daily electronic dialysis treatment list and shift.

In order to reduce the communication cost of doctors and nurses in the aspects of treatment scheme and doctor advice change, the system feeds back and calculates in the process of arranging and arranging medicines by nurses according to the treatment scheme, doctor advice period and use state, and the doctor advice calculation algorithm is as follows:

the doctor's advice frequency of use satisfies the following periodic formula:

x(t)＝a，t＝nT+m，∈P，t＞k；

where T is one week, i.e., 7 days, and k is the date expressed using UTC timing in seconds.

For example: example 1, the patient did HP hemodialysis every 2 weeks 1 from 1 day of 10 months 2020, on the wednesday of each first week, then the treatment of HP met the following, then a=1, n=2, p e {3}, so m=3, then x (t) =a, t=nt+m, a=1, n=2, m=3, k=16011600, p e {3}, x representing the use of HP hemodialysis;

example 2, a patient starts hemodialysis on 1 month 10 of 2020 3 times a week, and performs hemodialysis on 2 drugs a for every tuesday, thursday, and friday, and the administration of drug a satisfies the following condition, where a=2, P e {2,4,6}, x (t) =2, t=nt+m, n=1, k=16011600, m e P, P e {2,4,6}, and x represents the administration of drug a;

the method is used as a calculation method, the dosage of treatment services, medicines, consumable materials and other items used by the hospital dialysis of each shift patient can be calculated, so that medical staff can calculate in advance how much medicines and consumable materials are needed to be prepared for each patient in advance by software, and a treatment doctor advice list is printed out;

by the method, medical staff can pre-open a doctor advice payment list of the next month for a patient according to the characteristics of hemodialysis treatment in a month unit, and after the patient finishes paying, the patient does not need to carry various medicine consumables to go home, the hemodialysis room is uniformly used for accounting and the pharmacy is uniformly entrusted to store various medicine preparations, so that the medicine storage and carrying burden of the patient is reduced, the medicine effect quality of the medicine preparations is improved, and better treatment service experience is provided for the patient.

Finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. An intelligent hemodialysis management system, which is characterized in that: the system comprises an application service layer, a data docking service layer, a data authority layer and a storage layer;

the application service layer and the data docking service layer are both communicated with the data authority layer, and the data authority layer is communicated with the storage layer;

the application service layer provides business processing and interaction service for each hospital area and is used for realizing specific business functions;

the application service layer comprises a hospital area web service module and a hospital area interface service module, wherein the hospital area interface service module comprises a basic information unit, a hemodialysis service unit, a CRRT service unit, a hemodialysis pharmacy management unit and a hardware data acquisition unit;

the data docking service layer is used for synchronizing information; the data docking service layer comprises a hospital area data synchronization service module, wherein the hospital area data synchronization service module comprises a basic information synchronization unit, an order information synchronization unit and a check information synchronization unit and is used for synchronizing basic information, order information and check information of a patient;

the data authority layer provides authority management service for the application service layer and the data docking service layer;

the storage layer is used for storing information and comprises a hemodialysis database, a synchronous data center, a file service database and a data acquisition database.

2. An intelligent hemodialysis management system according to claim 1, wherein: the system also comprises a third party platform, wherein the third party platform stores an HIS basic information module, an doctor advice module, an LIS inspection information module and an RIS inspection information module of each hospital area data center;

the HIS basic information module transmits basic information of the patient to a basic information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the basic information of the patient;

the medical advice module transmits medical advice information of the patient to the medical advice information synchronization unit of the hospital area data synchronization service module, and is used for synchronizing the medical advice information of the patient;

the LIS examination information module and the RIS examination information module transmit examination information of the patient to an examination information synchronization unit of the hospital area data synchronization service module for synchronizing the examination information of the patient.

3. An intelligent hemodialysis management system according to claim 2, wherein: the hospital area data synchronization service module transmits the synchronized information to a synchronous data center database of the storage layer for storage, and the synchronous data center database is convenient for comprehensively checking various records of patient treatment, checking index trend analysis and medication condition by periodically synchronizing hemodialysis patient information.

4. An intelligent hemodialysis management system according to claim 1, wherein: the hardware data acquisition unit is used for acquiring information of various brands and models of hemodialysis equipment, and uploading acquired acquisition data to the data acquisition database for storage through the HTTP interface, so that the hardware data acquisition unit is used by business services.

5. An intelligent hemodialysis management system according to claim 1, wherein: the hemodialysis pharmacy management unit calls the information of patients in the synchronous data center database, and the patient doctor's advice information is set, and meanwhile, the hemodialysis pharmacy management unit is connected with the pharmacy system, so that the medicine inventory is convenient to manage, meanwhile, a nurse is convenient to check rooms and execute medicine according to the doctor's advice, and the medicine information is stored in the hemodialysis database;

the hemodialysis pharmacy management unit records a of single medicine X in a warehouse for one-time payment as X _a All of the drug X is recorded in warehouseActing asAll ex-warehouse of drug X is noted +.>The current remaining inventory is then the one that,

6. an intelligent hemodialysis management system according to claim 5, wherein: the hemodialysis pharmacy management unit is also used for managing consumable materials used for hemodialysis, the consumable materials are put in storage to uniformly generate two-dimensional code information, the two-dimensional code information is pasted on the consumable materials, and the consumable materials are scanned and taken out of the warehouse during taking out of the warehouse.

7. An intelligent hemodialysis management system according to claim 1, wherein: the method also comprises a dialysis treatment flow, which comprises the following specific steps:

s1: the patient is admitted to the hospital for pre-examination, weighing and marking reminding can be carried out on the patient and the blood pressure information is abnormal when the patient is pre-examined, so that the medical staff can pay attention to the patient conveniently, and meanwhile, in the pre-examination diagnosis and treatment process, important treatment indexes, examination trends and abnormalities of the patient are analyzed, and the medical staff is intuitively informed of the current dialysis treatment condition of the patient;

s2: a doctor prescribes a treatment scheme and a doctor's advice;

s3: the nurse performs hemodialysis scheduling on the patient according to the treatment scheme, and prepares daily drug discharging consumables and medicines;

s4: after the evaluation before penetration, the patient is self-help on the machine;

s5: the doctor checks the room according to the doctor's advice, collects vital signs and blood of the patient, marks abnormal vital sign data collected by the hemodialysis equipment, and records the ventilation event;

s6: and (3) taking off the machine, sterilizing, and after taking off the machine, evaluating the treatment, and automatically generating a daily electronic dialysis treatment list and shift.

8. An intelligent hemodialysis management system according to claim 7, wherein: according to the treatment scheme, the doctor's advice period and the use state, feedback and calculation are carried out in the process of arranging medicines by nurses, and the doctor's advice calculation algorithm is as follows:

the doctor's advice frequency of use satisfies the following periodic formula:

x(t)＝a，t＝nT+m，∈P，t>k；

where T is one week, i.e., 7 days, and k is the date expressed using UTC timing in seconds.