CN110570932A - Multi-parameter clinical mobile physiological measurement management method and system - Google Patents

Abstract

The invention discloses a multi-parameter clinical mobile physiology measurement management method, which comprises the following steps: registering the registration information of the medical staff at a background service terminal, and feeding back the registered account and the password to the medical staff; medical personnel carry out identity authentication, input a registered account number and a password and check in an identity authenticator of a background service terminal; scanning the identity card of the patient through the mobile terminal, checking whether the information of the identity card is consistent with the identity of the patient to be detected, and if so, executing the next step; measuring a patient through a plurality of vital sign measuring devices, transmitting various measuring information to a mobile terminal by the vital sign measuring devices and displaying the measuring information, and transmitting the measuring information to a background service terminal by the mobile terminal; and the background service terminal analyzes and summarizes various measurement information. The doctor can be directly perceived watches the recent patient's of department physical state characteristic, has alleviateed patient's burden simultaneously, and the long-range advice of getting to the doctor of hospital has alleviateed patient's psychological burden. The invention also discloses a multi-parameter clinical mobile physiology measurement management system.

Description

Multi-parameter clinical mobile physiological measurement management method and system

Technical Field

The invention relates to the field of medical treatment, in particular to a multi-parameter clinical mobile physiology measurement management method.

background

Currently, cardiovascular diseases, represented by hypertension and coronary heart disease, are increasingly becoming the first threats to human health. The human body physiological parameters mainly comprise electrocardio, heart rate, blood pressure, blood oxygen, body temperature and the like. The heart is used as a power organ of human blood circulation, and the contraction and relaxation processes of the ventricles are repeatedly completed by taking the cardiac cycle as the beat. At present, patients often have a depressed mood when diagnosing and treating in hospitals, and the following problems can occur:

1. When measurement is carried out, because the hospital environment can cause sudden stimulation to a patient, mood fluctuation is generated by psychological change, the measurement result is inaccurate, and the oppressed environment is not beneficial to the recovery of the patient;

2. The data measured by the nurse is only the data of the day, and the doctor cannot watch the measured data of a period or a user-defined period, which is important for the next correct medical order and influences the accuracy of the medical order;

3. At present, the population is more and more, and the nurse and the doctor number in hospital have been unable to satisfy the nurse to the patient, appear nurse not enough's problem easily, need urgently a system that not only can liberate the patient but also can alleviate nurse's burden.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, an objective of the present invention is to provide a multi-parameter clinical ambulatory physiology measurement management method, which can solve the problem of affecting the accuracy of medical orders.

one of the purposes of the invention is realized by adopting the following technical scheme:

a multi-parameter clinical mobile physiology measuring and managing method is applied to a multi-parameter clinical mobile physiology measuring and managing system, the multi-parameter clinical mobile physiology measuring and managing system comprises a plurality of vital sign measuring devices, a mobile terminal and a background service terminal, the vital sign measuring devices and the mobile terminal are respectively provided with a communication module, the vital sign measuring devices and the mobile terminal are in communication connection through the communication modules, and the background service terminal and the mobile terminal are in communication connection through the communication modules;

The multi-parameter clinical mobile physiological measurement management method comprises the following steps:

s101: registering the registration information of the medical care personnel at a background service terminal, generating a registration account and a password by the background service terminal, and feeding back the registration account and the password to the medical care personnel;

s102: the medical staff carries out identity authentication, inputs a registered account number and a password and checks the registered account number and the password in an identity authenticator of the background service terminal, if the registered account number and the password are checked to be correct, S103 is executed, and if the registered account number and the password are not correct, S102 is executed;

S103: scanning the identity card of the patient through the mobile terminal, checking whether the information of the identity card is consistent with the identity of the patient to be detected, if so, executing S104, and if not, executing S103;

S104: measuring a patient through a plurality of vital sign measuring devices, transmitting various measuring information to a mobile terminal by the vital sign measuring devices and displaying the measuring information, and transmitting the measuring information to a background service terminal by the mobile terminal;

s105: and the background service terminal analyzes and summarizes various measurement information.

further, the step S104 specifically includes: measuring data such as body temperature, blood pressure, blood sugar, uric acid, cholesterol and the like of a patient through a plurality of vital sign measuring devices, and transmitting body temperature information, blood pressure information, blood sugar information, uric acid information and cholesterol information to a mobile terminal through the vital sign measuring devices;

Further, the step S105 specifically includes: the background service terminal collects various measurement information, associates measurement time with patient information, and marks abnormal data for reminding.

Further, the step S105 specifically includes: and the background service terminal generates a measurement data list and records information such as name, measurement time, hospital numbers, medication conditions, before and after treatment and the like in the measurement data list.

Further, the step S105 specifically includes: and comparing the information before and after treatment according to the measurement information before and after treatment, and displaying the information on the background service terminal to generate measurement data, measurement time and related line graphs before and after treatment.

further, a doctor generates a medical instruction issued by the measurement data list through the background service terminal, generates a medical order and records the medical order in the background service terminal.

meanwhile, the rapidly developing wireless network communication technology has initiated a new information revolution. With this as a trigger, the old medical model mainly including the professional hospital is being converted into an open new medical model mainly including communities and families. Under the situation, a portable and intelligent monitoring instrument system which takes a wireless mobile platform as a medical information carrier and aims at various human physiological parameters to realize health and disease diagnosis is researched and developed, and a comprehensive and rapid solution is provided for early diagnosis and prevention of cardiovascular diseases.

The utility model provides a multi-parameter clinical removal physiology management system that measurations, includes a plurality of vital sign measuring equipment, mobile terminal and backstage service terminal, vital sign measuring equipment with mobile terminal all is equipped with communication module, vital sign measuring equipment with pass through between the mobile terminal communication module carries out the communication and connects, backstage service terminal with pass through between the mobile terminal communication module carries out the communication and connects, a plurality of vital sign measuring equipment passes through various information of measurationing mobile terminal transmits to backstage service terminal, backstage service terminal analyzes and gathers and feed back hospital system to various information of measurationing.

Furthermore, the connection mode between the communication modules comprises at least one of a network cable, a USB cable, a PCIe cable, a 2/3/4/5G network, Bluetooth and WIFI connection.

further, the vital sign measuring device comprises a blood glucose meter, a blood pressure meter, a body temperature meter and the like.

Further, the mobile terminal comprises an identity verifier and a scanner, the identity verifier is in communication connection with the scanner, the scanner scans an identity card of a patient and sends information to the identity verifier for confirmation, and the identity card is an identity card or a medical insurance card.

compared with the prior art, the invention has the beneficial effects that:

The measured data is physical sign data including body temperature, blood pressure, blood sugar, pulse, respiration and the like, and the software at the rear part provides data which are uploaded to a hospital system by a nurse when the nurse patrols the house. Measurationing through mobile terminal, information such as body temperature, blood pressure, blood sugar, pulse, breathing gather to carry the backstage service terminal with information and carry out the management and control, the doctor can be audio-visual watches the posture characteristic of the recent patient of department on the one hand, has solved the inconvenient problem of management and control, has brought the facility for doctor's management and control, and on the other hand has alleviateed patient's burden simultaneously, can nurse the disease at home, and the long-range advice of getting to the doctor of hospital has alleviateed patient's psychological burden.

the foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a flow chart of a multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 2 is a diagram illustrating information displayed in the multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 3 is a measurement data list of the multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 4 is a line graph of a multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 5 is a blood glucose line graph of the multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 6 is a temperature chart of the multi-parameter clinical ambulatory physiological measurement management method according to the present invention;

FIG. 7 is a block diagram of a multi-parameter clinical ambulatory physiological measurement management system.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a multi-parameter clinical mobile physiology measurement management method is applied to a multi-parameter clinical mobile physiology measurement management system, the multi-parameter clinical mobile physiology measurement management system includes a plurality of vital sign measurement devices, a mobile terminal and a background service terminal, the vital sign measurement devices and the mobile terminal are respectively provided with a communication module, the vital sign measurement devices and the mobile terminal are in communication connection through the communication modules, and the background service terminal and the mobile terminal are in communication connection through the communication modules; the multi-parameter clinical mobile physiological measurement management method comprises the following steps:

S101: registering the registration information of the medical care personnel at a background service terminal, generating a registration account and a password by the background service terminal, and feeding back the registration account and the password to the medical care personnel;

Specifically, the system and the hospital system are connected through ports to exchange data, medical personnel data are automatically imported, and personal use account passwords of the medical personnel are automatically established. Or 2, registering the registration information of the medical care personnel at a background service terminal, and feeding back the registered account number and the password to the medical care personnel; medical personnel can log in the system through scanning the two-dimensional code of the account number or input the registered account number and the password and check in an identity verifier of a background service terminal. The physiological measurement is carried out on the patient through a plurality of measuring devices, the Bluetooth measuring devices transmit various physiological measurement information to the handheld PDA or the mobile phone through Bluetooth and display the physiological measurement information, and the handheld PDA or the mobile phone transmits the measurement information to the background service terminal; and the background service terminal analyzes and summarizes various measurement information. The doctor can be directly perceived through the various charts analysis that the system generated watches the recent patient's vital sign of department, has alleviateed patient's burden simultaneously, and after the patient was discharged from hospital, the system can provide the long-range doctor's advice of ordering of leaving a doctor, reminds the patient to carry out oneself vital sign according to the doctor's advice and measurations and has alleviateed patient's psychological burden. The invention also discloses a multi-parameter clinical mobile physiology measurement management system.

s102: the medical staff carries out identity authentication, inputs a registered account number and a password and checks the registered account number and the password in an identity authenticator of the background service terminal, if the registered account number and the password are checked to be correct, S103 is executed, and if the registered account number and the password are not correct, S102 is executed;

S103: scanning the identity card of the patient through the mobile terminal, checking whether the information of the identity card is consistent with the identity of the patient to be detected, if so, executing S104, and if not, executing S103;

S104: measuring a patient through a plurality of vital sign measuring devices, transmitting various measuring information to a mobile terminal by the vital sign measuring devices and displaying the measuring information, and transmitting the measuring information to a background service terminal by the mobile terminal;

In step S104, data measurement such as body temperature, blood pressure, blood glucose, uric acid, cholesterol, etc. is performed on the patient through a plurality of vital sign measurement devices, and the vital sign measurement devices transmit body temperature information, blood pressure information, blood glucose information, uric acid information, and cholesterol information to the mobile terminal; specifically, the name, sex, case number, hospital bed number, hospital date, hospital frequency (which hospital record needs to be identified when the patient is discharged and admitted on the same day), year and month of birth (YYYY-MM-DD), identification number, hospital classification or hospital classification, hospital date (YYYYYY-MM-DD), hospital admission time (HH: MM24 hours), hospital discharge diagnosis, and the doctor in charge. The measured data is physical sign data including body temperature, blood pressure, blood sugar, pulse, respiration, heart rate, blood oxygen, blood ketone, uric acid, cholesterol, weight and the like, and the back software provides data acquired by nurses during room patrol and uploads the acquired data to the hospital system. The mobile terminal is used for measuring and gathering information such as body temperature, blood pressure, blood sugar, pulse and respiration, and is specific, the mobile terminal is a handheld PDA or a mobile phone and carries the information to the background service terminal for management and control, on one hand, a doctor can visually watch the physical and physical characteristics of a recent patient, the problem of inconvenience in management and control is solved, convenience is brought to the management and control of the doctor, on the other hand, the burden of the patient is simultaneously relieved, the patient can be nursed at home, the doctor can remotely write medical advice in a hospital, and the psychological burden of the patient is relieved. It should be noted that the present application is directed to systems and methods for data processing and analysis, and is not directed to improvements in methods of treatment.

s105: and the background service terminal analyzes and summarizes various measurement information. Alleviate nurse's work burden of making rounds of the wards, promote work efficiency, avoid artificial error, provide complete chart analysis and help the high-efficient management inpatient of doctor. Providing common report form printing, evaluating the treatment effect of departments and analyzing big data as academic publishing basic data.

preferably, the step S105 specifically includes: the background service terminal collects various measurement information, associates measurement time with patient information, and marks abnormal data for reminding.

Preferably, referring to fig. 2-3, fig. 2 is an information display diagram, fig. 3 is a measurement data list, and the step S105 specifically includes: and the background service terminal generates a measurement data list and records information such as name, measurement time, hospital numbers, medication conditions, before and after treatment and the like in the measurement data list. Specifically, the blood sugar summary table, the blood pressure summary table, the body temperature table, the diabetes treatment observation table and the like are included. Through arranging the information such as name, the time of measurationing, the number of being in hospital, the condition of using medicine, treatment front and back, the information phase-match will be measured according to the time, and mark out the data information that exceeds normal scope, the doctor can long-rangely look over and get off the doctor's advice, can transfer the measured information of arbitrary time quantum at will, the doctor can watch the patient state of a period of time according to the demand, this is obviously better than the effect of recent measurement, the problem that the patient describes and influence the doctor's advice has been solved, more importantly, the burden of doctor has been alleviateed, can directly long-rangely transfer the data and watch, and nurse's burden has been alleviateed, avoid measuring and copying one by one, patient's psychological burden has.

specifically, referring to fig. 4, which is a line graph related before and after the treatment, the step S105 specifically includes: and comparing the information before and after treatment according to the measurement information before and after treatment, and displaying the information on the background service terminal to generate measurement data, measurement time and related line graphs before and after treatment. Please refer to fig. 5, which is a blood glucose line graph. Please refer to fig. 6, which shows a body temperature chart. Through the data information arrangement, the data information arrangement is in a straight line graph type, a doctor can more visually see the state of a patient and determine the disease cause before the disease, the problem that the doctor has low degree of grasping the illness state of the patient can occur in the actual diagnosis and treatment state, the control degree of the doctor is improved through a line graph, and the management efficiency of a hospital is improved.

Preferably, the doctor generates a medical instruction issued by the measurement data list through the background service terminal, generates a medical order and records the medical order in the background service terminal. The medical advice includes body temperature, blood pressure, blood sugar, pulse, respiration and the like, and the software at the back provides the data acquired by the nurse in the house patrol and uploads the acquired data to the hospital system. The burden is lightened from three aspects of a patient, a nurse and a doctor, more importantly, the data collection is carried out on the information of body temperature, blood pressure, blood sugar, pulse, respiration and the like by taking the measuring date as a standard, and the single-state characteristics such as the body temperature and the like are collected independently, so that a bridge is built for the patient, the nurse and the doctor, the time is saved, the problem that the patient is difficult to see is solved, and the efficiency of the doctor is improved.

referring to fig. 7, a multi-parameter clinical mobile physiology measurement management system includes a plurality of vital sign measurement devices, a mobile terminal and a background service terminal, where the vital sign measurement devices and the mobile terminal are both provided with communication modules, the vital sign measurement devices and the mobile terminal are in communication connection through the communication modules, the background service terminal and the mobile terminal are in communication connection through the communication modules, the vital sign measurement devices transmit various measurement information to the background service terminal through the mobile terminal, and the background service terminal analyzes and summarizes various measurement information and feeds the various measurement information back to a hospital system. The connection mode between the communication modules comprises at least one of network cable, USB cable, PCIe cable, 2/3/4/5G network, Bluetooth and WIFI connection. The vital sign measuring equipment comprises equipment such as a blood glucose meter, a blood pressure meter and a body temperature meter. Specifically, in this embodiment, vital sign measuring equipment is bluetooth blood glucose meter, bluetooth electronic type sphygmomanometer, bluetooth electronic type infrared ear thermometer etc. convenient and fast. The mobile terminal comprises an identity verifier and a scanner, wherein the identity verifier is in communication connection with the scanner, the scanner scans an identity card of a patient and sends information to the identity verifier for confirmation, and the identity card is an identity card or a medical insurance card. Novel structure, design benefit, the suitability is strong, the facilitate promotion.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. a multi-parameter clinical mobile physiology measurement management method is characterized in that: the multi-parameter clinical mobile physiology measuring and managing method is applied to a multi-parameter clinical mobile physiology measuring and managing system, the multi-parameter clinical mobile physiology measuring and managing system comprises a plurality of vital sign measuring devices, a mobile terminal and a background service terminal, the vital sign measuring devices and the mobile terminal are respectively provided with a communication module, the vital sign measuring devices and the mobile terminal are in communication connection through the communication modules, and the background service terminal and the mobile terminal are in communication connection through the communication modules;

The multi-parameter clinical mobile physiological measurement management method comprises the following steps:

S101: registering the registration information of the medical care personnel at a background service terminal, generating a registration account and a password by the background service terminal, and feeding back the registration account and the password to the medical care personnel;

S102: the medical staff carries out identity authentication, inputs a registered account number and a password and checks the registered account number and the password in an identity authenticator of the background service terminal, if the registered account number and the password are checked to be correct, S103 is executed, and if the registered account number and the password are not correct, S102 is executed;

s103: scanning the identity card of the patient through the mobile terminal, checking whether the information of the identity card is consistent with the identity of the patient to be detected, if so, executing S104, and if not, executing S103;

s104: measuring a patient through a plurality of vital sign measuring devices, transmitting various measuring information to a mobile terminal by the vital sign measuring devices and displaying the measuring information, and transmitting the measuring information to a background service terminal by the mobile terminal;

s105: and the background service terminal analyzes and summarizes various measurement information.

2. the method according to claim 1, wherein the step S104 comprises: the body temperature, the blood pressure, the blood sugar, the uric acid, the cholesterol, the heart rate, the blood oxygen, the pulse, the blood ketone, the weight and other data measurement are carried out on the patient through a plurality of vital sign measuring devices, and the vital sign measuring devices transmit body temperature information, blood pressure information, blood sugar information, uric acid information, cholesterol information, heart rate information, blood oxygen information, pulse information, blood ketone information and weight information to the mobile terminal.

3. the method of claim 1, wherein the method further comprises: the step S105 specifically includes: the background service terminal collects various measurement information, associates measurement time with patient information, and marks abnormal data for reminding.

4. The method of claim 1, wherein the method further comprises: the step S105 specifically includes: the background service terminal generates a measurement data list and records information of patient names, measurement time, hospital numbers, medication conditions, before and after treatment and the like in the measurement data list.

5. The method of claim 4, wherein the method further comprises: the step S105 specifically includes: and comparing the information before and after treatment according to the measurement information before and after treatment, and displaying the information on the background service terminal to generate measurement data, measurement time and related line graphs before and after treatment.

6. the method of claim 4, wherein the method further comprises: and the doctor generates a medical instruction issued by the measurement data list through the background service terminal, generates a medical order and records the medical order in the background service terminal.

7. the utility model provides a multi-parameter clinical removal physiology of moving management system that measurations, includes a plurality of vital sign measuring equipment, mobile terminal and backstage service terminal, its characterized in that: the utility model discloses a hospital system, including vital sign measuring equipment, mobile terminal, communication module, background service terminal, a plurality of, vital sign measuring equipment with mobile terminal all is equipped with communication module, vital sign measuring equipment with pass through between the mobile terminal communication module carries out the communication and connects, background service terminal with pass through between the mobile terminal communication module connects, a plurality of vital sign measuring equipment passes through various information of measurationing mobile terminal transmits to background service terminal, background service terminal analyzes and gathers and feeds back hospital system to various information of measurationing.

8. The method of claim 7, wherein the method further comprises: the connection mode between the communication modules comprises at least one of network cable, USB cable, PCIe cable, 2/3/4/5G network, Bluetooth and WIFI connection.

9. The method of claim 7, wherein the method further comprises: the vital sign measuring equipment comprises vital sign equipment such as a blood glucose meter, a blood pressure meter and a body temperature meter.

10. the method of claim 7, wherein the method further comprises: the mobile terminal comprises an identity verifier and a scanner, the identity verifier is in communication connection with the scanner, the scanner scans an identity card of a patient and sends information to the identity verifier for confirmation, and the identity card is an identity card or a medical insurance card or a unique identification code for hospitalization of the patient or a medical treatment card.