CN109199347B

CN109199347B - Ward terminal and computer readable storage medium for analgesia monitoring

Info

Publication number: CN109199347B
Application number: CN201810968943.1A
Authority: CN
Inventors: 曹汉忠; 陆锋; 严海建; 周鑫
Original assignee: JIANGSU REHN MEDICAL INSTRUMENTS TECHNOLOGY CO LTD
Current assignee: JIANGSU RENXIAN MEDICAL TECHNOLOGY CO LTD
Priority date: 2018-08-23
Filing date: 2018-08-23
Publication date: 2021-09-17
Anticipated expiration: 2038-08-23
Also published as: CN109199347A

Abstract

The application discloses a ward terminal and a computer readable storage medium for analgesia monitoring, the method comprises the following steps: the method comprises the steps that a ward terminal obtains real-time information about an analgesia treatment process of a patient; if the real-time information is matched with the preset condition, sending an alarm message to a disease condition monitoring server; or send an alert message to the recipient. The application also discloses a ward terminal and a computer readable storage medium. By the mode, once the real-time information acquired by the ward terminal is matched with the preset condition, the ward terminal can send the alarm message, and hospital staff can timely know the side effect generated in the analgesia process.

Description

Ward terminal and computer readable storage medium for analgesia monitoring

Technical Field

The present application relates to the technical field of analgesia monitoring, and in particular, to a ward terminal and a computer-readable storage medium for analgesia monitoring.

Background

At present, three pain-relieving monitoring methods for pain treatment patients in hospitals are mainly used, and the three methods are respectively as follows: (1) medical staff periodically visit the room, (2) the patient or the patient's family members call a nurse or a physician.

The inventor of the application finds that when the method is used for analgesia monitoring in the long-term research process, medical staff cannot timely know and treat possible side effects in the analgesia process.

Disclosure of Invention

The technical problem that the present application mainly solves is to provide an analgesia monitoring method, a ward terminal and a computer readable storage medium, which can timely find side effects generated in an analgesia process and send an alarm to remind medical staff to deal with the side effects of patients.

In order to solve the technical problem, the technical scheme adopted by the application is as follows: the method comprises the steps that a ward terminal obtains real-time information about an analgesia treatment process of a patient; if the real-time information is matched with the preset condition, sending an alarm message to a disease condition monitoring server; or send an alert message to the recipient.

In order to solve the above technical problem, another technical solution adopted by the present application is: provided is a ward terminal including: the device comprises a processing circuit, a communication circuit and an environmental information acquisition circuit; the communication circuit is used for communicating with a disease monitoring server or a receiver, and the environment information acquisition circuit is used for acquiring real-time information related to an analgesia treatment process of a patient; the processing circuit is respectively coupled with the communication circuit and the environmental information acquisition circuit, and the steps of the method can be realized when the processing circuit, the communication circuit and the environmental information acquisition circuit work.

In order to solve the above technical problems, another technical solution adopted by the present application is: a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, is adapted to carry out the steps of the corresponding method as described above.

The beneficial effect of this application is: different from the prior art, the ward terminal acquires real-time information about the analgesia treatment process of the patient; if the real-time information is matched with the preset condition, sending an alarm message to a disease condition monitoring server; or send an alert message to the recipient. The ward terminal can compare the preset conditions with the real-time information of the patient related to the analgesia treatment process, and if the preset conditions are matched with the real-time information of the patient related to the analgesia treatment process, the ward terminal sends an alarm message to the disease monitoring server or sends an alarm message to a receiver. By the method, once the real-time information acquired by the ward terminal is matched with the preset condition, the alarm message is sent, and hospital staff can timely know the side effect generated in the analgesia process.

Drawings

In order to more clearly illustrate the technical solutions in the present application, the drawings required in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor. Wherein:

FIG. 1 is a schematic flow chart of one embodiment of the method of analgesic monitoring of the present application;

FIG. 2 is a schematic diagram of an embodiment of the analgesic monitoring system of the present application;

FIG. 3 is a block diagram of an embodiment of the ward terminal of the present application;

FIG. 4 is a block diagram of an embodiment of a computer-readable storage medium of the present application.

Detailed Description

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

Referring to fig. 1, fig. 1 is a schematic flow chart of an embodiment of an analgesia monitoring method according to the present application, the method including:

step S101: the method comprises the steps that a ward terminal obtains real-time information about an analgesia treatment process of a patient;

the ward terminal can be a mobile terminal such as a laptop, a tablet personal computer and the like, can also be a microcomputer, and can also be a robot platform.

The real-time information of the patient related to the analgesic treatment process can be voice information of the patient in the analgesic process, such as the sound of cough, nausea and vomiting, or the voice information of sentences of key words such as 'nausea', 'vomiting', 'pruritus' and the like; or vital sign information of the patient such as respiration, heartbeat, pulse, body temperature and the like; or any combination of the above information.

The ward terminal can obtain real-time information through its own hardware, for example, the ward terminal picks up the voice information of the patient through its own microphone, and obtains the video and image information of the patient through its own camera; the ward terminal can also establish and maintain communication connection with the monitoring equipment through communication technologies such as Ethernet, wireless fidelity, Bluetooth, Zigbee protocol, third-generation mobile communication, fourth-generation mobile communication and the like, so as to obtain real-time vital sign information of the patient; the monitoring device can be a monitor and the like; the ward terminal can also obtain real-time information through the combination of the two modes.

The ward terminal can be placed at the head of a sickbed, or at the tail or other positions of the sickbed.

Step S102: if the real-time information is matched with the preset condition, sending an alarm message to a disease condition monitoring server; or send an alert message to the recipient.

The preset conditions can be set individually by medical staff according to the conditions of each patient, or can be set uniformly by the medical staff according to the previous accumulated cases in the hospital through summarization.

The preset condition can be the range of vital signs of the patient when the patient has side effects, such as the breathing frequency is more than 24 times per minute, the breathing frequency is less than 10 times per minute, the body temperature exceeds 37.4 ℃, and the like; the preset condition may also be a certain word or a combination of certain words, such as: nausea, vomiting, pruritus, etc.; the preset condition may also be the sound of nausea, vomiting, coughing; the preset conditions may be any combination of the above.

The disease condition monitoring server can be a mobile terminal such as a portable computer, a tablet personal computer and the like, can also be a microcomputer, can also be a robot platform, and can also be a traditional server.

The disease condition monitoring server can be placed at a ward nurse station, a machine room, a duty room, an office and the like as required.

The ward terminal can send alarm information through communication technologies such as Ethernet, wireless fidelity, Bluetooth, Zigbee protocol, third-generation mobile communication, fourth-generation mobile communication and the like.

The alarm information can be one or a combination of more than two of characters, voice, images, tables and videos, for example: "Please note that, if any of 36 pieces of plum has side effects, please deal with it in time".

The receiver may be a mobile terminal of a medical staff, such as a smartphone, a tablet computer; or may be a personal computer in a duty room.

By the embodiment, the ward terminal acquires real-time information about the analgesia treatment process of the patient; if the real-time information is matched with the preset condition, sending an alarm message to a disease condition monitoring server; or send an alert message to the recipient. The ward terminal can compare the preset conditions with the real-time information of the patient related to the analgesia treatment process, and if the preset conditions are matched with the real-time information of the patient related to the analgesia treatment process, the ward terminal sends an alarm message to the disease monitoring server or sends an alarm message to a receiver. By the method, once the real-time information acquired by the ward terminal is matched with the preset condition, the alarm message is sent, and hospital staff can timely know the side effect generated in the analgesia process.

In one embodiment, the step of determining whether the real-time information matches the preset condition includes: presetting preset conditions at least comprising a vital sign alarm range, disease characteristic sounds and disease characteristic keywords by a ward terminal, and marking the types of the preset conditions; the ward terminal identifies the type of the real-time information and analyzes the real-time information; the ward terminal compares the real-time information with preset conditions corresponding to the type of the real-time information, and if the real-time information reaches a vital sign warning range, and/or the real-time information contains disease characteristic sounds, and/or the real-time information contains disease characteristic keywords, the ward terminal judges that the real-time information is matched with the preset conditions.

The vital sign alarm range is used for limiting the vital sign range triggering alarm, and specifically, the vital sign alarm range may include a body temperature range, a respiratory frequency range, a pulse frequency range, and the like, for example, the respiratory frequency is greater than 24 times per minute, the respiratory frequency is less than 10 times per minute, the body temperature exceeds 37.4 ℃ and the like; the characteristic sound of the condition may be a characteristic sound of cough, nausea, vomiting, etc. when side effects are produced; the condition feature keywords may be keywords such as "nausea", "vomiting", "pruritus", etc. The preset conditions may include any one of the above types or a combination of two or more of the above, depending on the actual situation.

The type of the preset condition and the type of the real-time information may be set as a numerical range, a sound, a keyword, etc. according to the actual situation.

The real-time information can be voice information of the patient in the process of analgesia, such as the sound of cough, nausea and vomiting, or the voice information of sentences of key words such as 'nausea', 'vomiting', 'pruritus' and the like; or vital sign information of the patient such as respiration, heartbeat, pulse, body temperature and the like; or any combination of the above information.

According to the corresponding matching of the specific preset condition, the type of the preset condition, the real-time information and the type of the real-time information, whether the preset condition is matched with the real-time information or not can be judged. Specifically, for example, the ward terminal recognizes that the real-time information is a breathing frequency of 8 times per minute, and according to a vital sign alarm range that the breathing frequency is less than 10 times per minute under a preset condition, it can be determined that the real-time information meets the preset condition, and it is determined that the real-time information is matched with the preset condition; for example, the ward terminal identifies that the real-time information is voice containing nausea, and can judge that the real-time information is matched with the preset condition according to the preset condition containing the symptom feature key word of nausea; or for example, when the ward terminal identifies that the real-time information is the combination of the two types, the ward terminal respectively compares the vital sign alarm range and the disease characteristic key word according to the types.

By the mode, the ward terminal can compare the type of the actually received real-time information with the corresponding preset condition, can support various real-time information types, and further enables the monitoring function to be more perfect.

In another embodiment, the sending the alarm message to the disease monitoring server if the real-time information matches the preset condition includes: if the real-time information is matched with the preset conditions, the ward terminal firstly outputs a message to be confirmed of the patient related to the analgesia treatment process; if the ward terminal receives the confirmation message about the analgesia treatment process of the patient, the step of sending an alarm message to the disease monitoring server is executed.

The message to be confirmed can be one or a combination of two or more of characters, voice, images, tables and videos, for example: the ward terminal voice prompts 'the system detects that the patient has the vomiting symptom at present, please confirm by the patient or family members', or the ward terminal displays 'the system detects that the patient has the vomiting symptom at present, please select to confirm or cancel by the patient or family members', and the like.

In an implementation scenario, the ward terminal can also send an early warning message to the disease condition monitoring server according to the setting of medical staff, so as to remind the medical staff at the side of the disease condition monitoring server to pay attention to possible side effects, and prepare for being sent to the disease condition monitoring server at any time for disposal.

The confirmation message can be one or a combination of more than two of characters, voice, images, tables and videos, and the ward terminal receives the confirmation message through one or a combination of more than two of voice, touch, keys and a mouse. For example: the patient or the family member replies 'vomit symptom does exist' through voice, the patient or the family member selects to press a 'confirmation' key to confirm the side effect, or press a 'cancel' key to cancel, or the patient or the family member describes the side effect in any mode.

Through the mode, the ward terminal firstly outputs the to-be-confirmed information of the patient related to the analgesia treatment process, and if the ward terminal receives the confirmed information of the patient related to the analgesia treatment process, the ward terminal sends the alarm information to the disease monitoring server, so that the patient or family members participate in the confirmation process of the side effect, the pain-relieving side effect alarm accuracy of the ward terminal is increased to a certain extent, and meanwhile, the timeliness of the pain-relieving side effect alarm is guaranteed.

In another embodiment, the step of sending the alarm message to the disease monitoring server if the real-time information matches the preset condition includes: the ward terminal receives and outputs the instruction message from the disease condition monitoring server.

The instruction message can be one or the combination of more than two of characters, voice, images, tables and videos. The instructional messages are used to instruct the patient or the family members how to treat the side effects themselves before the medical staff goes to treat the side effects, for example: "please close the tube clamp to suspend the analgesic infusion", or to mentally placate the patient, for example: "do not worry about, the medical care personnel will arrive as soon as possible", etc.; thereby leading the patients to moderately alleviate the side effect before the medical staff rush to the treatment. The instruction message can be preset by the medical staff, and can also be sent by the medical staff in real time.

By the method, the ward terminal receives and outputs the instruction message in the disease condition monitoring server. How to treat the side effect by the patient or the family members before the medical staff goes to treat the side effect or get the spiritual comfort of the medical staff so as to moderately alleviate the side effect.

In another embodiment, after sending the warning message to the receiving party, the step includes: the ward terminal receives and outputs the response message of the receiver.

The response message may be one or a combination of two or more of text, voice, image, form, and video, for example: "the medical staff has received your feedback and is on the way", "the medical staff has received your feedback and will arrive within 1 minute", etc. The response message can be preset by the medical staff, and can also be sent by the medical staff in real time.

By the mode, after the alarm message is sent to the receiver, the ward terminal receives and outputs the response message of the receiver, and the patient or the family members can timely receive the feedback of the alarm from the medical personnel, so that the satisfaction degree of the patient or the family members is improved.

In yet another embodiment, the medical staff may set the ward terminal to actively inquire whether the patient or family member has pain-relieving side effects. The period of the active inquiry can be uniformly preset, for example, 1 minute, 5 minutes, 10 minutes, 30 minutes, etc., and the active inquiry period can also be set by the medical staff according to the individual differences of the patients, for example, the inquiry period is set to be 1 minute for pregnant women, the inquiry period is set to be 2 minutes for children, etc. Active interrogation may also be actively activated by the healthcare worker, for example, when the healthcare worker actively initiates an interrogation request to the ward terminal at a work break, the patient responds to the request, and informs of the analgesic side-effect profile.

Through the mode, whether analgesia side effects appear in the patient or the family members is actively inquired by the medical staff, the analgesia condition of the patient can be actively known by the medical staff, and the satisfaction degree of the patient and the family members is favorably improved.

In another embodiment, the disease monitoring server can establish and maintain communication connection with the monitoring device and the ward terminal, the disease monitoring server can compare the vital sign information uploaded by the monitoring device with the vital sign alarm range, if the vital sign alarm range is reached, a message to be confirmed is sent to the ward terminal, if the confirmation message of the ward terminal is received, the patient is indicated to have side effects, and the disease monitoring server sends an alarm message to doctors, nurses, operators on duty and the like to inform medical care personnel to treat the side effects in time; one aspect sends a guidance message to the ward terminal to guide the patient or the family members on how to perform the advance treatment measures or to mentally sooth the patient and the family members to alleviate side effects to some extent before the medical staff attends to the ward.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of an analgesia monitoring method according to the present application. The ward terminal is located at the head of a bed or the tail of a bed or other positions of each sickbed in each ward, each ward area comprises one or more sickrooms, and each ward comprises one or more sickbeds. The disease condition monitoring server is located in a machine room, a duty room or an office. The ward terminal can be a tablet computer, a microcomputer or a robot platform and the like. The disease condition monitoring server can be a mobile terminal such as a portable computer, a tablet personal computer and the like, can also be a microcomputer, can also be a robot platform, and can also be a traditional server. The ward terminal can establish and maintain communication connection with the disease condition monitoring server through communication technologies such as Ethernet, wireless fidelity, Bluetooth, Zigbee protocol, third-generation mobile communication, fourth-generation mobile communication and the like. The condition monitoring server can be in communication connection with one or more ward terminals.

In one embodiment, each ward is provided with one or more ward terminals, and the ward terminals can be arranged at a ward nurse station, a ward duty room, a ward office, and the like. The ward terminal and the disease monitoring server establish and maintain communication connection at least through communication technologies such as Ethernet, wireless fidelity, Bluetooth, Zigbee protocol, third-generation mobile communication, fourth-generation mobile communication and the like. The ward terminal can also establish and maintain communication connection with the ward terminal through communication technologies such as Ethernet, wireless fidelity, Bluetooth, Zigbee protocol, third-generation mobile communication, fourth-generation mobile communication and the like. The ward terminal can receive the information such as the early warning message and the warning message in the above embodiment. Medical care personnel send information such as response message through ward terminal.

Referring to fig. 3, fig. 3 is a schematic diagram of a framework of an embodiment of a ward terminal according to the present application, where the ward terminal includes a processing circuit 301, a communication circuit 302, and an environmental information acquisition circuit 303; the communication circuit 302 is used for communicating with a disease monitoring server or a receiver, and the environment information acquisition circuit 303 is used for acquiring real-time information related to an analgesia treatment process of a patient; the processing circuit 301 is coupled to the communication circuit 302 and the environmental information acquisition circuit 303, respectively, and the processing circuit 301, the communication circuit 302 and the environmental information acquisition circuit 303 can implement the steps of any one of the embodiments of the analgesia monitoring method of the present application when in operation.

Referring to fig. 4, fig. 4 is a block diagram of an embodiment of a computer-readable storage medium 40, in which a computer program 401 is stored, wherein the computer program 401, when executed by a processor, can perform the steps of any one of the embodiments of the method for monitoring analgesia.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. A ward terminal for analgesic monitoring, the ward terminal comprising:

the device comprises a processing circuit, a communication circuit and an environmental information acquisition circuit;

the communication circuit is used for communicating with the disease monitoring server, and the environment information acquisition circuit is used for acquiring real-time information related to the analgesia treatment process of the patient;

the processing circuit is respectively coupled with the communication circuit and the environment information acquisition circuit;

the ward terminal acquires real-time information related to an analgesia treatment process of a patient;

if the real-time information is matched with a preset condition, sending an alarm message to a disease condition monitoring server;

wherein, if the real-time information is matched with a preset condition, sending an alarm message to a disease monitoring server comprises:

if the real-time information is matched with the preset condition, the ward terminal firstly outputs a message to be confirmed of the side effect of the patient related to the analgesia treatment process;

if the ward terminal receives the confirmation message about the analgesia treatment process of the patient, the step of sending the alarm message to the disease monitoring server is executed;

wherein, if the real-time information is matched with a preset condition, the method comprises the following steps:

the ward terminal presets the preset conditions at least comprising a vital sign alarm range, disease characteristic sounds and disease characteristic keywords, and marks the types of the preset conditions; the preset condition is used for judging the side effect of the patient related to the analgesia treatment process;

the ward terminal identifies the type of the real-time information and analyzes the real-time information;

the ward terminal compares the real-time information with the preset conditions corresponding to the types of the real-time information, and if the real-time information reaches the vital sign warning range, and/or the real-time information contains the disease characteristic sound, and/or the real-time information contains the disease characteristic key word, the ward terminal judges that the real-time information is matched with the preset conditions.

2. The patient room terminal of claim 1,

the ward terminal outputs the message to be confirmed through the combination of one or more than two of characters, voice, images, tables and videos;

and the ward terminal receives the confirmation message through the combination of one or more than two of voice, touch, keys and a mouse.

3. The patient room terminal of claim 1,

if the real-time information is matched with the preset condition, sending an alarm message to the disease condition monitoring server comprises the following steps:

the ward terminal receives and outputs the instruction message from the disease condition monitoring server.

4. The patient room terminal of claim 3,

the ward terminal outputs the guidance message through the combination of one or more than two of characters, voice, images, tables and videos.

5. The patient room terminal of claim 1,

after the alarm message is sent to the disease monitoring server, the method comprises the following steps:

and the ward terminal receives and outputs the response message of the disease condition monitoring server.

6. The patient room terminal of claim 5,

and the ward terminal outputs the response message through the combination of one or more than two of characters, voice, images, tables and videos.

7. A computer readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, performs the steps performed by the patient room terminal of any one of claims 1-6.