CN116189834A - Clinical medicine test system and information interaction method - Google Patents

Abstract

The invention discloses a clinical medicine test system and an information interaction method, wherein the clinical medicine test system comprises: the system comprises a hospital data server, a management control server, an application server, a PC terminal, an Internet of things wireless access point, a label printer, a palm computer terminal, a wrist strap and an Internet of things terminal; the management control server is respectively connected with the hospital data server and the application server through signals, and is respectively connected with the PC terminal and the wireless access point of the Internet of things through a Tcp/ip communication protocol; the PC terminal is in signal connection with the label printer; the wireless access point of the Internet of things is respectively connected with the palm computer terminal, the wrist strap and the terminal of the Internet of things in a signal mode. The clinical medicine test system realizes closed-loop management of the whole flow of the clinical medicine test by combining the internet of things technology, so that a pharmacy can realize medicine management in a single-blind and double-blind mode according to the characteristics of the medicine test.

Description

Clinical medicine test system and information interaction method

Technical Field

The invention relates to the technical field of clinical trial data processing, in particular to a clinical drug test system and an information interaction method.

Background

Clinical trials refer to clinical studies that seek a better therapeutic regimen by comparison with an existing therapeutic regimen or regimen. In the clinical test process, the quality management standard, the ethical principle, the scientific principle and the legal regulations are required to be followed, so that the clinical test quality of the medicine is ensured, and the rights, safety and health of a subject are ensured.

The existing clinical medicine test system cannot transmit subject information in real time, cannot efficiently manage all links of a clinical test in real time, has high management cost, and has poor information interactivity among all links.

Disclosure of Invention

The invention provides a clinical medicine test system and an information interaction method, and aims to solve the problems of high management cost and poor information interaction of the existing clinical medicine test system.

The embodiment of the invention provides a clinical medicine test system, which comprises:

the system comprises a hospital data server, a management control server, an application server, a PC terminal, an Internet of things wireless access point, a label printer, a palm computer terminal, a wrist strap and an Internet of things terminal;

the management control server is respectively connected with the hospital data server and the application server through signals, and is respectively connected with the PC terminal and the wireless access point of the Internet of things through a Tcp/ip communication protocol;

the PC terminal is in signal connection with the label printer;

the wireless access point of the Internet of things is respectively connected with the palm computer terminal, the wrist strap and the terminal of the Internet of things through signals;

the hospital data server is used for storing all data of the system; the application server is used for running the service of the system; the label printer is used for printing required labels; the management control server is used for managing and monitoring equipment of a hospital; the wireless access point of the Internet of things is used for providing wireless signals of a local area network.

Further, all data of the system includes setup data and business data.

Further, the label comprises a medicine label and a specimen label, a medicine bar code and a medicine name are marked on the medicine label, and a specimen bar code is marked on the specimen label.

Further, the palmtop terminal is used for service operation, and the service operation includes: scanning a wrist strap bar code of a subject, scanning a medicine bar code, scanning a specimen bar code, and recording physical signs.

Further, the wrist strap is provided with an RFID chip, and the wrist strap is further provided with a wrist strap label containing basic information of the subject.

Further, the terminal of the internet of things comprises: wireless ear thermometer, wireless weighing apparatus, wireless blood pressure appearance and wireless oximeter.

The embodiment of the invention also provides an information interaction method of the clinical drug test system, which comprises the following steps:

when the medicines are delivered out of the warehouse, a command is sent to the label printer through the PC terminal, and the label printer prints medicine labels on the medicines;

the palm computer terminal scans the wrist strap bar code to obtain basic information of a subject and scans the medicine label to obtain medicine information, and the basic information and the medicine information are compared;

acquiring physical signs of a subject through the terminal of the Internet of things;

the basic information and the medicine information of the subject acquired by the palm computer terminal and the subject sign information acquired by the Internet of things terminal are used as data sets and uploaded to the management control server;

and sending the data set to the hospital data server for storage through the management control server, and sending the data set to the application server through the management control server.

Further, the sending, by the PC terminal, a command to the label printer when the medicine is delivered out of the warehouse, includes: according to the clinical medicine test plan, splitting medicine information, and sending the medicine information to the label printer, so that the label printer prints the medicine bar code, binds the medicine bar code, and realizes closed-loop management of medicines.

Further, the method further comprises the following steps: the identity information of the subject is obtained through scanning the wrist strap bar code during process tracking, medication, physical sign acquisition and specimen acquisition, and the identity information is checked.

Further, the method further comprises the following steps: and after the comparison is passed, recording medication information, and sending the medication information to the hospital data server through the management control server.

The invention has the beneficial effects that:

1. the terminal equipment is used for acquiring the information of the subject, the medicine and the sample, binding the medicine and the sample information on the subject and uploading the information to the hospital data server for storage, so that a doctor or a nurse only needs to scan the bar code on the wrist band of the subject through the terminal equipment when the doctor or the nurse needs to inquire the related information such as the medicine of the subject, and the system management cost is reduced.

2. Through combining the internet of things technology, the medical clinical test informatization inside the hospital, the information interaction between the hospital and the sponsor, the information interaction between the hospital and the equipment, the information interaction between the multi-center test hospitals and the information interaction between the hospital and the subjects are realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a clinical drug testing system according to an embodiment of the present invention;

fig. 2 is a flow chart of an information interaction method of a clinical drug testing system according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. 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.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that 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 in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Referring to fig. 1, the present embodiment provides a clinical drug testing system comprising:

a hospital data server 101, a management control server 102, an application server 103, a PC terminal 104, an internet of things wireless access point 105, a label printer 106, a palm top computer (PDA) terminal 107, a wristband 108, and an internet of things terminal 109;

the management control server 102 is respectively connected with the hospital data server 101 and the application server 103 in a signal manner, and the management control server 103 is respectively connected with the PC terminal 104 and the wireless access point 105 of the Internet of things through a Tcp/ip communication protocol (the Tcp/ip communication protocol is a communication protocol adopted by a system and a terminal); the PC terminal 104 is in signal connection with the label printer 106; the wireless access point 105 of the internet of things is respectively connected with the palm computer terminal 107, the wrist strap 108 and the terminal 109 of the internet of things in a signal manner;

the hospital data server 101 is used for storing all data of a system, wherein all data of the system comprise setting data and business data; the management control server 102 is used for managing and monitoring devices of the hospital; the application server 103 is used for running the services of the system; the PC terminal 104 is used for running a system and performing business operations; the internet of things wireless access point 105 is configured to provide wireless signals of a local area network; the label printer 106 is used for printing a required label; PDA terminal 107 is used for business operations in a particular scenario; wristband 108 is used to obtain basic information of the subject; the internet of things terminal 109 is configured to obtain physical sign information of a subject.

According to the embodiment, through combining the clinical test management system with the Internet of things technology, the information interaction among the clinical test of medicines in the hospital, the information interaction between the hospital and the sponsor, the information interaction between the hospital and the equipment, the information interaction between the multi-center test hospital, the information interaction between the hospital and the subjects and the information interaction between the hospital and the CRO are realized.

Further, the labels printed by the label printer 106 include a medicine label, a specimen label, a device label and a wristband label containing basic information of a subject, wherein the medicine label is attached to a medicine, information such as a medicine bar code, a medicine name and the like is marked on the medicine label, and in the using process of the medicine, the information of the medicine is identified by scanning the medicine bar code; the specimen label is attached to the specimen carrier, a specimen bar code is marked on the specimen label, and specimen information is identified by scanning the specimen bar code in the process of specimen circulation; the equipment label is attached to equipment, equipment bar codes are marked on the equipment label, the equipment can be devices such as a centrifugal machine and a medicine cabinet, when the equipment fails, the sample data inspected before the equipment can be obtained by scanning the equipment bar codes, and the correctness, the accuracy and the like of the sample data before the equipment can be verified; the wrist strap label is attached to the wrist strap, a wrist strap bar code is marked on the wrist strap label, and when the identity of a subject is identified, the identity of the subject is identified by scanning the wrist strap bar code, and the basic information of the subject is acquired.

In one embodiment, the process of printing the medicine bar code is to print the medicine cabinet label first, bind the medicine cabinet label with the medicine cabinet, bind the information such as the storage position, time and quantity of the medicine with the medicine cabinet label and upload to the hospital data server 101 for preservation when the medicine is put into the medicine cabinet, when the doctor issues the doctor's advice, call the medicine storage position, then take out the medicine and record and preserve, so as to replace the expired medicine and supplement the missing medicine in time, print the medicine bar code on the package of the medicine after the medicine is taken out of the warehouse, and bind with the medicine.

The device for scanning the bar code is mainly a PDA terminal 107, and the PDA terminal 107 is mainly used for performing a series of business operations such as scanning the bar code of the wrist strap of the subject, scanning the bar code of the medicine, scanning the bar code of the specimen, recording the physical sign, and the like.

Furthermore, the wrist strap is provided with the RFID chip, when the basic information of the subject is acquired, only the reader reads the information sent by the RFID chip, and the basic information of the subject can be acquired in a long distance through the RFID chip, so that the acquisition efficiency of the basic information of the subject is improved.

When the sign is recorded through the PDA terminal 107, the sign information of the subject needs to be acquired, and the sign information of the subject is acquired mainly through the internet of things terminal 109, and the internet of things terminal 109 can be a wireless ear thermometer, a wireless weight device, a wireless blood pressure meter, a wireless oximeter and other devices.

In an embodiment, the clinical drug test system is further provided with a data early warning module, the sign data and the test result of the specimen obtained by the internet of things terminal 109 are sent to the data early warning module, the data early warning module detects whether the sign data or the test result of the specimen is abnormal, and when the data early warning module detects that the sign data or the test result of the specimen is abnormal, the data early warning module feeds back abnormal information to a relevant doctor or a responsible person in time, wherein the data abnormality can be that the data exceeds a specified standard range or that the change trend of the data in a preset time exceeds a preset trend change function.

In the embodiment, a label printing technology and a PDA terminal code scanning technology are used to realize closed-loop management of the specimen; the identity check and sign acquisition of the subject are realized by adopting a label printing technology, an RFID technology, a PDA terminal code scanning technology and an Internet of things technology; by adopting a label printing technology and a PDA terminal code scanning technology, the identity check of patients is realized, the closed-loop management of test medicines is realized, and the hospital retains informationized medicine test data.

Referring to fig. 2, the embodiment further provides an information interaction method of the clinical drug testing system, which includes:

s201: when the medicines are delivered out of the warehouse, a command is sent to the label printer through the PC terminal, and the label printer prints medicine labels on the medicines;

s202: the palm computer terminal scans the wrist strap bar code to obtain basic information of a subject and scans the medicine label to obtain medicine information, and the basic information and the medicine information are compared;

s202: acquiring physical signs of a subject through the terminal of the Internet of things;

s204: the basic information and the medicine information of the subject acquired by the palm computer terminal and the subject sign information acquired by the Internet of things terminal are used as data sets and uploaded to the management control server;

s205: and sending the data set to the hospital data server for storage through the management control server, and sending the data set to the application server through the management control server.

Further, step S201 includes: according to the clinical medicine test plan, splitting medicine information, and sending the medicine information to the label printer, so that the label printer prints the medicine bar code, binds the medicine bar code, and realizes closed-loop management of medicines.

In one embodiment, identity information of a subject during process tracking, medication, physical sign collection, and specimen collection is obtained by scanning a wristband barcode, and the identity information is checked.

Specifically, when a subject arrives from a test ward, the wrist strap is printed and worn on the hand of the subject, and when the process tracking is performed, the PDA terminal 107 scans the bar code of the wrist strap to obtain the basic information of the subject, and then the identity of the subject is checked, and the current progress of the subject can be obtained after the successful check; when taking medicine, the PDA terminal 107 scans the wrist strap bar code to obtain the basic information of the subject, then checks the identity of the subject, takes medicine to the subject after the check is successful, binds and records the medicine name, medicine dosage, medicine time and other medicine information with the subject, and uploads the medicine information to the hospital data server 101 for storage through the management control server 102; when the physical sign acquisition is carried out, the basic information of the subject is firstly obtained by scanning the wrist strap bar code through the PDA terminal 107, then the identity of the subject is checked, the real-time physical sign data of the subject is obtained through the terminal of the Internet of things after the check is successful, the physical sign data before the subject can also be obtained, and then the physical sign data and the subject are bound and stored in the hospital data server 101; when the specimen is collected, the basic information of the subject is obtained by scanning the wristband bar code through the PDA terminal 107, the identity of the subject is checked, the specimen of the subject is collected after the check is successful, then the specimen bar code is printed, the bar code is attached to the specimen carrier, then the specimen bar code information is bound with the subject, the progress of each process can be bound with the specimen bar code and stored in the processes of collecting, centrifuging, split charging, handing over and the like of the specimen, and when the information such as the process of knowing the specimen is required, the information can be obtained by scanning the wristband bar code of the subject.

In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the invention can be made without departing from the principles of the invention and these modifications and adaptations are intended to be within the scope of the invention as defined in the following claims.

It should also be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Claims (10)

1. A clinical drug testing system, comprising:

the system comprises a hospital data server, a management control server, an application server, a PC terminal, an Internet of things wireless access point, a label printer, a palm computer terminal, a wrist strap and an Internet of things terminal;

the management control server is respectively connected with the hospital data server and the application server through signals, and is respectively connected with the PC terminal and the wireless access point of the Internet of things through a Tcp/ip communication protocol;

the PC terminal is in signal connection with the label printer;

the wireless access point of the Internet of things is respectively connected with the palm computer terminal, the wrist strap and the terminal of the Internet of things through signals;

the hospital data server is used for storing all data of the system; the application server is used for running the service of the system; the label printer is used for printing required labels; the management control server is used for managing and monitoring equipment of a hospital; the wireless access point of the Internet of things is used for providing wireless signals of a local area network.

2. The clinical trial system of claim 1, wherein all data of the system includes setup data and business data.

3. The clinical medication testing system of claim 1, wherein said labels comprise a drug label having a drug barcode and a drug name identified thereon and a specimen label having a specimen barcode identified thereon.

4. The clinical medication testing system of claim 1, wherein said palm top terminal is configured for business operations comprising: scanning a wrist strap bar code of a subject, scanning a medicine bar code, scanning a specimen bar code, and recording physical signs.

5. The clinical medication testing system according to claim 1, wherein said wristband is provided with an RFID chip, said wristband further provided with a wristband label containing subject basic information.

6. The clinical medication testing system according to claim 1, wherein said internet of things terminal comprises: wireless ear thermometer, wireless weighing apparatus, wireless blood pressure appearance and wireless oximeter.

7. A method of information exchange for a clinical drug testing system according to any one of claims 1-6, comprising:

when the medicines are delivered out of the warehouse, a command is sent to the label printer through the PC terminal, and the label printer prints medicine labels on the medicines;

the palm computer terminal scans the wrist strap bar code to obtain basic information of a subject and scans the medicine label to obtain medicine information, and the basic information and the medicine information are compared;

acquiring physical signs of a subject through the terminal of the Internet of things;

the basic information and the medicine information of the subject acquired by the palm computer terminal and the subject sign information acquired by the Internet of things terminal are used as data sets and uploaded to the management control server;

and sending the data set to the hospital data server for storage through the management control server, and sending the data set to the application server through the management control server.

8. The information interaction method of clinical medication testing system according to claim 7, wherein the sending a command to the label printer through the PC terminal when the medicine is delivered out of the warehouse, comprises:

according to the clinical medicine test plan, splitting medicine information, and sending the medicine information to the label printer, so that the label printer prints the medicine bar code, binds the medicine bar code, and realizes closed-loop management of medicines.

9. The method of information interaction for a clinical medication testing system according to claim 7, further comprising:

the identity information of the subject is obtained through scanning the wrist strap bar code during process tracking, medication, physical sign acquisition and specimen acquisition, and the identity information is checked.

10. The method of information interaction for a clinical medication testing system according to claim 9, further comprising:

and after the verification is passed, recording medication information, and sending the medication information to the hospital data server through the management control server.

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