TWI682764B - Physiological parameter recording system and method thereof - Google Patents

Abstract

A physiological parameter recording system includes a first measurement equipment configured to generate a first physiological parameter, a second measurement equipment configured to generate a second physiological parameter, a recording device installed with a physiological parameter recording program configured to execute the following steps: reading the first physiological parameter by connecting to the first physiological parameter through a digital transmission function, reading the second physiological parameter by a user input interface, displaying the first and second physiological parameters, confirming and storing the first and second physiological parameters after the user input interface has been locked according to a lock signal, and generating and displaying a quick response code according to the first and second physiological parameters, and a cloud database configured to receive the quick response code from the recording device through the digital transmission function.

Description

Physiological parameter recording system and related methods

The invention refers to a recording system and related methods, in particular to a recording system and related methods for recording physiological parameters.

For the recording method of physiological parameters, it still depends on manual transcription and file establishment. For example, hospital physicians, nurses, and caregivers in Anyang Center can use medical equipment to measure the patient's physiological parameters (eg, body temperature, blood pressure, heart rhythm, respiratory rate, blood oxygen, blood sugar, etc.) or ask the patient After reading the physiological parameters, work schedule and feelings in the paper document, and then input the corresponding data into the electronic database.

However, the above operation is a routine business, which is not only cumbersome and time-consuming, but may also cause medical records to be wrong due to reading errors or manual errors. Therefore, it is necessary to provide a system and method that can automatically record and integrate multiple physiological parameters to improve convenience and accuracy.

Therefore, the main object of the present invention is to provide a related system and method that can automatically record and integrate multiple physiological parameters.

The invention discloses a physiological parameter recording system, including a first measurement device for generating a first physiological parameter; a second measurement device for generating a second physiological parameter; a recording device installed with a physiological parameter Record the program to perform the following steps: connect to the first measurement device through the digital transmission function to read the first physiological parameter; read the second physiological parameter through a user input interface; display the first Physiological parameters and the second physiological parameters; according to a locking signal, after locking the user input interface, confirm and store the first and second physiological parameters; and according to the first physiological parameters and the second physiological parameters, generated And display a quick response matrix code; and a cloud database, connected to the recording device through the digital transmission function to receive the quick response matrix code.

The present invention discloses a physiological parameter recording method for a recording device of a physiological parameter recording system, including a first measurement device connected to the physiological parameter recording system through the digital transmission function, and reading the first A first physiological parameter generated by a measurement device; the recording device reads a second physiological parameter generated by a second measurement device of the physiological parameter recording system through a user input interface; the recording device displays the first physiological parameter A physiological parameter and the second physiological parameter; the recording device confirms and stores the first and second physiological parameters after locking the user input interface according to a locking signal; the recording device according to the first physiological parameter and the Generating and displaying a quick response matrix code (Quick Response Code) for the second physiological parameter; and the recording device is connected to a cloud database of the physiological parameter recording system through a digital transmission function to transmit the quick response matrix code .

In the physiological parameter recording system of the present invention, the recording device can be wirelessly connected to a plurality of measurement devices 10 to automatically obtain multiple physiological parameters (or manually input physiological parameters by the operator), and then generate a corresponding QR according to the multiple physiological parameters The code is further connected to the cloud database by wireless network to upload the QR code (ie multiple physiological parameters). In this way, the physiological parameter recording system of the present invention can reduce manual transcription and file-building operations, and reduce the probability of manual error correction, so as to realize automatic recording and integration of multiple physiological parameters The purpose of the number.

1‧‧‧Physiological parameter recording system

10‧‧‧ Measuring equipment

12‧‧‧Recording device

14‧‧‧ Cloud database

P10‧‧‧ Subject

P12‧‧‧Operator

2‧‧‧Physiological parameter recording process

201~212‧‧‧Step

VS-10‧‧‧Physiological parameter recording program

FIG. 1 is a schematic diagram of a physiological parameter recording system according to an embodiment of the present invention.

FIG. 2 is a flowchart of a physiological parameter recording process according to an embodiment of the present invention.

Figures 3 to 10 are schematic diagrams of the operation of the recording device according to the first embodiment of the present invention.

FIG. 1 is a schematic diagram of a physiological parameter recording system 1 according to Embodiment 1 of the present invention. The physiological parameter recording system 1 can be applied to any organization and unit that needs to record physiological parameters, for example: (1) hospital examination room, outpatient department, ward; (2) nursing home, long-term care center; (3) medical research school and Institutions; (4) health care, beauty, rehabilitation institutions; (5) academic discussions, research units and conferences; (6) home care.

The physiological parameter recording system 1 includes a plurality of measuring devices 10, a recording device 12, and a cloud database 14. The measuring device 10 may be a medical device for measuring physiological parameters, such as a thermometer, a heart rate sphygmomanometer, a blood oxygen machine, a blood glucose machine, a physiological monitor (Vital signs monitor), and a weight machine. The recording device 12 may have mobility, wireless communication functions (such as Wifi, third-generation wireless communication, fourth-generation wireless communication, long-term evolution, etc., Bluetooth, near-field communication, etc.), allowing users to download and install applications by themselves Mobile device with software and other features that can be operated through the touch panel, such as a smartphone or tablet. The cloud database 14 may be hospital information and its integrated system.

The physiological parameter recording system 1 can be used to assist an operator P12 to separately record the physiological parameters of a plurality of subjects P10, wherein the operator P12 can be a physician, a nurse or a caregiver, etc., and the subject P10 can be a patient or a general people. Physiological parameters can be height, weight, head circumference, neck circumference, chest circumference, waist circumference, hip circumference, heart rhythm, systolic blood pressure, diastolic blood pressure, blood oxygen, blood glucose, body temperature, respiration rate, pain index, urine output, number of stools, etc., But it is not limited to this.

Specifically, the recording device 12 can be connected to a plurality of measurement devices 10, and the operator P12 can operate the measurement devices 10 to obtain the physiological parameters of the subject P10; then, through the digital transmission function of the measurement device 10 itself (e.g. Bluetooth, near field communication, Wifi, etc.), the recording device 12 can collect physiological parameters measured by the measuring device 10. When the measuring device 10 does not have a digital transmission function, the operator P12 can manually input the physiological parameters measured by the measuring device 10 to the recording device 12 using a user input interface (for example, a keyboard). When all the physiological parameters have been measured, the recording device 12 can lock and lock the user input interface according to a locking signal, confirm and store all physiological parameters, and generate the corresponding quick response matrix code (Quick Response Code) , Hereinafter referred to as QR code). In this way, the recording device 12 can import the physiological parameters into the personal health file and webpage record of the examinee P10 through the QR code to store the physiological parameters in the cloud database 14.

In short, in the physiological parameter recording system 1, the recording device 12 can be wirelessly connected to a plurality of measurement devices 10 to automatically obtain multiple physiological parameters (or manually input physiological parameters by the operator), and then store multiple physiological parameters according to After that, a corresponding QR code is generated, which is further connected to the cloud database 14 using a wireless network to upload the QR code (ie, multiple physiological parameters). In this way, the physiological parameter recording system 1 of the present invention can reduce manual transcription and file-building operations, and reduce the probability of manual error correction, so as to realize automatic recording and integration The purpose of multiple physiological parameters.

FIG. 2 is a flowchart of a physiological parameter recording process 2 according to an embodiment of the present invention, and FIGS. 3 to 10 are schematic diagrams of operations of the recording device 12 according to an embodiment of the present invention. The operator P12 can operate the recording device 12 according to the steps of the physiological parameter recording process 2 and execute related applications to achieve the purpose of automatically recording and integrating multiple physiological parameters. The physiological parameter recording process 2 includes the following steps.

Step 201: Use the settings for the first time to connect to the measurement device.

Step 202: Perform a physiological parameter recording program.

Step 203: Login the operator identification code.

Step 204: Log in the subject ID.

Step 205: Is it connected to the measurement equipment? If yes, go to step 206; if no, go to step 207.

Step 206: Read and display the physiological parameters measured by the measuring device. Proceed to step 208.

Step 207: Manually input and display the physiological parameters measured by the measurement device with the digital transmission function.

Step 208: After locking the user input interface according to a lock signal, confirm and store all physiological parameters.

Step 209: Generate a QR code corresponding to the physiological parameter, and upload the physiological parameter to the cloud database.

Step 210: Log in a new subject? If yes, go back to step 204; if no, go to step 211.

Step 211: Is a new operator logged in? If yes, go back to step 203; if no, go to step 212.

Step 212: Close the physiological parameter recording program.

In step 201, the operator P12 can use the settings for the first time to connect to the measuring device 10, for example, to enable the wireless communication function of the recording device 12 (such as WiFi, near field communication, Bluetooth, etc.) to connect to multiple devices Test equipment 10; and download and install the physiological parameter recording program. In step 202, as shown in FIG. 3, the operator P12 can download and install a physiological parameter recording program VS-10 to execute the physiological parameter recording program VS-10.

In step 203, the operator P12 can log in and display the operator identification code by scanning the QR code, bar code (Bar Code) or manual input, as shown in the bottom of Figure 4 the operator identification code "000875824" and the operator Name "Lu OO". In step 204, the operator P12 can log in and display the subject identification code by scanning the QR code, bar code, or manual input, as shown in the top of Figure 4 with the subject identification code "00005521" and the name of the subject "Zhang OO". Please note that the way to scan the QR code or barcode to log in the identification codes of the operator and the examinee can avoid manual error and speed up the recording process.

In steps 205 to 206, when the recording device 12 is connected to the measuring device 10, the recording device 12 can read and display the physiological parameters measured by the measuring device 10. For example, as shown in FIG. 4, the recording device 12 can be connected to a frontal temperature gun or an ear thermometer to measure the body temperature as "36.9 degrees". The recording device 12 can be connected to a physiological monitor to measure heart rate "80 beats/min", systolic pressure "107 mm/Hg", and diastolic pressure "64 mm/Hg". The recording device 12 can be connected to a blood oxygen machine to measure the blood oxygen percentage as "99%".

From step 205 to step 207, when the recording device 12 is not connected to the measurement device 10, the operator P12 can manually measure the subject P10, and manually input and display the measurement device 10 of the digital transmission function. Measured physiological parameters. For example, as shown in Figure 5, the operator P12 can use a tape measure to measure the subject P10, and the subject's neck circumference "36 cm", waist circumference "80 cm", bust "92 cm", The physiological parameters are manually input to the recording device 12 through a user input interface (for example, a keyboard). In other words, the recording device 12 can read physiological parameters through a user input interface.

As shown in FIG. 6, the operator P12 asks the subject P10 the level of the pain index, and manually selects the pain index “level 1” from the pop-up window to the recording device 12. In an embodiment, as shown in FIG. 6, the recording device 12 may display a “lock” option to lock the physiological parameters that have been input, so as to avoid a situation where a subsequent misoperation causes an error. As shown in FIG. 7, when the stored physiological parameters are locked, the operator P12 can select the “unlock” option displayed by the recording device 12 to re-measure and modify the physiological parameters.

In step 208, when the operator P12 confirms that all physiological parameters are correct, he can select the "lock" option to lock the user input interface and select the "confirm" option to store all physiological parameters to complete a single subject P10 Of physiological parameters. In other words, the recording device 12 can confirm and store all physiological parameters after locking the user input interface according to a locking signal.

As shown in FIG. 8, when the measurement is completed, the recording device 12 can record and display the physiological parameters on the screen. In an embodiment, the operator P12 can select the "upload selected items" or "upload all" options according to actual needs to increase the flexibility of use. In addition, since the recording device 12 can store recorded data (ie, physiological parameters) and then upload the data through network transmission, this can solve the problem of temporarily unable to upload when the network environment is unstable.

In step 209, as shown in FIG. 9, the recording device 12 can generate a QR code corresponding to the physiological parameter, so as to facilitate uploading the physiological parameter to the cloud database. In an embodiment, the recording device 12 can record the recording time and uploading time of the physiological parameter (or QR code), which is convenient for the operator P12 to manage the physiological parameter of the subject P10. In practical applications, when the operator P12 returns to the workstation, the identification code of the scanned subject P10 can be used (for example Such as two-dimensional barcode) and the QR code corresponding to physiological parameters, the recorded data is integrated into the cloud database 14 (such as a hospital information system) to avoid the extra time for manual copying.

In step 210, if a new subject needs to be logged in, the operator P12 can log in the subject identification code by scanning the QR code, bar code, or manual input to repeat steps 204 to 209. In step 211, if a new operator needs to be logged in, the new operator P12 can log in to the new operator identification code by scanning a QR code, barcode, or manual input, to perform steps 203 to 209 again. In step 212, as shown in FIG. 10, if there is no need to log in a new subject and a new operator, the physiological parameter recording program is closed to end the physiological parameter recording process 2.

In summary, in the physiological parameter recording system of the present invention, the recording device can be wirelessly connected to a plurality of measurement devices 10 to automatically obtain multiple physiological parameters (or the operator manually inputs the physiological parameters), and then according to the multiple physiological parameters To generate the corresponding QR code, and further use the wireless network to connect to the cloud database to upload the QR code (ie multiple physiological parameters). In this way, the physiological parameter recording system of the present invention can reduce manual transcription and file-building operations, and reduce the probability of manual error correction, so as to achieve the purpose of automatically recording and integrating multiple physiological parameters. The above are only the preferred embodiments of the present invention, and all changes and modifications made in accordance with the scope of the patent application of the present invention shall fall within the scope of the present invention.

1‧‧‧Physiological parameter recording system

10‧‧‧ Measuring equipment

12‧‧‧Recording device

14‧‧‧ Cloud database

P10‧‧‧ Subject

P12‧‧‧Operator

Claims (8)

A physiological parameter recording system includes: a first measurement device for generating a first physiological parameter and transmitting the first physiological parameter with a digital transmission function; a second measurement device for generating a first Two physiological parameters; a removable recording device installed with a physiological parameter recording program to perform the following steps: connect to the first measurement device through a digital transmission function to read the first physiological parameter; input through a user Interface to read the second physiological parameter; display the first physiological parameter and the second physiological parameter; according to a lock signal, after locking the user input interface, confirm and store the first physiological parameter and the second physiological parameter Parameters; and generate and display a quick response matrix code (Quick Response Code) according to the first physiological parameter and the second physiological parameter; when it is determined that a new subject needs to be logged in, scan the quick response matrix code, Bar code or through the user input interface to log in and display a second subject identification code; and when it is determined that it is not necessary to log in a new subject, determine whether to log in a new operator, including: Operator, log in and display a second operator identification code by scanning the quick response matrix code, barcode or through the user input interface; and when it is determined that it is not necessary to log in a new operator, close the physiological parameter record Program; and a cloud database, connected to the removable recording device through the digital transmission function to receive the quick response matrix code. The physiological parameter recording system according to claim 1, wherein the physiological parameter recording program controls The removable recording device performs the following steps: logging in and displaying a first operator identification code by scanning quick response matrix codes, barcodes or through the user input interface; and scanning quick response matrix codes, barcodes or through the The user enters the interface to log in and displays a first subject identification code. The physiological parameter recording system according to claim 1, wherein the mobile recording device is connected to the first measurement device through digital transmission functions such as Wifi, Bluetooth or near field communication, and the cloud database through Wifi, Digital transmission functions such as third-generation wireless communication, fourth-generation wireless communication, long-term evolution, Bluetooth, near field communication, etc. are connected to the removable recording device. The physiological parameter recording system according to claim 1, wherein the first measurement device and the second measurement device are an integrated thermometer, a heart rate sphygmomanometer, a blood oxygen machine, a blood glucose machine, a physiological monitor, and a One of the weight machines, and the first physiological parameter and the second physiological parameter are a height, a weight, a head circumference, a neck circumference, a chest circumference, a waist circumference, a hip circumference, a heart rhythm, a systolic blood pressure, One of a diastolic blood pressure, a blood oxygen, a blood sugar, a body temperature, a respiration rate, a pain index, a urine output, and a frequency of defecation. A physiological parameter recording method for a movable recording device of a physiological parameter recording system, including: the movable recording device is connected to a first measurement device of the physiological parameter recording system through a digital transmission function, and reads A first physiological parameter generated by the first measurement device; the movable recording device reads a second physiological parameter generated by a second measurement device of the physiological parameter recording system through a user input interface; The movable recording device displays the first physiological parameter and the second physiological parameter; the movable recording device locks the user input interface according to a locking signal, confirms and stores the first physiological parameter and the second physiological parameter Parameters; the mobile recording device generates and displays a quick response matrix code (Quick Response Code) according to the first physiological parameter and the second physiological parameter; the mobile recording device is connected to the physiological through a digital transmission function A cloud database of the parameter recording system to send the quick response matrix code; when the mobile recording device determines that a new subject needs to be logged in, scan the quick response matrix code, bar code or through the user input interface to Log in and display a second subject identification code; and when the removable recording device determines that it is not necessary to log in a new subject, determine whether a new operator needs to be logged in, including: when the removable recording device determines to log in For a new operator, log in and display a second operator identification code by scanning the quick response matrix codes, barcodes or through the user input interface; and when the removable recording device determines that it is not necessary to log in a new operator To close the physiological parameter recording program. The physiological parameter recording method according to claim 5, further comprising: the removable recording device logs in and displays a first operator identification code by scanning a quick response matrix code, a bar code or through the user input interface; and The mobile recording device logs in and displays a first subject identification code by scanning the quick response matrix code, bar code or through the user input interface. The physiological parameter recording method according to claim 5, wherein the removable recording device is connected to the first measurement device through digital transmission functions such as Wifi, Bluetooth or near field communication, and the cloud database through Wifi, Digital transmission functions such as third-generation wireless communication, fourth-generation wireless communication, long-term evolution, Bluetooth, near field communication, etc. are connected to the removable recording device. The physiological parameter recording method according to claim 5, wherein the first measurement device and the second measurement device are an integrated thermometer, a heart rate sphygmomanometer, a blood oxygen machine, a blood glucose machine, a physiological monitor, and a One of the weight machines, and the first physiological parameter and the second physiological parameter are a height, a weight, a head circumference, a neck circumference, a chest circumference, a waist circumference, a hip circumference, a heart rhythm, a systolic blood pressure, One of a diastolic blood pressure, a blood oxygen, a blood sugar, a body temperature, a respiration rate, a pain index, a urine output, and a frequency of defecation

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