CN110459288A - A method, device, equipment and storage medium for screening congenital heart disease - Google Patents

Abstract

A method, device, equipment, and storage medium for screening congenital heart disease. The present invention provides a method for information transfer of children with congenital heart disease, including the following steps: S1: information entry; S2: generating barcodes; S3 : Double-index method detection data entry; S4: Data comparison; ‑If you suffer from congenital heart disease, execute S5; ‑If you do not suffer from congenital heart disease, the output is negative; S5: Ultrasound detection data entry; S6 : Diagnosis information reception; S7: Diagnosis information output. The invention can remotely transmit the detection report to the provincial hospital for the doctors of the provincial hospital to view and make a diagnosis conclusion, which greatly reduces the diagnosis time of the child; and each child has a corresponding barcode, and the medical staff can scan it The barcode can be used to view the test report information between patients, and the data transmission is accurate to avoid confusion during information transmission. It has great reference value for the doctor's actual diagnosis and avoids misdiagnosis.

Description

A method, device, equipment and storage medium for screening congenital heart disease

technical field

The invention belongs to the technical field of medical equipment, and in particular relates to a method, device, equipment and storage medium for screening congenital heart disease.

Background technique

Congenital heart disease is a congenital malformation caused by abnormal development of the heart and great blood vessels during the fetal period, which seriously affects the life and quality of life of the child. Severe congenital heart disease is one of the main causes of death of newborns, infants and children under 5 years old in my country. Due to the limitations of medical equipment and doctors, most county-level hospitals can only conduct preliminary screening to confirm whether the fetus has congenital heart disease. The specific treatment plan needs to be formulated in provincial hospitals. There is a long distance between high-level hospitals, a lot of treatment time is wasted going back and forth, and paper medical records are not easy to carry, and once lost, they need to be checked again.

Contents of the invention

The purpose of the present invention is to provide an information transfer method, system, device and storage medium for children with congenital heart disease to solve the above problems in the prior art.

The first object of the present invention can be achieved through the following technical solutions: an information transfer method for children with congenital heart disease, including the following steps: S1: newborn information entry: receiving the basic information of newborns entered by parents; S2: Generate barcodes: Generate corresponding barcodes based on the basic information of newborns; S3: Double-index method detection data entry: Receive the double-index method detection data input by medical staff, enter the detection data into the server, and correlate with the barcode; S4: Data ratio Right: compare the detection data according to the threshold value of the double-index method preset in the server, and judge whether the newborn suffers from congenital heart disease; - if suffering from congenital heart disease, then execute S5; - if not suffering from congenital heart disease , the output is negative; S5: Echocardiography data entry: receive at least one Echocardiogram report input by the medical staff, upload the Echocardiogram report to the server, and correlate with the barcode; S6: Receive diagnostic information: receive the input of the medical staff Diagnosis conclusion, upload the diagnosis conclusion to the server and correlate with the barcode; S7: Diagnosis information output: transmit the echo report and diagnosis conclusion to the output terminal.

The working principle of the present invention: Firstly, the children with congenital heart disease are screened out through the comparison of the detection data of the double-index method. Download the echocardiographic report from the server, scan the barcode to view the previous test data, and then make a diagnosis and upload it to the server. The medical staff of the county-level hospital download the diagnosis conclusion from the server and send it to the patient together with the echocardiography report. dependents.

In the above information transfer method for children with congenital heart disease, it also includes the step: S8: inputting treatment information: receiving the medical record front page input by the medical staff, uploading the medical record front page to the server, and correlating with the barcode.

In the above information transfer method for children with congenital heart disease, the step S9 is further included: outputting treatment information: transmitting the first page of the medical record to the output terminal.

In the above-mentioned information transfer method for children with congenital heart disease, in step S5, when uploading the echocardiographic report, OCR is used to convert the echocardiographic report into corresponding textual information of the echocardiographic report.

In the above information transfer method for children with congenital heart disease, in step S8, when the first page of the medical record is uploaded, the first page of the medical record is converted into corresponding text information on the first page of the medical record by OCR.

In the above information transfer method for children with congenital heart disease, in step S7, the transmission of the echocardiographic report and diagnosis conclusion is realized through one or any combination of small programs, short messages, and WeChat.

In the above information transfer method for children with congenital heart disease, in step S9, the transmission of the front page of the medical record is realized through one or any combination of mini-programs, short messages, and WeChat.

The second object of the present invention can be achieved through the following technical solutions: an information transfer device for children with congenital heart disease, including: a device for entering newborn information: receiving the basic information of newborns entered by parents; Device for generating barcodes: generate corresponding barcodes based on the basic information of newborns; device for dual-index method detection data: receive the detection data of dual-index method input by medical staff, enter the detection data into the server, and correlate with the barcode; The device for data comparison: compare the detection data according to the threshold value of the double index method preset in the server, and judge whether the newborn suffers from congenital heart disease; the device for data entry of echocardiography: receive at least one A heart ultrasound report, upload the heart ultrasound report to the server, and correlate with the barcode; a device for receiving diagnostic information: receive the diagnostic conclusion input by the medical staff, upload the diagnostic conclusion to the server, and correlate with the barcode; Diagnosis information output device: transmit the echocardiographic report and diagnosis conclusion to the output terminal.

The above-mentioned information transfer device for children with congenital heart disease also includes a device for entering treatment information: receiving the first page of the medical record input by the medical staff, uploading the first page of the medical record to the server, and correlating with the barcode.

In the above-mentioned information transfer device for children with congenital heart disease, a device for outputting treatment information is also included: transmitting the first page of the medical record to the output terminal.

In the above-mentioned information transfer device for children with congenital heart disease, in the device for inputting echocardiographic data, when uploading the echocardiographic report, OCR is used to convert the echocardiographic report into corresponding textual information of the echocardiographic report.

In the above-mentioned information transfer device for children with congenital heart disease, in the device for inputting treatment information, when the first page of the medical record is uploaded, OCR is used to convert the first page of the medical record into corresponding text information on the first page of the medical record.

In the above-mentioned information transfer device for children with congenital heart disease, in the above-mentioned device for outputting diagnostic information, one or any combination of small programs, short messages, and WeChat is used to realize the exchange of echocardiographic reports and diagnostic conclusions. transmission.

In the above-mentioned information transfer device for children with congenital heart disease, in the device for outputting treatment information, the transmission of the front page of medical records is realized through one or any combination of small programs, short messages, and WeChat.

The third object of the present invention can be achieved through the following technical solutions: an information flow device for children with congenital heart disease, comprising: a display; an input device; one or more processors; a memory; and one or more programs , wherein the one or more programs are stored in the memory and are configured to be executed by the one or more processors, the programs include steps for performing the following steps: S1: Newborn information entry: receiving The basic information of the newborn entered by the parents; S2: Generate barcode: generate the corresponding barcode according to the basic information of the newborn; S3: Input the detection data of the dual-index method: receive the detection data of the dual-index method input by the medical staff, enter the detection data into the server, And interrelated with the barcode; S4: data comparison: compare the detection data according to the threshold value of the double index method preset in the server, and judge whether the newborn suffers from congenital heart disease; - if suffering from congenital heart disease, then execute S5 ;-If you do not suffer from congenital heart disease, the output is negative; S5: Cardiac testing data entry: receive at least one cardiogram report input by medical staff, upload the cardiogram report to the server, and correlate with the barcode; S6 : Diagnosis information receiving: receiving the diagnosis conclusion input by the medical staff, uploading the diagnosis conclusion to the server, and correlating with the barcode; S7: Diagnosis information output: transmitting the echo report and diagnosis conclusion to the output terminal.

The above information transfer device for children with congenital heart disease also includes a step: S8: inputting treatment information: accepting the medical record front page input by the medical staff, uploading the medical record front page to the server, and correlating with the barcode.

In the above-mentioned information transfer device for children with congenital heart disease, a step is also included: S9: outputting treatment information: transmitting the first page of the medical record to the output terminal.

In the above information transfer device for children with congenital heart disease, in step S5, when uploading the echocardiographic report, OCR is used to convert the echocardiographic report into corresponding textual information of the echocardiographic report.

In the above-mentioned information transfer device for children with congenital heart disease, in step S8, when the first page of the medical record is uploaded, the first page of the medical record is converted into corresponding text information on the first page of the medical record by OCR.

In the above-mentioned information transfer device for children with congenital heart disease, in the step S7, the transmission of the echocardiographic report and diagnosis conclusion is realized through one or any combination of small programs, SMS, and WeChat.

In the above-mentioned information transfer device for children with congenital heart disease, in the step S9, the transmission of the first page of the medical record is realized through one or any combination of small programs, short messages, and WeChat.

The fourth object of the present invention can be achieved through the following technical solutions: a storage medium stored with a display; an input device; a computer program used in combination, the computer program can be executed by a processor to complete the following steps: S1: Newborn information entry: receive the basic information of the newborn entered by the parents; S2: generate barcode: generate the corresponding barcode according to the basic information of the newborn; S3: double-index method detection data entry: receive the double-index method The detection data is entered into the server and correlated with the barcode; S4: Data comparison: compare the detection data according to the threshold value of the double-index method preset in the server to determine whether the newborn suffers from congenital heart disease; Heart disease, then execute S5; - if you do not suffer from congenital heart disease, then the output is negative; S5: Cardiac test data entry: receive at least one cardiogram report input by medical staff, upload the cardiogram report to the server, and Interrelated with the barcode; S6: Diagnosis information reception: receive the diagnosis conclusion input by the medical staff, upload the diagnosis conclusion to the server, and correlate with the barcode; S7: Diagnosis information output: transmit the echocardiographic report and diagnosis conclusion to the output terminal.

The above storage medium also includes the step: S8: inputting treatment information: receiving the first page of the medical record input by the medical personnel, uploading the first page of the medical record to the server, and correlating with the barcode.

In the above-mentioned storage medium, a step is further included: S9: outputting treatment information: transmitting the first page of the medical record to the output terminal.

In the above-mentioned storage medium, in the step S5, when uploading the echocardiographic report, the echocardiographic report is converted into corresponding text information of the echocardiographic report by OCR.

In the above-mentioned storage medium, in the step S8, when the front page of the medical record is uploaded, the first page of the medical record is converted into corresponding text information on the front page of the medical record by OCR.

In the above-mentioned storage medium, in the step S7, the transmission of the echocardiography report and diagnosis conclusion is realized through one or any combination of applets, short messages, and WeChat.

In the above-mentioned storage medium, in the step S9, the transmission of the front page of the medical record is realized through one or any combination of applets, short messages, and WeChat.

Compared with the prior art, the present invention remotely transmits the detection report to the provincial hospital for the doctors of the provincial hospital to view and make a diagnosis conclusion, which greatly reduces the diagnosis time of children; and each child has a corresponding Barcode, medical staff can scan the barcode to view the test report information between children, the data transmission is accurate, and the confusion during information transmission is avoided. It has great reference value for the doctor's actual diagnosis and avoids misdiagnosis.

Description of drawings

Fig. 1 is a schematic diagram of the principle of the steps of the present invention.

Detailed ways

The following are specific embodiments of the present invention and in conjunction with the accompanying drawings, the technical solutions of the present invention are further described, but the present invention is not limited to these embodiments.

As shown in Figure 1, the information transfer method for children with congenital heart disease includes the following steps: S1: newborn information entry: receive the basic information of the newborn entered by parents; S2: generate barcodes: generate corresponding information based on the basic information of the newborn S3: Double-index method detection data entry: receive the double-index method detection data input by medical staff, enter the detection data into the server, and correlate with the barcode; S4: Data comparison: according to the double-index preset in the server Comparing the detection data with the method threshold to judge whether the newborn has congenital heart disease; - if suffering from congenital heart disease, execute S5; - if not suffering from congenital heart disease, the output is negative; S5: echocardiography detection Data entry: receive at least one echocardiographic report input by the medical staff, upload the echocardiographic report to the server, and correlate with the barcode; S6: Diagnosis information reception: receive the diagnostic conclusion input by the medical staff, upload the diagnostic conclusion to the server, And interrelated with the barcode; S7: Diagnosis information output: transmit the echocardiographic report and diagnosis conclusion to the output terminal.

In further detail, after step S7, there is also a step: S8: treatment information input: accept the medical record front page input by the medical staff, upload the medical record home page to the server, and correlate with the barcode. Personnel retrieve and check the front page of the medical record. The front page of the medical record is a comprehensive reflection of the information of the medical record. System analysis provides a basis for hospital management and decision-making, and medical staff can scan the barcode to view specific test data, which is convenient for doctors to diagnose, without the need for children's family members to carry a large number of paper medical records, and to prevent the need for re-examination due to loss of medical records Phenomenon.

In further detail, step S9 is also included after step S8: output of treatment information: transmit the first page of the medical record to the output terminal, so that the family members of the child can view the overall process of screening, diagnosis and treatment.

To further elaborate, in the above-mentioned step S5, when uploading the echocardiographic report, the echocardiographic report is converted into corresponding textual information of the echocardiographic report through OCR. Compared with directly uploading the echocardiographic report, the text information of the echocardiographic report is clearer for doctors to view , to avoid being returned by provincial hospitals due to blurred pictures and other reasons.

OCR (Optical Character Recognition, Optical Character Recognition) means that an electronic device (such as a scanner or a digital camera) checks characters printed on paper, determines its shape by detecting dark and bright patterns, and then uses character recognition to translate the shape into a computer The process of text; that is, for printed characters, the text in the paper document is converted into a black and white dot matrix image file optically, and the text in the image is converted into a text format through recognition software,

In further detail, in step S8, when the front page of the medical record is uploaded, the first page of the medical record is converted into the corresponding text information on the first page of the medical record through OCR. OCR supports automatic form entry technology, which can automatically identify printed or printed Chinese characters, letters, Numbers, which can recognize handwritten Chinese characters, handwritten letters, numbers and various handwritten symbols, and output them in table format. The efficiency of form entry is improved, which can save a lot of manpower.

In further detail, in the step S7, the transmission of the echocardiographic report and the diagnostic conclusion is realized through one or any combination of small programs, SMS, and WeChat, so that the family members of the child can choose a variety of ways to obtain the echocardiographic report And diagnostic conclusions can be viewed anytime, anywhere by turning on the electronic device.

In further detail, in order to facilitate the viewing of the information on the front page of the medical record, in the step S9, the transmission of the home page of the medical record is realized through one or any combination of applets, short messages, and WeChat.

The information transfer device for children with congenital heart disease includes: a device for newborn information input: receiving the basic information of the newborn entered by parents; a device for generating barcodes: generating a corresponding barcode according to the basic information of the newborn; The device for detecting data by the dual-indicator method: receives the detection data by the dual-indicator method input by the medical staff, enters the detection data into the server, and correlates with the barcode; the device for data comparison: according to the preset dual-indicator method in the server Threshold comparison detection data to determine whether the newborn has congenital heart disease; device for data entry of echocardiography: receive at least one echocardiographic report input by medical staff, upload the echocardiographic report to the server, and link it with the barcode Interrelated; device for receiving diagnostic information: receiving diagnostic conclusions input by medical staff, uploading diagnostic conclusions to the server, and correlating with barcodes; device for diagnostic information output: transmitting echocardiographic reports and diagnostic conclusions to the output end.

In further detail, it also includes a device for entering treatment information: receiving the first page of the medical record input by the medical staff, uploading the first page of the medical record to the server, and correlating with the barcode.

In further detail, it also includes a device for outputting treatment information: transmitting the first page of the medical record to the output terminal.

To elaborate further, in the above-mentioned device for data entry of echocardiography detection, when the echocardiography report is uploaded, OCR is used to convert the echocardiography report into corresponding text information of the echocardiography report.

To elaborate further, in the device for inputting treatment information, when the front page of the medical record is uploaded, OCR is used to convert the front page of the medical record into corresponding text information on the first page of the medical record.

In further detail, in the above-mentioned device for outputting diagnostic information, the transmission of the echocardiographic report and diagnostic conclusion is realized through one or any combination of applets, short messages, and WeChat.

In further detail, in the device for outputting treatment information, the transmission of the front page of the medical record is realized through one or any combination of small programs, short messages, and WeChat.

The information flow device for children with congenital heart disease includes: a display; an input device; one or more processors; a memory; and one or more programs, wherein the one or more programs are stored in the memory , and is configured to be executed by the one or more processors, the program includes the following steps: S1: newborn information entry: receiving the basic information of the newborn entered by the parents; S2: generating a barcode: according to the newborn The basic information generates the corresponding barcode; S3: Double-index method detection data entry: receive the double-index method detection data input by the medical staff, enter the detection data into the server, and correlate with the barcode; S4: Data comparison: according to the server internal preset Compare the detection data with the threshold value of the set dual index method to determine whether the newborn has congenital heart disease; - if suffering from congenital heart disease, execute S5; - if not suffering from congenital heart disease, then output negative; S5 : Cardiac ultrasonography data entry: receive at least one echocardiographic report input by medical staff, upload the echocardiographic report to the server, and correlate with the barcode; S6: Receive diagnostic information: receive the diagnostic conclusion input by medical staff, and upload the diagnostic conclusion Upload to the server and correlate with the barcode; S7: diagnostic information output: transmit the echocardiographic report and diagnostic conclusion to the output terminal.

In further detail, after step S7, there is also a step: S8: input of treatment information: receiving the first page of the medical record input by the medical staff, uploading the first page of the medical record to the server, and correlating with the barcode.

In further detail, step S9 is also included after step S8: treatment information output: transmitting the first page of the medical record to the output terminal.

To elaborate further, in the step S5, when the echocardiographic report is uploaded, the echocardiographic report is converted into corresponding text information of the echocardiographic report by OCR.

In further detail, in step S8, when the front page of the medical record is uploaded, the first page of the medical record is converted into corresponding text information on the first page of the medical record by OCR.

In further detail, in the step S7, the transmission of the echocardiographic report and diagnosis conclusion is realized through one or any combination of small programs, short messages, and WeChat.

In further detail, in the step S9, the transmission of the front page of the medical record is realized through one or any combination of applets, short messages, and WeChat.

The storage medium is stored with a display; an input device; and a computer program used in combination, and the computer program can be executed by a processor to complete the following steps: S1: newborn information entry: receiving the newborn basic information entered by parents; S2: Generate barcodes: Generate corresponding barcodes based on the basic information of newborns; S3: Double-index method detection data entry: Receive the double-index method detection data input by medical staff, enter the detection data into the server, and correlate with the barcode; S4: Data ratio Right: compare the detection data according to the threshold value of the double-index method preset in the server, and judge whether the newborn suffers from congenital heart disease; - if suffering from congenital heart disease, then execute S5; - if not suffering from congenital heart disease , the output is negative; S5: Echocardiography data entry: receive at least one Echocardiogram report input by the medical staff, upload the Echocardiogram report to the server, and correlate with the barcode; S6: Receive diagnostic information: receive the input of the medical staff Diagnosis conclusion, upload the diagnosis conclusion to the server and correlate with the barcode; S7: Diagnosis information output: transmit the echo report and diagnosis conclusion to the output terminal.

In the above-mentioned storage medium, after step S7, a step is further included: S8: inputting treatment information: accepting the first page of the medical record input by the medical personnel, uploading the first page of the medical record to the server, and correlating with the barcode.

In the above-mentioned storage medium, after step S8, a step is further included: S9: output of treatment information: transmitting the front page of the medical record to the output terminal.

In the above-mentioned storage medium, in step S5, when uploading the echocardiographic report, OCR is used to convert the echocardiographic report into corresponding textual information of the echocardiographic report.

In the above-mentioned storage medium, in step S8, when the front page of the medical record is uploaded, the first page of the medical record is converted into corresponding text information on the front page of the medical record by OCR.

In the above-mentioned storage medium, in the step S7, the transmission of the echocardiographic report and diagnosis conclusion is realized through one or any combination of applets, short messages, and WeChat.

In the above-mentioned storage medium, in the step S9, the transmission of the front page of the medical record is realized through one or any combination of applets, short messages, and WeChat.

An embodiment of applying this method:

The family members of the newborn fill in the relevant information and complete the registration of the basic information. The system automatically generates a matching and unique barcode. Scan the barcode to get all the data associated with the barcode, and then the medical staff will perform dual-index detection on the newborn. The dual-index method detection items include heart murmur auscultation and transcutaneous blood oxygen saturation measurement. The detected data is input by the medical staff to the server and correlated with the barcode. The server compares and judges the detected data through the preset dual-index method threshold. Whether the newborn has congenital heart disease, if the detection data meets the threshold, it is judged not to have congenital heart disease, the output is negative and the screening ends, if the detection data exceeds the threshold, it is judged to have congenital heart disease, output positive, then the medical staff will conduct an ultrasound examination on the baby with a positive dual-index screening, and the obtained echocardiographic report will be uploaded to the server by the medical staff and will be correlated with the barcode. Echocardiogram text information. At this time, the medical staff in the provincial hospital can check the patient’s Echocardiogram text information from the server, and at the same time check the previous test data by scanning the barcode, and then give the diagnosis conclusion and send it back to the server. The upload is over. Afterwards, the medical staff in the county-level hospital consulted the provincial hospital’s diagnostic conclusions for the child from the server and sent them to the family members of the patient together with the echocardiography report. Report; for some children with more serious illnesses, they need to be referred for treatment. After the children arrive at the upper-level hospital, they will be treated. The treatment process and results are filled in on the front page of the medical record, and then uploaded to the server by the medical staff through OCR recognition technology, and It is related to the barcode. After the first page of the medical record is successfully uploaded, it will be sent to the family members of the child through SMS, WeChat and a small program. All information associated with the barcode.

There are three generation solutions for the barcode bracelet: 1. The doctor’s mobile phone is connected to a Bluetooth printer to scan the code, and the doctor is responsible for printing; 2. The scanner head is connected to scan the code, and the doctor is responsible for printing; 3. The patient presents the barcode, and the computer is directly connected to the gun Header scanning and printing.

There are four solutions for uploading reports: 1. Uploading photos by holding mobile phones; 2. Uploading photos by placing mobile phones on a custom-made shelf;

The specific embodiments described herein are merely illustrative of the spirit of the invention. Those skilled in the art to which the present invention belongs can make various modifications or supplements to the described specific embodiments or adopt similar methods to replace them, but they will not deviate from the spirit of the present invention or go beyond the definition of the appended claims range.

Although a large number of terms are used in this article, the possibility of using other terms is not excluded. These terms are used only for the purpose of describing and explaining the essence of the present invention more conveniently; interpreting them as any kind of additional limitation is against the spirit of the present invention.

Claims (10)

1. An information transfer method for children with congenital heart disease, characterized in that it comprises the following steps: S1: Newborn information entry: receive the basic information of newborns entered by parents; S2: Generate a barcode: generate a corresponding barcode according to the basic information of the newborn; S3: Double-index method detection data entry: Receive the double-index method detection data input by medical staff, enter the detection data into the server, and correlate with the barcode; S4: Data comparison: compare the detection data according to the threshold value of the double-index method preset in the server, and judge whether the newborn suffers from congenital heart disease; - S5 if suffering from congenital heart disease; - Negative output if not suffering from congenital heart disease; S5: Cardiac ultrasound detection data entry: receive at least one cardiac ultrasound report input by medical staff, upload the cardiac ultrasound report to the server, and correlate with the barcode; S6: Diagnosis information reception: Receive the diagnosis conclusion input by the medical staff, upload the diagnosis conclusion to the server, and correlate with the barcode; S7: Diagnosis information output: transmit the echocardiographic report and diagnosis conclusion to the output terminal. 2. The information transfer method for children with congenital heart disease according to claim 1, further comprising the step of: S8: inputting treatment information: accepting the first page of the medical record input by the medical staff, and uploading the first page of the medical record to the server , and correlate with the barcode. 3. The information transfer method for children with congenital heart disease according to claim 2, further comprising the step of: S9: Output of treatment information: transmitting the first page of the medical record to the output terminal. 4. The information transfer method for children with congenital heart disease according to claim 1, characterized in that, in the step S5, when uploading the echocardiographic report, the echocardiographic report is converted into the corresponding echocardiographic report by OCR. Super report text information. 5. The information transfer method for children with congenital heart disease according to claim 2, characterized in that, in the step S8, when the first page of the medical record is uploaded, OCR is used to convert the first page of the medical record into the corresponding text on the first page of the medical record information. 6. The information transfer method for children with congenital heart disease according to claim 1, characterized in that, in the step S7, it is realized by one or any combination of small programs, short messages, and WeChat Transmission of echocardiographic reports and diagnostic conclusions. 7. The information transfer method for children with congenital heart disease according to claim 3, characterized in that, in the step S9, it is realized by one or any combination of small programs, short messages, and WeChat Transmission of the first page of the medical record. 8. An information transfer device for children with congenital heart disease, characterized in that it includes A device for newborn information entry: receive the basic information of newborns entered by parents; A device for generating a barcode: generate a corresponding barcode according to the basic information of the newborn; Device for double-index method detection data: receive the double-index method detection data input by medical staff, enter the detection data into the server, and correlate with the barcode; The device for data comparison: compare the detection data according to the threshold value of the double index method preset in the server, and judge whether the newborn suffers from congenital heart disease; A device for data entry of echocardiography: receiving at least one echocardiographic report input by medical staff, uploading the echocardiographic report to the server, and correlating with the barcode; Device for receiving diagnostic information: receive the diagnostic conclusion input by the medical staff, upload the diagnostic conclusion to the server, and correlate with the barcode; Device for diagnostic information output: transmit the echocardiographic report and diagnostic conclusion to the output terminal. 9. An information transfer device for children with congenital heart disease, characterized in that it includes: a display; an input device; one or more processors; a memory; and one or more programs, wherein the one or more programs Stored in the memory, and configured to be executed by the one or more processors, the program includes a method for performing a child with congenital heart disease according to any one of claims 1-7. method of information flow. 10. A storage medium, stored with a display; an input device; a computer program used in combination, characterized in that, the computer program can be executed by a processor to complete one of the methods described in any one of claims 1-7 Information transfer methods for children with congenital heart disease.