Breast cancer susceptibility gene screening method

A susceptibility gene, breast cancer technology, applied in the field of breast cancer screening, can solve problems such as inability to collect patient data, and achieve the effect of convenient reference

Inactive Publication Date: 2021-07-02
NANYANG SECOND GENERAL HOSPITAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to solve the shortcomings in the prior art that only breast cancer susceptibility genes can be screened, and the screened patient data cannot be collected and classified, and a breast cancer susceptibility gene screening is proposed. method

Method used

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  • Breast cancer susceptibility gene screening method

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] refer to figure 1 , a breast cancer susceptibility gene screening method, comprising the following steps:

[0029] S1. Draw 5 ml of venous blood, extract genomic DNA, and pass bioinformatics testing;

[0030] S2. If the test is negative, it means that you are a low-risk group of breast cancer. If it is positive, it shows that the risk of breast cancer is high;

[0031] S3, printing the test report, and extracting keywords from the test report;

[0032] S4. If negative words are extracted, the extracted keywords are automatically eliminated;

[0033] S5. If a positive word is extracted, the patient information in the test report is extracted;

[0034] S6. Collect and classify the extracted information;

[0035] S7. Building a reference model according to the collected and classified information;

[0036] S8. Regularly revise the reference model according to the latest information.

[0037] In this embodiment, in S3, the detection report is printed, keywords are ext...

Embodiment 2

[0045] refer to figure 1 , a breast cancer susceptibility gene screening method, comprising the following steps:

[0046] S1. Draw 5 ml of venous blood, extract genomic DNA, and pass bioinformatics testing;

[0047] S2. If the test is negative, it means that you are a low-risk group of breast cancer. If it is positive, it shows that the risk of breast cancer is high;

[0048] S3, printing the test report, and extracting keywords from the test report;

[0049] S4. If negative words are extracted, the extracted keywords are automatically eliminated;

[0050] S5. If a positive word is extracted, the patient information in the test report is extracted;

[0051] S6. Collect and classify the extracted information;

[0052] S7. Building a reference model according to the collected and classified information;

[0053] S8. Regularly revise the reference model according to the latest information.

[0054] In this embodiment, in S3, the detection report is printed, keywords are ext...

Embodiment 3

[0062] refer to figure 1 , a breast cancer susceptibility gene screening method, comprising the following steps:

[0063] S1. Draw 5 ml of venous blood, extract genomic DNA, and pass bioinformatics testing;

[0064]S2. If the test is negative, it means that you are a low-risk group of breast cancer. If it is positive, it shows that the risk of breast cancer is high;

[0065] S3, printing the test report, and extracting keywords from the test report;

[0066] S4. If negative words are extracted, the extracted keywords are automatically eliminated;

[0067] S5. If a positive word is extracted, the patient information in the test report is extracted;

[0068] S6. Collect and classify the extracted information;

[0069] S7. Building a reference model according to the collected and classified information;

[0070] S8. Regularly revise the reference model according to the latest information.

[0071] In this embodiment, in S3, the detection report is printed, keywords are extr...

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Abstract

The invention belongs to the field of breast cancer screening, and particularly relates to a breast cancer susceptibility gene screening method. Aiming at the problems that only breast cancer susceptibility gene screening can be carried out and screened patient data cannot be collected and classified in the prior art, the invention provides the following scheme that the method comprises the following steps: S1, extracting 5ml of venous blood, extracting genome DNA, and carrying out bioinformatics detection; S2, if the detection is negative, determining that the group is a breast cancer low-risk group, and if the detection is positive, determining that the breast cancer risk is very high; S3, printing a detection report, and performing keyword extraction on the detection report; S4, if negative words are extracted, automatically rejecting the extracted keywords; S5, if the positive characters are extracted, extracting the patient information of the detection report; S6, collecting and classifying the extracted information. The information can be collected and classified, a patient can conveniently refer to the information, and preliminary self-examination is completed.

Description

technical field [0001] The invention relates to the technical field of breast cancer screening, in particular to a breast cancer susceptibility gene screening method. Background technique [0002] Breast cancer is a phenomenon in which mammary epithelial cells proliferate out of control under the action of various carcinogenic factors. In the early stage of the disease, symptoms such as breast lumps, nipple discharge, and enlarged axillary lymph nodes are often present. In the late stage, cancer cells may metastasize far away, resulting in multi-organ lesions, which directly threaten the patient's life. Breast cancer is often called the "pink killer", and its incidence rate ranks first among female malignant tumors, while male breast cancer is relatively rare. With the improvement of medical level, breast cancer has become one of the solid tumors with the best curative effect. Breast cancer screening is to screen asymptomatic women through effective, simple and economical b...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G16H15/00G16H50/20G16B20/00G16B30/00
CPCG16H15/00G16H50/20G16B20/00G16B30/00
Inventor 王聪刚培张娜贤
Owner NANYANG SECOND GENERAL HOSPITAL
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