Precise medical system for continuously monitoring heart and blood vessels and data processing method

A technology of precision medicine and data processing, applied in medical science, diagnostic recording/measurement, diagnosis, etc., can solve the problem of not realizing the maximum utilization of cardiovascular detection data, the ineffective adaptation of cardiovascular detection equipment, and the way of data processing Issues such as undisclosed, to achieve the effect of overcoming individual differences, convenient operation, and high integration

Active Publication Date: 2018-11-13
深圳市生码医疗科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] With the promotion and application of precision medical technology, traditional cardiovascular testing equipment cannot effectively adapt to this technology, cannot monitor and warn patients of bad habits in life, and has not realized the maximum utilization of cardiovascular testing data
[0005] In the existing technology, there are also solutions for combining detection data with big data to try to realize precision medicine, such as the smart terminal-based big data health care and precision medicine system and method with the patent number 201610127000.7, which uses general diagnosis computer devices and hospital servers Connecting with smart terminals and health care servers using the Internet, only the data collection and transmission methods are disclosed, but the data processing methods are not disclosed, and there are many types of collected data, and the conclusions drawn are of low accuracy. Guidance Application significance is weak

Method used

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  • Precise medical system for continuously monitoring heart and blood vessels and data processing method
  • Precise medical system for continuously monitoring heart and blood vessels and data processing method
  • Precise medical system for continuously monitoring heart and blood vessels and data processing method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] Embodiment one: if figure 1As shown, a precision medical system for continuous monitoring of cardiovascular system includes a signal processing module. The data acquisition end of the signal processing module is connected to the signal acquisition unit. The pulse is used for vibration signal collection; the first communication terminal is connected to the smart terminal via a local communication module, wherein the local communication module is a communication module such as a Bluetooth module and Zigbee, and the smart terminal uses a smart phone, a tablet computer or a wearable device for data collection and sharing. The smart terminal completes two functions. On the one hand, it obtains personal physiological state data, such as sleep status and time, exercise volume, range of activities, age, gender, etc., and on the other hand, it obtains personal gene bank information. If the personal gene bank information is directly Stored in the smart terminal, or through the re...

Embodiment 2

[0035] Embodiment two: if figure 2 As shown, in the case that other structures are the same as those in Embodiment 1, the second communication terminal of the signal processing module is also connected to a remote communication module, and the remote communication module is connected to the gene detection database and the cloud server through the network. Among them, the second communication terminal adopts mobile communication modules, such as 3G and 4G communication modules, and the signal processing module amplifies the processing tasks and big data storage tasks in the cloud, which expands the data storage capacity of the local system and reduces the hardware requirements and costs of the local system. It is cheaper, the structure is simpler, and it is also convenient for centralized management of a single decentralized local system, with more powerful functions and better user experience.

Embodiment 3

[0036] Embodiment three: as image 3 As shown, a precision medical data processing method for continuous monitoring of cardiovascular,

[0037] The specific steps are:

[0038] Step 1: Obtain uninterrupted cardiovascular vibration signals and personal physiological state data, wherein the personal physiological state data are sleep state and time, telekinesis, weight and other data;

[0039] Step 2: Select 1-5 minutes of cardiovascular vibration signals and personal physiological state data;

[0040] Step 3: Convert the cardiovascular vibration signal into cardiovascular clinical application parameters, such as 35 cardiovascular detection parameters, pulse rate, stroke volume per stroke, cardiac output per minute, cardiac index, cardiac index, left heart effective pump Force, left heart energy effective utilization rate, external counterpulsation volume, average systolic blood pressure, average diastolic blood pressure, etc., and generate a personal database with personal ph...

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Abstract

Disclosed is a precise medical system for continuously monitoring the heart and blood vessels. The precise medical system comprises a signal processing module, and a data collection end of the signalprocessing module is connected with a signal collection unit to obtain pulse data; a first communication end is connected with an intelligent terminal through a local communication module, a storage end is connected with a storage module, an alarm end is connected with an alarm module, and a display end is connected with a display module. The precise medical system is simple in structure and convenient to carry and achieves continuous detection. According to a data processing method of the system, cardiovascular detection data and personal genetic data are combined, the monitoring time and density are automatically adjusted, living habits of a user are guided, and health-care suggestions benefiting the heart and blood vessels are given.

Description

technical field [0001] The invention relates to the fields of medical equipment and information technology, in particular to a precision medical system and data processing method for continuous monitoring of cardiovascular. Background technique [0002] Cardiovascular data collection and monitoring have important health care significance for patients with diseases such as hypertension, hyperlipidemia, arteriosclerosis, coronary heart disease, and microcirculation disorders. However, the existing automatic cardiovascular detection instruments are expensive, bulky, and inconvenient to carry Realize continuous monitoring. Ordinary people can only go to the hospital for testing at a certain point in time, resulting in unreliable raw data collected by the hospital and inaccurate diagnosis. For example, a mobile cardiovascular detector disclosed in Patent No. 201520493466.X is composed of a pulse sensor, a folding chair, a folding table leg, a host computer, a computer table, etc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/0205
CPCA61B5/0205A61B5/7289Y02A90/10
Inventor 杨海涛张国光刘承宜黄庆升
Owner 深圳市生码医疗科技有限公司
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