Synchronous processing and collaborative analysis method for biological tissue microcirculation function parameter data

Abstract

The invention provides a synchronous processing and collaborative analysis method for biological tissue microcirculation function parameter data. The method comprises the following steps of: synchronously capturing multiple parameters of a biological tissue microcirculation function, cleaning biological tissue microcirculation function data, and synchronously and collaboratively analyzing the biological tissue microcirculation function data, wherein the synchronous collaborative analysis of the biological tissue microcirculation function data also comprises the following steps of: performing collaborative analysis of the biological tissue microcirculation function by utilizing a chordal diagram of the biological tissue microcirculation function, and performing parameter distribution and weight correlation analysis of the biological tissue microcirculation function by utilizing a uniaxial bubble diagram of the biological tissue microcirculation function. By means of the method disclosed by the invention, synchronous collaborative analysis of microcirculation blood flow-microcirculation oxygen is achieved; the content of microcirculation oxygen in microcirculation blood flow of a cross section at a certain specific time is accurately reflected; and overall functional characteristics of biological tissue microcirculation are accurately, objectively and comprehensively analyzed and described.

Description

Technical field [0001] The present invention belongs to the technical field of data analysis, and more particularly to a sync synergy analysis method of biological tissue microcirculation parameter data. Background technique [0002] Biological tissue microvascular blood flow through the microcirculation mainly responsible for the transport and exchange of oxygen and nutrients, has a key role in maintaining normal physiological function and biological tissue homeostasis in. Biological tissue microcirculation, microcirculation microcirculation oxygen carrier, the function parameters include blood flow data and microcirculation micro oxygen data. Conventional acquisition parameters microcirculation microcirculation by a commercial testing instrument, respectively, to capture the biological tissue microcirculation microcirculation oxygen data or data then were analyzed for micro microcirculation blood flow data and data of oxygen (e.g. figure 1 Indicated. Such process parameters of ...

AI Technical Summary

Problems solved by technology

[0003] ①Because the existing technology analyzes the captured data in an asynchronous and non-cooperative way, the existing technology cannot present the corresponding relationship between biological tissue microcirculation blood flow and microcirculation oxygen at a certain cross-sectional time node

[0004] ②Affected by the firmware properties of optical instruments, most of the microcirculation data of biological tissues captured by lasers have outliers. The existing technology does not have a data cleaning process including outlier processing and boundary value adjustment. The above objective shortcomings will further affect the overall microcirculation of biological tissues. Scientificity and Accuracy of Circulation Functional Characterization

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