Cavity physiological data analysis method and system

Abstract

The invention relates to a cavity physiological data analysis method and system. The invention discloses a digestive tract physiological data analysis method and system, a physiological data interruptanalysis method and system, a physiological data special point searching method and system, and a physiological data integration analysis method and system. The digestive tract physiological data analysis method comprises the following steps of acquiring one or more types of to-be-analyzed digestive tract physiological data, and displaying the digestive tract physiological data as a curve chart and / or a chromatogram; obtaining a physiological anatomical position and / or a detection channel sensor position of the digestive tract; executing all or part of integration processing, interrupt analysis processing, special point searching processing and basic parameter calculation processing on the digestive tract physiological data to obtain a processing result; and labeling and displaying the processing result. The digestive tract physiological data are analyzed, and the processing result is labeled and displayed, so that an observer does not need to perform manual calculation, the operationis simple and clear, the observer can conveniently perform analysis and judgment, the data reading burden of the observer is greatly reduced, the workload is reduced and the time is shortened.

Description

technical field [0001] The present invention relates to the field of data processing, in particular to a method and system for cavity physiological data analysis, in particular to a method and system for analyzing physiological data of the digestive tract, a method and system for interrupting analysis of physiological data, a method and system for searching for special points in physiological data, Physiological data integral analysis method and system. Background technique [0002] At present, the inspection of the human body cavity often takes a long period of time and the amount of data is huge. For example, the inspection of the upper gastrointestinal tract and intestinal tract requires the operator to manually analyze the collected physiological data, which is time-consuming and difficult. [0003] Taking esophageal examination as an example, the measurement of esophageal physiological data can provide detection data for esophageal swallowing power, esophageal motility ...

AI Technical Summary

Problems solved by technology

[0002] At present, the examination of the human body cavity often needs to last for a long period of time and the amount of data is huge. For example, for the examination of the upper gastrointestinal tract and intestinal tract, the operator needs to manually analyze the collected physiological data, which is time-consuming and difficult.

[0003] Taking esophageal examination as an example, the measurement of esophageal physiological data can provide detection data for esophageal swallowing power, esophageal motility function and gastroesophageal reflux. The current measurement methods usually use pressure sensors, impedance sensors or pH sensors to measure, because Physiological data often need to last for a long period of time and correspond to the high-frequency collection of dozens of channels. The amount of data is huge. The operator needs to manually analyze the collected physiological data, which is time-consuming and difficult. Finding fast and accurate Data analysis method is a technical problem that needs to be solved urgently

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