Muscle tenderness pain quantitative testing system and method based on data fusion technology

A technology of data fusion and testing system, which is applied in the direction of measuring force, measuring device, medical automatic diagnosis, etc., can solve the problems of inability to realize quantitative measurement of muscle tenderness, low degree of automation, muscle group error, etc., to achieve automatic data collection and Analysis, reduction of mutual influence, and good stability

Inactive Publication Date: 2020-03-31
上海市中医文献馆
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] But there are still the following deficiencies: the spring pain meter uses the elastic coefficient and displacement to quantify, but its accuracy is poor and spring calibration is often required. In addition, the spring flow meter uses the pressure point as the test point. Once the tester moves a little It will drive the muscle groups and cause huge errors; at the same time, the method is still relatively complicated to operate, the structure is also relatively complicated, the degree of automation is not high, and it is impossible to achieve efficient quantitative measurement of muscle tenderness in use.

Method used

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  • Muscle tenderness pain quantitative testing system and method based on data fusion technology
  • Muscle tenderness pain quantitative testing system and method based on data fusion technology
  • Muscle tenderness pain quantitative testing system and method based on data fusion technology

Examples

Experimental program
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Effect test

Embodiment 1

[0053] see figure 1 and figure 2 , the application provides a muscle tenderness quantification test system based on data fusion technology, including:

[0054] A thin film patch assembly 1 for detecting muscle resistance stress. The thin film patch assembly 1 includes a fixed patch 11, one or more thin film pressure sensors 12 arranged on the fixed patch 11, and the center of the fixed patch 11 is provided with a press The window 13, the film pressure sensor 12 is arranged on the peripheral side of the pressing window 13;

[0055] A collection and control device 2 for converting and compensating the anti-stress signal detected by the membrane pressure sensor 12, the collection and control device 2 is electrically connected to the membrane patch assembly 1;

[0056] A computer 3 for analyzing and storing the tenderness stress value output by the collection and control device 2 , the computer 3 is wired or wirelessly connected with the collection and control device 2 .

[0057...

Embodiment 2

[0075] see Figure 4 , the application provides a method for quantifying muscle tenderness testing based on data fusion technology applied in Example 1, comprising the following steps:

[0076] S1: Attach the film patch component to the muscle tenderness test point on the muscle surface;

[0077] S2: Press the muscle tenderness test point, the film patch component detects the resistance stress when the muscle is pressed, and obtains the resistance stress signal;

[0078]S3: convert the anti-stress signal into a voltage signal and compensate the voltage signal to obtain the tenderness stress value;

[0079] S4: Analyze and store the tenderness stress value, and obtain the muscle tenderness test result.

[0080] The present embodiment is described in detail now:

[0081] Step S1: In this embodiment, the film patch assembly is attached to the muscle tenderness test point on the muscle surface, wherein the pressing window of the film patch assembly corresponds to the pressing p...

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Abstract

The invention discloses muscle tenderness pain quantitative testing system and method based on a data fusion technology. The muscle tenderness pain quantitative testing system based on the data fusiontechnology comprises the following components: a film patch assembly used for detecting muscle resistance stress, an acquisition and control device used for converting and compensating resistance stress signals detected by the film patch assembly, and a computer used for analyzing and storing tenderness stress values outputted by the acquisition and control device; the film patch assembly comprises a fixing patch, as well as one or more membrane pressure sensors which are arranged on the fixing patch; a pressing window is formed at the center of the fixing patch; the membrane pressure sensorsare arranged on periphery of the pressing window; the acquisition and control device is electrically connected with the film patch assembly; and the computer is in wired connection or wireless connection with the acquisition and control device. The muscle tenderness pain quantitative testing system based on the data fusion technology has the technical features of being high in test accuracy and degree of automation, small in subjective interference, convenient and efficient to use, and humanized.

Description

technical field [0001] The invention belongs to the technical field of surgical medical devices, and in particular relates to a muscle tenderness quantitative testing system and method based on data fusion technology. Background technique [0002] Pain is often the most intuitive physiological expression of patients, but only relying on the internationally accepted pain psychological scale for evaluation, the accuracy is poor and the subjective interference is large. At present, methods such as the spring test method are mostly used in the field of pain quantification in China, and certain progress has been made in terms of convenience and accuracy. [0003] But there are still the following deficiencies: the spring pain meter uses the elastic coefficient and displacement to quantify, but its accuracy is poor and spring calibration is often required. In addition, the spring flow meter uses the pressure point as the test point. Once the tester moves a little It will drive th...

Claims

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Application Information

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IPC IPC(8): A61B5/00G01L1/22G16H50/20
CPCA61B5/0053A61B5/4827G01L1/2281G16H50/20
Inventor石云安子良贾杨
Owner上海市中医文献馆