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Device and method for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation

A biophotonic, quantitative measurement technology, applied in applications, medical science, diagnostic recording/measurement, etc., to achieve the effect of great application potential

Inactive Publication Date: 2011-05-11
SHANDONG MEDICAL BIO TECH RES CENT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the prior art, there is no device or method for quantitatively characterizing the "syndrome" of traditional Chinese medicine by using the difference in biophoton characteristics (such as spectrum, attenuation, and intensity) of acupoints corresponding to different organs under different physiological or pathological conditions

Method used

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  • Device and method for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation
  • Device and method for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation
  • Device and method for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation

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Embodiment 1

[0027] Embodiment 1 A device for quantitatively measuring TCM "syndrome" using human biophoton radiation, including a darkroom 109, a detector 103, a processor 108, a power supply, a transmitter and a preamplifier 110, such as figure 1 As shown, wherein, the detector 103 is located in the darkroom 109, the processor 108 is connected with the preamplifier 110 circuit, the detector 103 is used to measure the biophotons from the acupoints, and the processor 108 records the amplified by the preamplifier 110 emitted from the acupoints The biophoton intensity value of the biophoton, and the measured value is processed; the power supply is connected with the detector 103 circuit, and supplies power to the detector 103; the transmitter is connected with the detector 103, and is used to operate the movement of the detector 103; The detector 103 is connected with a circuit for converting the biophotons detected by the detector 103 into electrical signals and amplifying the signals.

[0...

Embodiment 2

[0037] Embodiment 2 Utilizes biophoton radiation to quantitatively measure the method of traditional Chinese medicine " syndrome "

[0038] To measure the photon radiation of finger acupoints of a patient with acute bronchitis during and after the illness, the steps are as follows:

[0039] Use the "Standard Acupuncture Point Names" approved by the World Health Organization Headquarters Acupuncture Point Names International Standardization Scientific Group Meeting to determine the acupoint points to be tested, and mark the acupoint points. Then enter the measurement darkroom 109, and lie on the bed 106 in the darkroom in a naturally relaxed state. During the dark adaptation period of the person, turn on the detector 103 and the refrigerator 104, wait for the person to calm down in the measurement dark room for about 10 minutes, the operator controls the transfer arm 102 to place the detector 103 close to the predetermined acupoint to be measured, and The shutter 105 connected...

Embodiment 3

[0043] Embodiment 3 is measured to the people of different age groups

[0044] Such as Figure 4 As shown, the photon radiation intensity of finger acupoints of a total of 361 normal people in the 9-10, 11-14, 20-30, 31-40, 41-50, 51-60, 61-75 age groups was measured. curve, which obeys the function

[0045] I ( t ) = A 1 + ( A B - 1 ) exp ( - Ct )

[0046]Where A = I (∞) is the saturation intensity; B = I (0) is the initial intensity; C is a characteristic growth rate. The above functional formula is the most basic "growth curve" in biology. Many physiological phenomena such as the increase in body weight, height, and grow...

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Abstract

The invention discloses a device for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation, which comprises a darkroom, a detector, a front amplifier and a processor. The detector is positioned inside the darkroom, the front amplifier is electrically connected with the detector, the processor is electrically connected with the front amplifier, the detector is used for measuring bio-photons from an acupoint, the front amplifier is used for converting and amplifying the bio-photon signals received by the detector, and the processor is used for recording the intensity of the bio-photons emitted from the acupoint and processing the measurement value. The invention also discloses a method for quantitative measurement of symptom in traditional Chinese medicine by use of human bio-photon radiation, which comprises the following steps: a person enters the darkroom, the detector moves to the position close to a to-be-tested acupoint, a shutter on the detector is opened to measure the bio-photons from the to-be-tested acupoint, and then the processor records the intensity of the bio-photons emitted from the acupoint and processes the measurement value. The invention is rapid, sensitive, reliable, and harmless to human body.

Description

technical field [0001] The invention relates to a device and method for quantitatively measuring "syndrome" of traditional Chinese medicine by using human body biophoton radiation. Background technique [0002] As we all know, all living systems radiate photons every moment. The research on biophotons can be traced back to the onion root tip experiment conducted by Soviet scientists in 1923. They first observed the root energy of onion with the help of biophones. emits faint ultraviolet rays, and claims that the light is involved in stimulating cell division. Although the results of this experiment were further confirmed by other scientists in the following years, due to the lack of suitable photon measurement devices and the rapid development of the field of biochemistry, the results of this experiment were ignored for a long time. After the 1970s, with the emergence of lasers and the in-depth study of life sciences, scientists such as Popp determined the name "ultra-weak ...

Claims

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Application Information

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IPC IPC(8): A61B5/00
Inventor 韩金祥黄金昭崔亚洲杨美娜庞靖祥
Owner SHANDONG MEDICAL BIO TECH RES CENT
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