KR102337813B1 - Method for classification between pathologic condition and physiological condition using current measurement from the spine acupuncture point - Google Patents

Abstract

The present invention discloses a method for classifying a physiological state and a pathological state from a current value measured from draining blood. In the method, a reference voltage is applied between the first and second electrodes in contact with the subject's skin, and any one of the 12 drainage bloods present on the subject's back and the first and second electrodes in contact with the reference site of the subject, respectively A power supply step of applying a reference voltage between the two electrodes, a measurement step of measuring a current flowing between the first and second electrodes, and a measurement step of measuring the current flowing between the first and second electrodes and a classification step of classifying the subject into physiological and pathological states based on the relative ratios of different current values.
According to the present invention, the physiological state (normal state) and pathological state (abnormal) of the subject based on the relative ratio of the current values measured from 12 drainage bloods present on the subject's back or all 24 drainage bloods present in the left and right positions state), a method for easily capturing the overall health state of a subject according to a relative ratio of current values, which is relatively easy to measure, is provided.

Description

Method for classification between pathologic condition and physiological condition using current measurement from the spine acupuncture point

The present invention relates to a method for classifying a physiological state and a pathological state from a current value measured from drainage blood.

According to the role of the human body in oriental medicine, it is divided into three main parts. More specifically, the upper vertebrae are from the throat to the heart of the stomach in the abdomen, the thoracic vertebrae 3 to 5 in the back, and the lungs, heart, and pericardium belong. From No. to No. 12, the liver, biliary tract, rain, and stomach are included, and the lower part is from the navel to the lower abdomen in the abdomen, from the waist to the tailbone on the back, and from the lumbar vertebrae 1 to the sphenoid vertebrae are included. , to which the bladder belongs.
Samcho, which encompasses the five organs and parts, functions to digest, absorb, and excrete grains and food, and through it, make blood, send it to the whole body, and control it. Since it is completed through the vaporization of the upper, middle, and lower chords, the three chos are comprehensively responsible for the vaporization of the human body.
The upper part is called upper part, the middle part is middle part, and the lower part is called lower part, so each part has different roles. The three parts have a special relationship and organically act for health inside and outside the human body, up and down, left and right.

According to an embodiment of the present invention, a method of classifying a physiological state and a pathological state from a current value measured from drainage blood is measured from 12 drainage blood on the back of a subject or a total of 24 drainage blood present in left and right positions. Based on the relative ratio of current values, by classifying the subject's physiological state (normal state) and pathological state (abnormal state), the overall health status of the subject is facilitated according to the relative ratio of current values that are relatively easy to measure Including ways to catch it.

In order to solve the above and other problems, a method of classifying a physiological state and a pathological state from the current value measured from draining blood,
A reference voltage is applied between the first and second electrodes in contact with the subject's skin, and between the first and second electrodes in contact with the reference site of the subject and any one of the 12 drains on the subject's back. a power supply step of applying a reference voltage;
a measuring step of measuring a current value flowing between the first and second electrodes; and
and a classification step of classifying a physiological state and a pathological state of the subject based on the relative ratios of different current values measured in different drainage bloods among the 12 drainage bloods present on the subject's back.
For example, the power supply step and the measurement step are sequentially performed for each of the 12 drainage bloods present on the subject's back,
In the classification step, the 12 drainage bloods are grouped into at least two different groups, and the physiological state and the pathological state of the subject are classified according to the relative ratio of the current values between the different groups from the current values measured from the 12 drainage bloods. can do.
For example, in the classification step, the relative ratio of the current values between different groups calculated from the current values measured from the 12 grouped drainage bloods, and the threshold value corresponding to the boundary that distinguishes the physiological state from the pathological state. The condition of the subject can be classified through comparison.
For example, the threshold value corresponding to the boundary that distinguishes the physiological state from the pathological state has a lower limit threshold value and an upper limit threshold value,
The relative ratio of the current values is,
If it is between the lower threshold and the upper threshold, it is classified as a physiological state,
If it deviates between the lower threshold and the upper threshold, it can be classified as a pathological condition.
For example, the lower limit threshold value and the upper limit threshold value may be set to 0.8 and 1.2, respectively.
For example, in the classification step, the ratio of upper, middle and lower measurement values measured in the upper back, drain in the middle, and lower back, corresponding to the boundary dividing the physiological state and the pathological state The condition of the subject can be classified through the comparison of the threshold values.
For example, the ratio of the upper, middle and lower measurements may include a ratio between two arbitrarily selected measurements from among the measurement of upper drainage, the measurement of central drainage, and the measurement of inferior drainage.
For example, the measured value of the upper drain, the measured value of the central drain, and the measured value of the lower drain may correspond to the average value of the current values measured in at least two or more drains existing in the upper back, the middle back, and the lower back, respectively.
For example, the ratio of the upper, middle and lower measurements may include a ratio of each upper drain blood measurement to a common upper middle and lower average value, a ratio of each central drain blood measurement to a common upper middle and lower average value, and each to a common upper middle and lower average value. may include the ratio of measurements of lower drainage of
For example, the upper, middle and lower average value may correspond to an average value of current values measured in 12 drains including upper drain, middle drain, and lower drain.
For example, in the classification step, if any one of the ratios of the upper, middle and lower measured values deviates from the threshold value, the condition of the subject may be classified as a pathological condition.
For example, the power supply step and the measurement step are sequentially performed for each of the 24 draining blood including 12 draining blood present in the left and right positions on the subject's back, respectively,
In the classification step, the ratio between the 12 drains present in the left position and the 12 drains in the right position is calculated, and the ratio of the calculated left and right measured values corresponds to the boundary separating the physiological state from the pathological state. The condition of the subject can be classified through the comparison of the threshold values.
For example, in the reference portion of the subject to which the second electrode is in contact, a common potential is applied to form a reference voltage with respect to the first electrode in measuring the current value flowing through each of the 12 draining blood present on the subject's back. It may correspond to a common location.
For example, the reference site of the subject to which the second electrode is in contact may be set to a site other than the 12 drainage sites.
For example, in the measuring step, when the value of the current flowing between the first and second electrodes is measured to be higher than the preset limit current value, the application of the reference voltage between the first and second electrodes may be blocked.
For example, in the power supply step, a reference voltage of 12V is applied between the first and second electrodes,
In the measuring step, when a current value higher than 200 μA is measured as the limit current value, the application of the reference voltage between the first and second electrodes may be blocked.
For example, in the step of blocking the application of the reference power, the connection between the constant voltage source applying the reference voltage and the switch element interposed between the first electrode and/or the second electrode may be cut off.

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According to the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, it is measured from 12 drain blood on the back of a subject or a total of 24 drain blood on the left and right positions. By classifying the physiological state (normal state) and pathological state (abnormal state) of the subject based on the relative ratio of the current values, the overall health status of the subject is determined according to the relative ratio of the current values that are relatively easy to measure. It can provide an easy way to catch it.

1 is a flow chart showing a series of steps performed in a method of classifying into a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention. .
FIG. 2 is a diagram for explaining a method of classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention.
FIG. 3 is a diagram schematically showing the positions of 12 drains on the back or all 24 drains on the left and right positions.
4 to 8, in the method of classifying the current value measured from draining blood into a physiological state and a pathological state according to an embodiment of the present invention, 1) the ratio of the upper, middle and lower values, 2) the ratio of the left and right measured values, respectively , 3) ratio of limb measurements, 4) ratio of yin and yang measurements, and 5) ratio of common measurements, the ratio of each measurement, and normal/abnormal state of the subject. / A diagram for explaining the setting of a threshold value for classifying an abnormal state is shown.
9A to 9E are diagrams showing some of the clinical data shown in FIGS. 4 to 8 , and are diagrams showing clinical data of a subject classified into a physiological state.
10A to 10G are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose upper part is classified as a pathological condition.
11A to 11N are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose middle part is classified as a pathological state.
12A to 12I are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose lower part is classified as a pathological condition.

Hereinafter, with reference to the accompanying drawings, a method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to a preferred embodiment of the present invention will be described.
1 is a flowchart illustrating a series of steps performed in a method of classifying into a physiological state and a pathological state from a current value measured from draining blood, according to an embodiment of the present invention. . FIG. 2 is a diagram for explaining a method for classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention. FIG. 3 is a diagram schematically showing the positions of 12 drains on the back or all 24 drains on the left and right positions.
1 to 3 , the method of classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention includes first and second methods in contact with the skin of a subject. A reference voltage is applied between the electrodes E1 and E2, but between the first and second electrodes E1 and E2 respectively in contact with any one of the 12 drain blood existing on the subject's back and the reference site of the subject. A power supply step (P10) of applying a voltage, a measurement step (P20) of measuring a current value flowing between the first and second electrodes (E1, E2), and a measurement step (P20) of 12 drains present on the back of the subject and a classification step (P30) of classifying the subject into physiological and pathological states based on the relative ratios of different current values measured in different drainage blood.
In the method for classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, the first and second electrodes E1 and E2 include 12 Any one of the drainage blood may be in contact with the reference site of the subject, respectively. For example, in the method for classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, a current flowing between each of 12 draining blood and a reference site is measured, in this case, The reference portion of the subject to which the second electrode E2 is in contact is applied with a common potential so as to form a reference voltage with respect to the first electrode E1 in measuring the current values flowing through 12 drains existing on the subject's back. It may correspond to a common location. In one embodiment of the present invention, the reference site of the subject to which the second electrode E2 is in contact may be set to other sites, such as the subject's hand or excluding 12 drainage blood vessels.
In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a pair of first and second electrodes E1 and E2 in direct contact with the subject's skin is used. and detecting a current value by a two-electrode method of measuring a current value generated between the first and second electrodes E1 and E2 by a voltage applied between the first and second electrodes E1 and E2, Based on the detected current value, it is possible to classify the subject into a physiological state (normal state) and a pathological state (abnormal state). The first and second electrodes E1 and E2 may be formed to have various shapes, such as a rod shape, a circle shape, a semicircle shape, and the like, and the first and second electrodes E1 and E2 may have the same shape as each other or It may be formed to have different shapes depending on the contact portion. As will be described later, the first electrode E1 may be formed in a circular pad shape so as to be in contact with each of the 12 draining blood present on the subject's back, and the second electrode E2 may be in contact with a reference site of the subject. In one embodiment of the present invention, the second electrode E2 may be formed in a circular pad shape similar to that of the first electrode E1 so as to be in contact with other parts of the body except for 12 drains. , In another embodiment of the present invention, the second electrode (E2) may be formed in a rod shape different from that of the first electrode (E1) so that it can be gripped by the hand of the examinee. The first and second electrodes E1 and E2 may be fixed to a part of the subject's body using an adhesive member (not shown) such as a tape or may be held by the subject's hand. Although not shown in the drawings, the first and second electrodes E1 and E2 may include an insulating sheet, a conductive sheet, and an adhesive sheet, respectively.
In the method for classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the first electrode E1 is connected to any one of the 12 drain blood on the back of the subject. may be in contact, and the second electrode E2 may be in contact with a reference site in the body of the subject, and in one embodiment of the present invention, the second electrode E2 may be in contact with another site (reference site) except for drainage blood. ) can be contacted. Also, in another embodiment of the present invention, the second electrode E2 may be in contact with the hand (corresponding to the reference region) of the subject.
In the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the value of the current flowing through 12 drain blood existing in the back can be measured, for this purpose, The value of the current flowing between each of the 12 drainage blood and the reference site can be compared. In one embodiment of the present invention, as the reference site, the value of the current flowing through each of the 12 drains and the hand of the subject is compared large and small, or as the reference site, each of the 12 drains and other sites except for the 12 drains You can compare the values of the flowing currents.
In one embodiment of the present invention, the first and second electrodes E1 and E2 are brought into contact with any one of the 12 drains present on the subject's back and a reference site on the back, respectively, and the first and second electrodes are brought into contact with each other. A current value generated by a reference voltage (ex. 12V) applied between (E1, E2) can be detected, and at this time, the magnitude of the current value measured between the first and second electrodes (E1, E2) is compared In order to more clearly compare the value of the current flowing through the 12 draining bloods or the bioresistance (R) passing through the 12 draining bloods, and to reveal the unique characteristics of each of the 12 draining bloods more clearly, the second It may be preferable that the reference site to which the electrode E2 is contacted is set to a position adjacent to the 12 drains, such as a back rather than a hand of the subject. For example, when the reference portion to which the second electrode E2 comes into contact is set as a reference portion with a hand that is somewhat distant from the presence of 12 drains, the current between the first and second electrodes E1 and E2 Since the path includes the path from the back to the hand where there are 12 drains, and additional bioresistance (R) is added, the reference site is adjacent to the 12 drains to remove the effect of these additional bioresistances (R). , can be set to a different site, such as away from the drainage blood.
In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a reference voltage between the first and second electrodes E1 and E2 in contact with the subject's skin The power supply step (P10) of applying a , and the measurement step (P20) of measuring the current value flowing between the first and second electrodes (E1, E2) are sequentially performed for each of the 12 draining bloods present on the subject's back. can be performed with And, in the classification step (P30) of classifying the physiological state and the pathological state of the subject based on the relative ratios of the different current values measured in the different drainage bloods among the 12 drainage bloods present on the subject's back, the 12 drainage bloods are At least two or more may be grouped into different groups, and the physiological state and pathological state of the subject may be classified according to a relative ratio of current values between different groups from current values measured from 12 drains. More specifically, in the classification step (P30), the relative ratio of the current values between different groups calculated from the current values measured from the 12 grouped drainage bloods, and the boundary between the physiological state and the pathological state. The condition of the subject can be classified through the comparison of the threshold values. Here, the threshold value corresponding to the boundary dividing the physiological state and the pathological state has a lower limit threshold value and an upper limit threshold value, and if the relative ratio of the current value is between the lower limit threshold value and the upper limit threshold value, physiological It is classified as a state, and if it deviates between the lower threshold and the upper threshold, it can be classified as a pathological state.
In the method for classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, the lower limit threshold value and the upper limit threshold value may be set to 0.8 and 1.2, respectively, and calculated If the relative ratio of the calculated current values is between 0.8 and 1.2, the condition of the subject can be classified as a physiological condition (normal condition), and if the relative ratio of the calculated current values is less than 0.8 or greater than 1.2, the condition of the subject is evaluated It can be classified as a pathological condition (abnormal condition).
According to an embodiment of the present invention, in the method for classifying the physiological state and the pathological state from the current value measured from the drain blood, 12 drain blood is divided into an upper drain blood present in the upper back, a central drain blood present in the middle back, And, grouping into lower drain blood present in the lower back, the relative ratio of current values measured from upper drain blood, middle drain blood, and lower drain blood, and distinguishing physiological state (normal state) and pathological state (abnormal state) The condition of the subject can be classified by comparing the threshold value corresponding to the boundary.
In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a reference voltage between the first and second electrodes E1 and E2 in contact with the subject's skin In the power supply step (P10) of applying It can be performed sequentially for each of a total of 24 drainage blood including Then, the 24 drainage bloods present on the subject's back were grouped into 12 drainage blood vessels present in the left position and 12 drainage blood vessels present in the right position, and the relative ratio of the current values measured from the left drainage blood and the right drainage blood, and physiological The condition of the subject can be classified by comparing the threshold value corresponding to the boundary that distinguishes the condition from the pathological condition.
3 is a diagram showing measurement points of current values in a method of classifying current values measured from drainage blood into physiological states and pathological states according to an embodiment of the present invention. In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, 12 drainage blood present in the back is a measurement point, and more specifically, upper back, middle back , 3, 4, and 5 drainage blood in the lower back, respectively, can be used as measurement points. More specifically, in the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the three drain blood of wastewater, gwoleumsu, and deep water in the upper back, etc. The four draining bloods of the liver, freshwater, nasal water, and stomach in the middle, and the five draining bloods of three seconds, renal, large intestine, small intestine, and bladder in the lower back can be used as measurement points. For example, each of the 12 drains may be symmetrically present in pairs on the left and right positions of the subject's back, and 12 drains present in the left position and 12 drains in the right position are added to measure a total of 24 drains. The condition of the subject can be classified using the current value.
As used herein, the 12 draining bloods present on the subject's back may mean 24 draining bloods present in pairs on the left and right positions of the subject's back, and measuring the current values in the 12 draining bloods through this specification means that the examinee It can mean that the current value is measured in 24 drains that exist in pairs on the left and right positions of the back.
In the method for classifying a current value measured from draining blood into a physiological state and a pathological state according to an embodiment of the present invention, the measured value of draining blood may mean a current value measured from draining blood, for example, It may refer to a measurement value of a current generated by a reference voltage of 12V applied between the drain blood present on the subject's back and the reference site. In the method of classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, a current generated by applying a reference voltage of 12V between the draining blood and a reference site is detected. The resistance (R) can be measured. In the present invention, skin resistance or bio-resistance (R) can be measured by applying DC power, and in this sense, it can be distinguished from measuring bio-impedance by applying AC power.
In the method of classifying a physiological state and a pathological state from the current value measured from draining blood according to an embodiment of the present invention, in order to reduce the computational burden, it is generated according to the applied reference voltage (ex. 12V) and the reference voltage Classification can be made based on the current value itself generated according to the applied reference voltage (ex. 12V) without calculating the bioresistance (R) from the current value, and the physiological It can be classified into a phosphorus state and a pathological state. In other words, in the method of classifying a physiological state and a pathological state from the current value measured from draining blood according to an embodiment of the present invention, instead of the bioresistance (R), a reference voltage (ex. 12V) generated The computational burden may be reduced by using the current value itself, and a relative ratio of current values measured under a common reference voltage (ex. 12V) may be substantially the same as a relative ratio of bioresistance R.
In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a reference voltage is applied between the first and second electrodes E1 and E2, and the applied By measuring the current value generated according to the reference voltage (ex. 12V), it is possible to classify the subject into a physiological state and a pathological state based on the measured current value. If, unlike the present invention, a reference current is applied between the first and second electrodes E1 and E2 and the first and second electrodes E1 and E2 or the first and second electrodes E1 and E2 When another method of measuring the voltage between the third and fourth electrodes is applied, it is necessary to amplify a weak signal of the measured voltage using differential amplification or the like in order to distinguish it from noise or to filter it.
In the method of classifying a current value measured from drainage blood into a physiological state and a pathological state according to an embodiment of the present invention, by measuring a current signal rather than a voltage signal, a measurement robust to noise can be made as much as possible, yes For example, the first and second electrodes to which the reference voltage (ex. 12V) is applied using a current sensor (H, ex. Hall sensor) disposed on a current path between the first and second electrodes E1 and E2 A current value flowing between the two electrodes E1 and E2 may be measured. In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a current value flowing between the first and second electrodes E1 and E2 is measured, and the measured When the current value exceeds the limit current value, the application of the reference voltage between the first and second electrodes E1 and E2 may be blocked. In the method of classifying a physiological state and a pathological state from the current value measured from draining blood according to an embodiment of the present invention, when a current value higher than this is measured based on the limit current value of 200 μA, the first and second The application of the reference voltage (ex. 12V) between the two electrodes E1 and E2 may be blocked. For example, in the method of classifying a current value measured from drainage blood into a physiological state and a pathological state according to the present invention, the current value measured through the current sensor H is captured, and the measured current value and the limit current value are A constant voltage source (V) that applies a reference voltage according to a control signal from the control unit (C) and the first electrode (E1) and the first electrode (E1) and / or by blocking the connection of the switch element S interposed between the constant voltage source V and the second electrode E2 (switching from turn-on to turn-off), the first and second electrodes E1 and E2 ) to cut off the supply of the applied reference voltage. If a relatively high current exceeding 200 μA flows through a part of the subject's body, it may stimulate the subject's nerves and cause discomfort to the subject. In one embodiment of the present invention, the limit current value is Excessive high current flowing can be caught and the power supply can be shut down quickly.
According to an embodiment of the present invention, in the method for classifying a physiological state and a pathological state from a current value measured from drainage blood, a physiological state and pathology based on a relative ratio of current values measured from 12 drainage blood vessels in the back status can be distinguished. In one embodiment of the present invention, the pathological state may mean a case in which a specific function is enhanced or a specific function is decreased outside of a physiological state.
In the method of classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, various ratios different from each other are calculated as follows, and the calculated ratio and physiological state and pathology The condition of the subject can be classified through mutual comparison of threshold values (ex. lower limit threshold value 0.8 and upper limit threshold value 1.2) corresponding to the boundary that classifies negative states.
4 to 8, in the method of classifying the current value measured from draining blood into a physiological state and a pathological state according to an embodiment of the present invention, 1) the ratio of the upper, middle and lower values, 2) the ratio of the left and right measured values, respectively , 3) ratio of limb measurements, 4) ratio of yin and yang measurements, and 5) ratio of common measurements, the ratio of each measurement, and normal/abnormal state of the subject. / A diagram for explaining the setting of a threshold value for classifying an abnormal state is shown. For reference, in each figure, as a result obtained from clinical data of various subjects, the results of classification into normal/abnormal state or physiological state/pathological state of the subject with different ratios of measurement values are shown. . Here, the result classified into the normal/abnormal state or physiological state/pathological state of the subject is classified as a normal state or physiological state through precise medical diagnosis for each subject, or an abnormal state or pathological state. In the case of classification, it is the result of specifically judging the pathological condition.
Some of the clinical data shown in FIGS. 4 to 8 are exemplarily displayed in FIGS. 9 to 12I . More specifically, FIGS. 9A to 9E are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject classified into a physiological state. 10A to 10G are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose upper part is classified as a pathological state. 11A to 11N are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose middle part is classified as a pathological state. 12A to 12I are views showing some of the clinical data shown in FIGS. 4 to 8 , and are views showing clinical data of a subject whose lower part is classified as a pathological condition.
1) Ratio of upper, middle and lower measurements
In the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the drain blood in the upper back (three drain blood) and the drain blood in the middle back (four drain blood) ) and as a classification parameter for classifying into physiological and pathological states according to the ratio of upper, middle, and lower measured values measured in drain blood (5 drain blood) in the lower back, the ratio of upper, middle, and lower measurements can be calculated.
In the method of classifying a physiological state and a pathological state from a current value measured from drainage blood according to an embodiment of the present invention, a total of 12 drainage blood present in the upper back, the middle of the back, and the lower part of the back is measured as a measurement point In this way, a ratio between the measured value of the upper drain blood, the measured value of the central drain blood, and the measured value of the lower drain blood can be calculated.
In one embodiment of the present invention, the ratio of the upper, middle and lower measured values may be calculated as a ratio between the measured value of upper drainage: the measured value of central drainage: the measured value of lower drainage. In this case, a combination of two differently selected measurement values may be derived from the three measurement values of upper drain blood, central drain blood, and lower drain blood. And, from the combination of the two differently selected measurements, a ratio between each of the different measurements may be calculated, and between the two measurements arbitrarily selected between the measurements of the upper drainage, the central drainage, and the lower drainage. ratio can be calculated.
According to an embodiment of the present invention, in the method for classifying a physiological state and a pathological state from a current value measured from draining blood, a ratio between a measured value of upper drain blood:measured value of central drain blood and a measured value of upper drain blood: lower drain blood Three different ratios can be calculated: the ratio between the measurements of , and the ratio between the measurements of central:lower drainage. And, through the mutual comparison of the three different ratios calculated in this way and the threshold value corresponding to the boundary that distinguishes the physiological state and the pathological state (ex. the lower limit threshold value 0.8 and the upper limit threshold value 1.2), the condition of the subject; That is, it is possible to classify whether the condition of the subject is a physiological condition or a pathological condition in which a specific function is enhanced or decreased.
In the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the measured value of the upper drain blood means three drain blood of wastewater, gwoleum water, and deep water present in the upper back may mean a current value measured in , and in one embodiment of the present invention, it may mean an average value of current values measured in three drainage bloods (waste water, gwoleum water, and deep water) existing in the upper back.
Similarly, in one embodiment of the present invention, the measured value of central drainage may refer to current values measured in four drainage blood vessels present in the central back, fresh water, nasal water, and gastric juice, in one embodiment of the present invention In , it may mean the average value of the current values measured in the four draining blood (brin water, fresh water, nasal water, and gastric water) existing in the middle of the back.
In addition, in one embodiment of the present invention, the measured value of lower drain blood may mean a current value measured in five drain blood of three seconds, renal, large intestine, small intestine, and bladder existing in the lower back. In one embodiment of the invention, it may mean an average value of current values measured in five drainage blood (three seconds, renal, large intestine, small intestine, bladder) existing in the lower back.
In the method of classifying a physiological state and a pathological state from the current value measured from draining blood according to the present invention, the ratio of the upper, middle and lower measured values is the ratio between the measured value of upper drainage: measured value of central drainage: measured value of lower drainage. And, in one embodiment of the present invention, as the measurement values of upper drain, central drain, and lower drain, the average value of three upper drain blood, the average value of four central drain blood, and the average value of five lower drain blood may be used. At this time, the ratio between the different average values may be calculated from a combination of two average values that are differently selected from the three average values of upper drain blood, central drain blood, and lower drain blood. In one embodiment of the present invention, the average value of upper drain blood Three different ratios can be calculated: the ratio between the mean value of central drain blood, the ratio between the average value of the upper drain blood:the average value of the lower drain blood, and the ratio between the average value of the central drain blood and the average value of the lower drain blood. And, the condition of the subject is determined through the mutual comparison of the three calculated ratios and the threshold values corresponding to the boundary that distinguishes the physiological state from the pathological state (ex. the lower limit threshold value 0.8 and the upper limit threshold value 1.2). can be classified. For example, the maximum (maximum of the upper/middle/lower measurements) and the minimum value (the maximum of the upper/middle/lower measurements) of the ratio of upper-middle measurements, i.e., the ratio of measurements of upper drainage: measurements of central drainage: measurements of lower drainage. If the ratio between the measured values of drain blood/central drain blood/lower drain blood) is out of 0.8 to 1.2, it can be judged that there is a pathological condition of decreased function or hyperfunction at the location of the drain blood with the maximum or minimum value. can
In the method for classifying a physiological state and a pathological state from a current value measured from draining blood according to an embodiment of the present invention, the ratio of the upper, middle and lower measured values is the ratio between the measured value of upper drainage: the average value of upper, middle and lower, and the ratio of the central drainage. It may mean a ratio between the measured value: the upper, middle and lower average value, and the measured value of the lower drain blood: the ratio between the upper, middle and lower average value. Here, the upper, middle and lower average value may mean the average of the measured values of 12 drains including three upper drains, four central drains, and five lower drains, and may mean the average of current values measured in the 12 drains. can And, in one embodiment of the present invention, as the measurement values of upper drainage, central drainage, and lower drainage, each of three upper drainage, each of four central drainage, and each of five lower drainage are used. can
In the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the ratio between the measured values of each of the three upper drain blood and the average value of the twelve drain blood (3 ratios) and , a ratio between each measurement of the four central drains and the average of 12 drains (four ratios), and a ratio between each of the measurements of five lower drains and the average of the 12 drains (five ratios), The condition of the subject can be classified through the mutual comparison of the 12 ratios calculated together and the threshold values (ex. the lower threshold value of 0.8 and the upper threshold value of 1.2) corresponding to the boundary that distinguishes the physiological state from the pathological state.
For example, if any one of the three different ratios calculated as the ratio between the measured values of each of the three upper drain blood and the average value of the twelve drain blood is out of the range of 0.8 to 1.2, it can be determined as higher than that. Similarly, if any one of the four different ratios calculated as the ratio between the measured values of each of the four central drainage blood and the average value of the 12 drainage blood values is out of the range of 0.8 to 1.2, it can be judged as a central abnormality. In addition, if any one of the five different ratios calculated as the ratio between the measured values of each of the five lower drain blood and the average value of the twelve drain blood is out of the range of 0.8 to 1.2, it can be determined that the lower drain is abnormal.
2) Ratio of left and right measurements
According to an embodiment of the present invention, in the method for classifying the physiological state and the pathological state from the current value measured from the drain blood, three drain blood vessels in the upper back, four drain blood cells in the middle back, and lower back As a classification parameter for classifying into a physiological state and a pathological state according to the ratio of the left and right measured values measured at the left and right 24 menstrual points of a total of 12 drain points of the 5 drain blood vessels, the ratio of the left and right measured values can be calculated.
In the method of classifying the physiological state and the pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the ratio between 12 drain blood on the left and 12 drain on the right is calculated, , through comparison of the calculated ratio of left and right measured values and threshold values corresponding to the boundary between physiological and pathological conditions (ex. lower threshold 0.8 and upper threshold 1.2), the condition of the subject, that is, the It can be determined whether the condition is a physiological condition or a pathological condition in which a specific function is enhanced or decreased.
As shown in FIG. 3 , since the drainage blood on the back is symmetrical to form a left and right pair, the measurement value using the 12 drainage blood on the left as the measurement point and the measurement value using the 12 drainage on the right side as the measurement point are mutually By comparing, the ratio between the left and right measurements can be calculated. In an embodiment of the present invention, the ratio of the left and right measured values may be calculated in the form of a measurement value of left drainage: a measurement value of right drainage.
In one embodiment of the present invention, the measured value of left drainage refers to drainage blood present on the left side, that is, three drainage blood present in the upper left side of the back, guleum water, and deep water, and liver water and fresh water present on the left side of the middle back, It may mean a measured value measured from the four draining bloods of the spleen and stomach, and the five draining bloods of three seconds, renal, large intestine, small intestine, and bladder existing in the lower left side of the back. Similarly, in one embodiment of the present invention, the measured value of right draining blood includes draining blood on the right side, that is, three draining blood on the upper right side of the back, guleumsu, and deep water, and liver on the right side of the middle back. , fresh water, nasal water, and stomach water, and 4 drainage blood of the lower right side of the lower back.
The condition of the subject, that is, through the mutual comparison of the calculated ratio of the left and right measurement values, and the threshold values corresponding to the boundary that distinguishes the physiological state from the pathological state (ex. the lower limit threshold value 0.8 and the upper limit threshold value 1.2), It is possible to classify whether the condition of the subject is a physiological condition or a pathological condition in which a specific function is enhanced or decreased.
3) Proportion of limb measurements
According to an embodiment of the present invention, in the method for classifying the physiological state and the pathological state from the current value measured from the drain blood, three drain blood vessels in the upper back, four drain blood cells in the middle back, and lower back Out of a total of 12 drainage bloods of the five drainage bloods in the A classification parameter for classifying into a physiological state and a pathological state according to the ratio between the measured values in the foot drainage blood of the liver, fresh water, nasal water, gastric water, renal water, and bladder water constituting the foot sprig corresponding to the meridian of the upper or lower limb. ratio can be calculated.
In the method of classifying the physiological state and the pathological state from the current value measured from drainage blood according to an embodiment of the present invention, the hydroponic composition of wastewater, gwoleumsu, deep water, three seconds water, large intestine water, and small intestine water Calculate the ratio between the measured values in the drainage blood and the measurement values in the foot drainage blood of the stem water, fresh water, nasal water, gastric water, renal water, and bladder water constituting the foot sprain, and calculate the ratio of the calculated left and right measured values, and the physiological and pathological conditions The condition of the subject, that is, whether the condition of the subject is a physiological state, or a pathological condition in which a specific function is enhanced or decreased, is status can be determined.
In one embodiment of the present invention, as a measurement value in hydroponic drainage, the sum of current values measured in wastewater, gwoleumsu, deepwater, samchosu, large intestine, and small intestine water constituting the hydraulics may be used, and similarly, As the measurement value in the foot drainage blood, the sum of the current values measured in the gansu, fresh water, bisu, wisu, shinsu, and bladder water constituting the foot may be used.
4) Ratio of yin and yang measurements
According to an embodiment of the present invention, in the method for classifying the physiological state and the pathological state from the current value measured from the drain blood, three drain blood vessels in the upper back, four drain blood cells in the middle back, and lower back Among the total 12 drainage bloods of the 5 drainage bloods in the body, the measured values and the positive Physiological and pathological conditions according to the ratio between measurements in the transverse drainage blood of fresh water, gastric water, trichophyll, large intestine, small intestine, and bladder As a classification parameter for classifying into , a ratio of yin-yang measurements may be calculated.
According to an embodiment of the present invention, in the method of classifying the physiological state and the pathological state from the current value measured from drainage blood, in the penile drainage blood of wastewater constituting the penis, gwoleumsu, deep water, liver water, dagger, and renal water Calculate the ratio between the measured values and the measured values in the yanggyeong drain blood of fresh water, gastric water, trichos water, large intestine water, small intestine water, and bladder water constituting the yanggyeong, and the ratio of the calculated yin-yang measured values, physiological state and pathological state The condition of the subject, that is, whether the condition of the subject is a physiological state, or a pathological condition in which a specific function is enhanced or decreased, is status can be determined.
In one embodiment of the present invention, as a measurement value in penile drainage, the sum of current values measured in wastewater, gwoleumsu, shimsu, gansu, bisu, and shinsu constituting the penis may be used, and similarly, in yanggyeong drainage As a measurement value of , the sum of current values measured in fresh water, gastric water, three seconds water, large intestine water, small intestine water, and bladder water constituting the Yanggyeong may be used.
5) Ratio of Common Measures
According to an embodiment of the present invention, in the method for classifying the physiological state and the pathological state from the current value measured from the drain blood, three drain blood vessels in the upper back, four drain blood cells in the middle back, and lower back Among the total of 12 drainage bloods of the 5 drainage bloods in the As a classification parameter for classifying the physiological state and the pathological state according to the ratio between the measured values in the drainage blood of renal, large intestine, and small intestine, the ratio of yin-yang measurements may be calculated.
In the method of classifying a physiological state and a pathological state from the current value measured from the drain blood according to an embodiment of the present invention, the drain blood of wastewater, gwoleum water, deep water, fresh water, stomach water, and bladder water that controls the consumption of qi blood Calculate the ratio between the measured values in , and the measured values in the drainage blood of the liver, spleen, samchosu, shinsu, large intestine, and small intestine, which are responsible for the generation of gihyeol, and the ratio of the calculated common measured values, physiological state and pathology The condition of the subject, that is, whether the condition of the subject is a physiological state, or whether a specific function It can be determined whether the condition is pathological.
In one embodiment of the present invention, as a measurement value in drain blood that governs consumption of qi blood, a sum of current values measured in waste water, guleum water, deep water, fresh water, gastric water, and bladder water may be used, and similarly, qi blood As the measurement value in the drainage blood that controls the generation of , the sum of the current values measured in the gansu, bisu, samchosu, shinsu, large intestine, and small intestine can be used.
Although the present invention has been described with reference to the embodiment shown in the accompanying drawings, this is only an example, and various modifications and equivalent other embodiments are possible therefrom by those skilled in the art to which the present invention pertains. point can be understood.

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E1: first electrode E2: second electrode
S: switch element H: current sensor
V: constant voltage source R: bioresistance
C: control

Claims (17)

A reference voltage is applied between the first and second electrodes in contact with the subject's skin, and between any one of the 12 drains on the subject's back and the first and second electrodes in contact with the reference site of the subject, respectively. a power supply step of applying a reference voltage;
a measuring step of measuring a current value flowing between the first and second electrodes; and
Current measured from drain blood, including a classification step of classifying the physiological state and pathological state of the subject based on the relative ratios of different current values measured in different drain blood among the 12 drain blood present on the subject's back A method of classifying from values into physiological and pathological states. The method of claim 1,
The power supply step and the measurement step are sequentially performed for each of the 12 drainage bloods present on the subject's back,
In the classification step, the 12 drainage bloods are grouped into at least two different groups, and the physiological state and the pathological state of the subject are classified according to the relative ratio of the current values between the different groups from the current values measured from the 12 drainage bloods. A method of classifying a physiological state and a pathological state from the current value measured from drainage blood, characterized in that. 3. The method of claim 2,
In the classification step, the relative ratio of the current values between different groups calculated from the current values measured from the 12 grouped drainage bloods and the threshold value corresponding to the boundary separating the physiological state and the pathological state are compared. A method of classifying into a physiological state and a pathological state from the current value measured from draining blood, characterized in that the state is classified. 4. The method of claim 3,
The threshold value corresponding to the boundary dividing the physiological state and the pathological state has a lower limit threshold value and an upper limit threshold value,
The relative ratio of the current values is,
If it is between the lower threshold and the upper threshold, it is classified as a physiological state,
A method of classifying a physiological state and a pathological state from a current value measured from draining blood, characterized in that, when it deviates between the lower threshold and the upper threshold, the state is classified as a pathological state. 5. The method of claim 4,
The method of classifying a physiological state and a pathological state from the current value measured from draining blood, characterized in that the lower limit threshold value and the upper limit threshold value are set to 0.8 and 1.2, respectively. 3. The method of claim 2,
In the classification step, the ratio of the upper-middle measurement values measured in the drain blood in the upper back, the drain blood in the middle back, and the drain blood in the lower back, and the threshold value corresponding to the boundary separating the physiological state and the pathological state. A method of classifying a physiological state and a pathological state from a current value measured from draining blood, characterized in that the state of the subject is classified through comparison. 7. The method of claim 6,
wherein the ratio of the upper, middle and lower measurements includes a ratio between two measurements arbitrarily selected from among the measurement of upper drainage, the measurement of central drainage, and the measurement of inferior drainage. and how to classify it as a pathological condition. 8. The method of claim 7,
The measured value of the upper drain, the measured value of the central drain, and the measured value of the lower drain blood correspond to the average value of the current values measured in at least two drain blood vessels present in the upper back, the middle back, and the lower back, respectively. A method of classifying a physiological state and a pathological state from the measured current value. 7. The method of claim 6,
The ratio of the upper, middle and lower measurements is the ratio of each upper drainage measurement to the common upper, middle and lower average value, the ratio of each central drainage measurement to the common upper, middle and lower average value, and the ratio of each lower drainage to the common upper and middle average value. A method of classifying into a physiological state and a pathological state from the current value measured from the drain blood, comprising the ratio of the measured value. 10. The method of claim 9,
The upper, middle and lower average values are classified into physiological and pathological states from current values measured from drain blood, characterized in that it corresponds to the average value of the current values measured in 12 drain blood vessels including upper drain blood, central drain blood, and lower drain blood. How to. 10. The method of any one of claims 7 or 9,
In the classification step, if any one of the ratios of the upper, middle and lower measured values deviates from the threshold value, the condition of the subject is classified as a pathological condition. How to classify it as a hostile state. 3. The method of claim 2,
The power supply step and the measurement step are sequentially performed for each of the 24 draining bloods including 12 draining bloods present in the left and right positions on the subject's back, respectively,
In the classification step, the ratio between the 12 drains present in the left position and the 12 drains in the right position is calculated, and the ratio of the calculated left and right measured values corresponds to the boundary dividing the physiological state and the pathological state. A method of classifying a physiological state and a pathological state from a current value measured from draining blood, characterized in that the condition of the subject is classified through comparison of the threshold values. The method of claim 1,
The reference portion of the subject to which the second electrode is in contact corresponds to a common position where a common potential is applied to form a reference voltage with respect to the first electrode in measuring the current value flowing through each of the 12 draining bloods present on the subject's back A method of classifying a physiological state and a pathological state from the current value measured from the drain blood, characterized in that it is. 14. The method of claim 13,
A method of classifying a physiological state and a pathological state from the current value measured from the drain blood, characterized in that the reference site of the subject to which the second electrode is in contact is set to a site other than the 12 locations for draining blood. . The method of claim 1,
In the measuring step, when the value of the current flowing between the first and second electrodes is measured to be higher than the preset limit current value, the application of the reference voltage between the first and second electrodes is blocked. A method of classifying a physiological state and a pathological state from the measured current value. 16. The method of claim 15,
In the power supply step, a reference voltage of 12V is applied between the first and second electrodes,
In the measuring step, when a current value higher than 200 μA is measured as the limit current value, the physiological state and How to classify it as a pathological condition. 17. The method of claim 16,
In the step of blocking the application of the reference voltage, the current measured from the drain blood, characterized in that the connection of the constant voltage source applying the reference voltage and the switch element interposed between the first electrode and/or the second electrode is cut off A method of classifying from values into physiological and pathological states.

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