FR2530450A1 - Medical diagnosis circuit using two electrodes - Google Patents

Abstract

The appts. has two electrodes which are applied to certain carefully chosen parts of the human body. A generator and a switch are used to produce a positive or a negative current through the part of the patient's body lying between the two electrodes. The generator and switching circuit is connected via a protection switch to a current detector which is connected by flexible wires to the electrodes. A changeover switch is connected to the current detector and is controlled by the switching circuit. It is connected to two peak value holding circuits which are connected directly to two measuring circuits. The peak value holding circuits are connected to a third measuring circuit (30) via a difference circuit.

Description

 the present invention relates to a diagnostic system for the human body.

 In a diagnostic method using applied ki neiology, a stimulus is applied to a reaction point of the blood or lymph (which corresponds to ntsubo "in oriental medical art), and an operator such as the doctor determines, by his own sensation, a change in the strength of a muscle to be tested, such as a foot or finger muscle, before and after the application of the stimulus. In this way, for any point which presents a abnormal response, one diagnoses the existence of an anomaly of an internal organ or a muscle which corresponds to the point of reaction or reflex.

Because this process is based on the sensation that the operator feels to establish the diagnosis, the result of the diagnosis is highly subjective and varies from one operator to another. In addition, the time required to establish the diagnosis is considerable, since the process of initially determining the strength of a muscle to be tested, applying a stimulus to a reaction point and again determining the strength of the muscle, is repeated for each feedback point that is selected sequentially. In addition, such a diagnosis is only achievable with a specially trained operator0
A main object of the invention is to provide a diagnostic system capable of providing an objective diagnosis relating to a human body.

 Another object of the invention is to provide a diagnostic system capable of establishing a diagnosis of a human body in a reduced time.

Another object of the invention is to provide a diagnostic system which allows anyone to establish a diagnosis relating to a human body.
The invention will be better understood on reading the following description of embodiments and with reference to the accompanying drawings in which
Figure 1 is a block diagram of an embodiment of the invention.

 Figure 2 is a partial plan view of this embodiment.

 Figures 3 and 4 respectively show a perspective view and a section of each electrode used in this embodiment.

 Figure 5 is a sketch showing reaction points of a human body.

 FIG. 6 graphically represents the result of the diagnosis accomplished by this embodiment.

 Figure 7 is a block diagram of part of another embodiment of the invention.

 Figures 8 and 9 are block diagrams of other embodiments of the invention.

 According to the invention, a pair of electrodes are arranged in contact with a reference location such as the hand, and a reaction point, for circulating a very low intensity direct current in a positive direction and a negative direction. A difference between the intensity of such currents allows a diagnosis to be made. As an example, one can place a first electrode in contact with a patient's hand and place a second electrode in contact with a selected reaction point. According to the invention, it is found that when a region of the body human corresponding to the reaction point has no abnormality, the intensity of the current flowing between the electrode and this point when the second electrode connected to the reaction point is positive, is practically equal to the intensity of the current flowing between them when the second electrode is negative, whereas a notable difference appears between the intensities of these currents if the region considered of the body presents an anomaly. This determination leads to a good agreement with the result of the diagnosis established by the conventional technique.

 The difference in current intensity is considered to be due to the following fact: a human body has a certain electrolytic reaction. When the human body is normal or when the body is fully balanced, the positive and negative ions balance to achieve total neutrality. However, when the human body is locally unbalanced, or when an abnormality occurs, the quantities of positive and negative ions are locally unbalanced. It is believed that the location at which the imbalance occurs represents a point of reaction. It is found that a positive current of increased intensity flows towards an abnormal reaction point. It is considered that this comes from the fact that an abnormal reaction point presents a lack of positive ions, and an increased circulation of positive ions towards this point tends to maintain local balance. This is believed to be the basis for the diagnosis of a human body according to the invention.

 Ia 1 is a block diagram of an embodiment of the invention and Figure 2 is a partial plan view of this embodiment. More specifically, the system includes a power supply 11 which produces a DC voltage of a given value. This DC voltage is applied to a pair of electrodes 15, 16 via a current presetting circuit 12, a polarity switching circuit 13 and a protection circuit 14. L electrode 15 has a cylindrical configuration, as shown in Figure 3, and it is placed in contact with a reference location of a patient for which a diagnosis is to be made, and the patient can for example tighten this electrode in the hand right.

As shown in Figure 4, the electrode 16 comprises a handle 17 formed by an insulating material, in which is mounted one end of a metal socket 18, with a spring 19 interposed between the handle and the socket. A piece of cotton 20 moistened with water is housed inside the sleeve 18.

The electrode 16 is brought into contact with a selected reaction point of a patient for whom a diagnosis must be made, by holding the handle 17 and bringing the free end of the socket 18 in contact with the reaction point . The water which moistens the piece of cotton 20 flows towards the lower end face of the sleeve 18 so as to improve the electrical contact between the sleeve 18 and the reaction point.

 The current presetting circuit 12 includes a variable resistor 21 which limits the charging current, or the current which must pass through the human body, to an appropriate value less than or equal to 100 e. The resistor thus varies the output voltage of the power supply 11. The polarity switching circuit 13 changes the polarity of the load current or of the output current of the circuit 12 so as to give this current the positive polarity or negative polarity in accordance with a signal which is applied by a switch 220 The protection circuit 14 consists of a limiter which limits the charging current to a given value, and thus protects the human body against an overcurrent. switch 22 for circulating a charge current of positive polarity or negative polarity at different times, but under the same conditions.

 A current detector 23 detects the intensity of the charging current flowing through the human body, and this detector applies its output signal to a switching circuit 24.

 The switching circuit 24 reacts to a signal from the switch 22 by switching the output signal from the detector 23 to one of the peak value blocking circuits 25, 26.

Thus, when a current flows with a positive polarity for the reference location of the human body, for example the right hand, the output signal of the detector 23 is applied by the switching circuit 24 to the peak value blocking circuit 25 On the contrary, an output signal from the detector 23 which appears under the effect of the circulation of a negative current in the human body is applied by the switching circuit 24- to the peak value blocking circuit 26. The peak value blocking circuits 25, 26 have time constants which are chosen so as to allow the detection of the output signals of the detector 23, when they are stabilized. Two measuring devices 27, 28 are sounded respectively to the peak value blocking circuits 25, 26, for indicating the value of the output signals of the respective peak value blocking circuits 25, 26. A difference calculating circuit 29 calculates the difference between the signals output from the two peak value blocking circuits 25, 26 and it produces an absolute value of the difference, which is indicated by a measuring device 30.

When making a diagnosis with the above mentioned diagnostic system, a patient to be examined grasps the electrode 15 in the right hand and he or a doctor places the electrode 16 in contact with a point of reaction. severed from the patient. RasuiteR by actuating the switch 22, a charge current of positive polarity then of negative polarity is circulated, under the same conditions, for a period of the order of two seconds. a combination of the measuring devices 27, 28, or the measuring device 302 syndicates the difference between the intensity of the positive current and the negative current, when these currents have stabilized, which makes it possible to determine whether the point of reaction is abnormal. The procedure described is repeated by placing the electrode 16 on other patient reaction points which are selected sequentially5
FIG. 5 shows reaction points 1 to 22 of the human body. Figure 6 graphically shows an example of a diagnostic result. Figure 6 shows the intensity of the positive and negative current for each reaction point. When two pairs of positive and negative currents are represented for a single reaction point, this means that the same reaction point is located in the left half and in the right half of the hlwnsin body. If one of the positive and negative currents is less than the other by at least 20% for the same reaction point, it is considered that this reaction point is abnormal.

In the embodiment described above, the peak value blocking circuits are used to detect an output signal from the detector 23, when this signal has stabilized. However, the Croatian value blocking circuit can be replaced by an averaging circuit or an integrating circuit, to detect an output signal from the detector 23 when it has stabilized. Each output signal from the switching circuit 24 can title applied directly to the measuring devices 27, 28, to indicate the stabilized values of the output signals of the detector 23. The diagnosis can be carried out in a similar way If the peak value blocking circuits 25, 26 are designed to so as to detect blocked peak values (maximum or minimum value), instead of stabilized values0
As shown in FIG. 7, there may be a comparator 310 intended to compare the output signal of the difference calculation circuit 29 with a reference value, so that each time the output signal exceeds the reference value , the comparator 310 produces an output signal for actuating an indicator or an alarm device such as a buzzer. This makes it possible to easily determine the malaria level of a selected reaction point, by means of the alarm device 320.

 It is noted that if the positive current is allowed to flow for an increased period of time towards a reaction point which lacks positive ions, the imbalance at this point of reflection is eliminated, which makes it possible to correct its anomaly, so that the system of described diagnosis can also be used for therapeutic purposes.

 The diagnostic system described makes it possible to carry out a diagnosis in an objective manner. Because the diagnosis is made by placing the electrodes in contact with the reference location and with a selected reaction point of the human body, the time required for the diagnosis can be considerably reduced, and the diagnosis can be accomplished in a precise manner by any person, not exercised.

 FIG. 8 shows another embodiment of the invention. The configuration is generally similar to that of the previous embodiment and further includes a level indicator driver, 31, which applies a difference output signal from the difference calculating circuit 29 to a 4 'display device 32 which consists of a level indicator. The combination of the driver 31 and the level indicator 32 is designed to operate a level indicator consisting of an array of light emitting diodes which are arranged to represent a bar graph. More specifically, the level indicator 32 comprises a linear array of twenty-four light-emitting diodes 321 to 3224. The drive circuit 31 excites a given number of light-emitting diodes 321 to 5224 in succession, starting at the left end of the array, and this number depends on the value of the output signal of the difference calculating circuit 29. When these diodes are excited so as to emit light, the value of the output signal of the difference calculating circuit 29 can other displayed, this which gives a clear indication of the degree of anomaly in the area covered by the diagnosis. In a particular example, the diodes are divided into three groups, each group emitting light of a different color, so as to indicate the physical condition of the area covered by the diagnosis. Thus, the diodes 321 to 328 emit green light, which indicates that the area to which the diagnosis relates is in a healthy condition. The diodes 329 to 3216 emit yellow light, which indicates that the area requires attention. Diodes 3217 to 3224 emit red light, which indicates that the area requires treatment. In this embodiment, there is also a restore switch 33 which can be pressed to produce a restore signal which restores the peak value blocking circuits 25, 26 when the diagnosis of a particular region has been completed, and before proceeding to the diagnosis of another region. It should be noted that the analog meters 27, 28 can be replaced by a similar combination of a level indicator and a level indicator driver.

 Figure 9 shows a further embodiment of the invention. The configuration is generally similar to that of the first embodiment and it further comprises a monostable circuit 35 which is triggered so as to produce a single pulse when a power switch 34 is actuated to turn on the power supply 11. The pulse is applied to an automatic restoration circuit 36, which restores the peak value blocking circuits 25, 26 after they have operated for an appropriate time interval, usually of the order of two or three seconds, depending on the capacity of the capacitors that are used in these circuits.

 It goes without saying that numerous modifications can be made to the device described and shown, without departing from the scope of the invention.

Claims (9)

 1. Diagnostic system characterized in that it comprises a first electrode (15) intended to be connected to a reference location of a human body, a second electrode (16) intended to be connected to a reaction point of the body human, and means (11-14) for circulating a positive current and a negative current through the electrodes (15, 16) and in the human body, and determining the intensity of these currents.  2. Diagnostic system according to claim 1, characterized in that it further comprises current applying means (13) intended to pass a positive current and a negative current through the electrodes (15, 16) and into the human body at different times, and means (27 to 30) for determining the intensity of the positive current and the negative current flowing through the human body.  3. Diagnostic system according to claim 2, characterized in that the current application means comprise a power supply (11) intended to apply a given voltage between the first electrode (15) and the second electrode (16), and a switch t22) to cause a positive voltage and a negative voltage produced by the power supply to be applied at different times between the first electrode (15) and the second electrode (16).  4. Diagnostic system according to claim 3, characterized in that it further comprises a current preset circuit (12) which varies the output voltage of the power supply (11) to preset the intensity of the current which must pass in the human body.  5. Diagnostic system according to claim 2, characterized in that the means (27 to 30) of intensity determination comprise detection means (27, 28) intended to detect the positive current and the negative current which pass through the body human, when these currents have stabilized, and a display device (30) for presenting the detected values of the positive current and the negative current.  6. Diagnostic system according to claim 2, characterized in that the intensity determination means comprise detection means (27, 28) intended to detect the positive current and the negative current which pass through the human body, when these currents have stabilized, a difference calculating circuit (29) for determining the difference between the stabilized values of the positive current and the negative current detected by the detection means, and a display device (30) for presenting the signal of the difference calculation circuit.  7. Diagnostic system according to claim 6, characterized in that the display device (30) has the value of the output signal of the difference calculation circuit (29).  8. Diagnostic system according to claim 6, characterized in that the display device comprises a comparator (310) which is intended to compare the output signal of the difference calculation circuit (29) with a reference value, and an alarm device (320) for producing a warning under the effect of an output signal from the comparator (310) which indicates that the output signal from the difference calculation circuit  (29) exceeded the reference value.  9. Diagnostic system according to claim 2, characterized in that the means (27 to 30) for determining intensity determine the peak value of the positive current and of the negative current which pass through the human body.