DE19983992B4 - Method for determining blood characteristics - Google Patents

Abstract

A method for determining blood characteristics, wherein the energetic activity of the acupuncture channels of a patient is quantitatively estimated and the blood characteristics are calculated based on the mathematical formulas with respect to the dependence of the biochemical characteristic of the level of activity of the acupuncture channels that affect this characteristic and wherein the formulas in advance for each concrete biochemical characteristic according to age, sex and the diagnosis of patients by mathematical processing of one series of examinations and each investigation from an assessment of energetic activity of the main acupuncture channels by the method of "Pulse diagnostics" on data of a rhythmic cardiogram, where for spectral analysis, the dynamics of the change in time periods between the specific phases of the cardiac cycle can be used in an electrocardiogram and the parallel measurement ng of the blood characteristics to be determined.

Description

The The proposed invention relates to a method of determination of blood characteristics. Assessment of the condition of patients such as diabetics urges the frequent blood analysis that easy and comfortable. All widely used methods for determination Blood characteristics are based on invasive blood sampling. Usually such analyzes as biochemical analysis, chromatography, immune analysis and spectrophotometry used. This ordinary Methods have some disadvantages. They are based on the invasive Taking blood, which is why they are for are uncomfortable for the patient. They also contain the risk of infections and take time. During the period of the Collection of blood until the receipt of the laboratory values can be determined Characteristics change. Leading to the wrong and sometimes misleading results of the investigation.

Of the The subject of the proposed invention is the method for noninvasive determination of different blood characteristics, in primarily such as glucose and also blood urea, creatine, Cholesterol, β-lipoproteins, Blood cell white, blood electrolytes u. s. W. Another object of the invention is the device, the various, non-invasively determined blood characteristics allowed.

The non-invasive determination of various biochemical blood characteristics and the means for their realization are known ( WO 9604840 . DE 4342105 . WO 9613201 ). In the patent application DE 4342105 is the method for the determination of glucose without invasion in the human blood vessel system by the high accuracy of the measurement of the body temperature of the various body sections, namely the superficial temperature, the temperature in the tissue layers lying close to the surface and the gradient of the temperature in the deep Tissue layers described. The functioning of the device is based on the dependency between the concentration of glucose in human blood and the body temperature measured at various points. The device has a temperature-sensitive head and the blocks connected to it for measuring, processing and displaying the information. In the application WO 9613201 is described a method for the determination of a number of substances in the blood without invasion. The method requires the irradiation of a body part with the modulated radiation, as well as the determination of the intensity of the reflected radiation in the spectrum range and the use of the measured signal intensity for the calculation of the concentration of the elements to be examined. In the patent application WO 9604840 is the non-invasive sensor for analysis of blood content described. The device is for the determination of a substance, in particular glucose, in arterial blood which circulates in any part of the body of the patient. The device has a radiation source that operates in the near infrared spectrum and is located above the particular body part. The infrared radiation passes through the specific body part and is reflected by it. The reflected signals are received by a detector. After corresponding processing of signals it is possible to receive data on concentration of the studied substance in blood. In the patent US 5222495 For example, a method for determining various biochemical blood characteristics, such as blood sugar, albumin, uric acid, etc., is described. The method is realized in vivo by means of the radiation of the blood source through the skin of the patient. The waves are of different lengths. The spectral window is in the range 1300-2300 nm. This is followed by the transformation of the luminous sign into the electrical sign and the comparison of the electrical sign to the near wavelengths. The described method is by means of the device according to US 5222495 realized. The device for the determination of a blood characteristic without invasion has a source of infrared radiation and a detector for the non-invasive measurement of the absorption of the infrared radiation at different wavelengths and for their transformation into electrical signs to further edit them. From the DE-OS 198 41 217 is a device and method for the spectroscopic analysis of human or animal tissue or body fluids known. It utilizes evanescent wave fiber optic Fourier Transform Infrared Electroscopes using fiber optic sensors operating under the conditions of subdued total reflection in the mid-infrared region of the spectrum. This device is used to diagnose and characterize noninvasive and faster direct measurements of spectra of normal and pathological tissues. It is designed to test and monitor normal skin and various skin tumor tissues at the early stages of their development, but it is also capable of fluid diagnosis.

From bases of reflex therapy it is widely known that any pathology of an organism, both organic and functional character is connected with proportional change of level of an energetic state from certain energy channels. The more the pathology is expressed, the greater the change in the activity of the channels. (G. Luvsan. "Outlines of the methods For example, in liver diseases, in a certain way, the activity primarily changes in the channel of the liver and the other channels, which are closely bioenergetically linked to it, and at the same time have different liver diseases For example, the content of bilirubin, the blood protein, of certain enzymes produced in the liver changes, so that certain parallels between the total level of activity of the particular canals and different ones can change Blood characteristics, the content of which reflects the severity of the pathology, are determined by the concentration of the blood characteristics in the form of the specific formula with respect to the dependence on the state of activity of the particular acupuncture channels method of regression. In this way, the channels are associated with both the functioning of the physiological macrosystems and the structure and chemical composition of the microsystems closely associated with them, such as, for example, the biochemical blood content and leukocyte formula. In conjunction with this, it seems to be advantageous to work out the method of non-invasive determination of blood characteristics by using the methods of measuring the energy of the channels.

The Object of the present invention is to provide a method with the elaboration of the non-invasive method of determination the level of glucose and the other formulas and biochemicals Blood characteristics based on the assessment of the activity of the certain acupuncture channels, including at the same time in connection with continuous monitoring can.

To The following procedure is used to determine the blood characteristics proposed with the features of claim 1.

The Blood characteristics are based on mathematical formulas regarding the dependence of biochemical characteristic of the level of activity of the Acupuncture channels, which influence this characteristic, calculated. The formulas will be in advance for every concrete biochemical characteristic according to age, gender and diagnosis of patients through the mathematical processing of a series of investigations. Every investigation exists from the assessment energetic activity the main acupuncture channels and in the parallel measurement of the blood characteristics to be determined.

you can the mathematical formulas in terms of dependence the specific biochemical blood characteristic from the level of energetic activity the characteristic influencing channels with two variants. In one case, a group of patients with the same diagnosis, of the same sex and age examined. In the other case becomes a patient in dynamics with the construction of the individual Model of dependencies examined.

The energetic activity of an acupuncture channel can be assessed by acting on the "entrance exit" point of the channel with infrared radiation. The wavelength is 780-1400 nm. The radiation is modulated in unison with the cardiac contractions in the form of rectangular pulses. The transmittance is 1.3-3.0 mWt / cm ² and the density of the capacity of the radiation is 50-400 mWt / cm ² . It assesses the degree of energetic activity of the channel according to the number of impulses from the beginning of the irradiation to the first pain sensations.

The energetic activity of the channels can also by the "pulse diagnostics" according to the data of Rhythmic cardiogram. For spectral analysis can one the dynamics of change the time periods between the particular phases of the cardiac cycle. This is the analysis of the change the time spans between the episodes of the electrocardiogram or between the tips of the pulse waves according to the data of the registry the pulse blood filling carried out. Next, the mathematical spectral analysis is performed and the wave amplitudes are within the given range of Spectrum estimated quantitatively. The changes The wave amplitudes correlate with the energetic activities of the the value of the specific blood characteristic influencing acupuncture channels.

The energetic activity of the channels can also be determined by the formulas established in advance the dependence energetic activity of the particular channel from that in the particular area of the spectrum wave amplitude found the rhythmic cardiogram become. In carrying out the Spectral analysis, it is appropriate, the in the certain proportionally equal regions of the spectrum To use values of amplitudes of a spectrum from a cardiogram of rhythm. This simplifies the method of calculations.

When Time periods between the specific phases of the cardiac cycle during the assessment the rhythm of the heart contractions by the sensor of the pulse wave The time between the peaks of the pulse waves can be used. At the assessment of the spectrogram of the heart rhythm through the ECG channel, the Periods between the R-R, P-P, or T-T spikes are used.

It It has been established that the system of channels, throughout the organism is common to the individual physiological, biochemical and combined bioenergetic systems in their entirety. That's why things are changing through the change energetic activity the particular channels the activity the associated subsystems. This affects a blood characteristic not just one channel but several channels. Therefore, for the determination the specific blood characteristic of some acupuncture channels, which usually influence this parameter safely. It became experimental determines that, for example, the value of glucose in blood at the Patients with diabetes of the first type, usually the left pancreatic duct (Rps), Liver canal (Fs) and also the right gastric canal (Ed), and renal duct (Rd) influence. The right liver canal (Fd) and the pancreatic duct (Rpd) influence the increase, especially in their hypofunction of glucose in blood.

At the Comparison of the results of the tests of the acupuncture channels with the Value of biochemical characteristic, glucose in blood, is one safe formula (model) of the compound of glucose in blood with the energetic activity the acupuncture channels determined by the determined coefficients and influence signs: Glucose in blood = 24 - 6.1 Rps + 6.4 Fd - 14 Ed - 4.0 Rd + 5.2 Rpd. The coefficients and influence signs in this basic formula at diabetes of the I type can dependent on of diagnosis, course of disease, age and gender become.

at Diabetes of the II. Type have next to the mentioned channels the stomach channels (E), small intestinal canals (IG), channels of the triple heater (TR) a big one regulators meaning. Considering the most accurate results, All regulators will be nuances by the calculations according to the received individual models.

For others Biochemical characteristics are the following for the particular Contingent of sick persons safe (1> 2,0) Models of connection of energetic activity channels The blood characteristics have been determined:

• Biochemical characteristics:
• β-lipoproteins = 32 + 0.58 VBd - 0.18 Vd - 2 Cs - 0.8 Gs - 0.4 ps
• Creatine = 60 + 4,6 IGd - 0,45 Vd - 2.2 Pd - 1 Ps - 0.33 Rd
• Cholesterol = 4.04 + 1.06 TRd - 0.74 GIs - 0.07 Vd + 0.38 Pd
• Urea = 3.3 - 4 Ps - 2,3 Pd + 15 GIs
• Sodium = 136 + 13 TRd - 14 TRs + 0.82 Vs
• Blood enzymes:
• ALT = 18+ 1.5 GIs - 0.5 Pd + 0.71 IGs - 0.3 VB's
• AST = 21 + 2.3 GIs - 1.2 Cd - 0.27 Rd
• Blutleukozytenformel:
• Lymphocyte = 22 + 1.7 GIs - 0.3 VBs - 0.22 Rd
• Monocyte = 2.2 + 0.23 GIs + 0.26Ps + 0.02 Vs - 0.3 IGd
• Neutrophils = 10 + 3.6 GIs - 0.76 Pd - 0.2 Rd
• Eosinophilic leukocyte = 0.38 + 0.12 GIs - 0.04 Pd + 0.03 TRs
• Sedimentation rate = 13.6 + 1.55 IGs - 0.98 TRs - 0.2 Pd - 0.04 RPd u. s. w.

rps is the left pancreatic duct, Fd is the right liver duct, Ed is the right gastric canal, Rd is the right renal canal, Rpd is the right pancreatic duct, GIs is the left colon, IGs is the left small intestinal canal, Pd is the right lung canal, Vbs is the left gallbladder canal, Ps is the left lung canal, C is the heart canal, Vs is the left lung Bladder channel. These models can in terms of the channels, Coefficients and influence signs depending on diagnosis, age and gender specified become.

The blood characteristic estimation method of the present invention can be realized with the aid of the special device. The device contains the body in the form of the body of a wristwatch in which there are a few blocks: the cardiac rhythm recording block, the control block, the time sensor block, the registration and processing information block, the block representing the heartbeat Information and the block of the modem for mutual connection with the base computer. Outputs of a block of registration of a cordial rhythm and the block of the time-gauge are Connected to inputs of the block of control which outputs are connected to the block of representation of information and to each other to the block of registration and processing of the information and the block of the modem.

Of the The body of the device may be in the form of a wristwatch. At the same time the block for registration of a cordial rhythm has the gauge the pulse waves, which lies on the rear surface of the corpus and with the skin of the arm root in contact comes.

Should the activity the acupuncture channels determined by the tests by means of the modulated infrared radiation be so contains the block diagram of the proposed device additionally the Block of formation of the test pulses and the infrared radiator, which are connected one after the other. Here is the entrance of the block the formation of the test pulses with the output of the block connected to the controller.

The described device differs from the known principle. For the determination of the blood characteristic, the assessment of the activity of the specific acupuncture channels participating in the regulation of blood characteristics has been used. In the device after the prototype ( US 5222495 ) the principle of an estimation of characteristics on a spectrum of certain chemical substances is used.

The assessment energetic activity the acupuncture channels can be both due to the average statistical investigations of a group of people, as well as the determination of the individual Connections are realized in the organism. In the first case investigated the group of patients of the same diagnosis, of the same age and gender. In the second case, a patient becomes dynamic several times examined. This is an individual model of the compounds educated.

On the drawings attached to the description of the invention ( 1 and 2 ) the block schemes of the invention to be proposed device are shown.

In 3 A fragment for recording of the rhythmic cardiogram spectrum analysis according to the data of the pulse measurement in the patient of Example 3 and the results of the estimation of the energetic activity of the channels is shown. On the left is placed on a spectrogram a table of activity of amplitudes on certain sites of a spectrum. The table was used in the calculation of the activity of the 24 channels. The lower part of the drawing shows the values of the activity of the acupuncture channels obtained by the calculations according to this rhythmic cardiogram.

In 4 a fragment for recording the spectral analysis of the rhythmic cardiogram from the cardiac contractions is presented, in which the rhythm of the cardiac activity was estimated after the R - R spikes of the electrocardiogram. In the left part of a rhythmogram, in the "window", results of an estimation of the characteristics of amplitudes of certain parts of a spectrum are represented also. Below are the values of the activity of the channels obtained by the calculations according to this rhythmic cardiogram.

In the tables for the energetic channels given in the description the commonly used terms are used:
P - lung canal, GI - large intestine, MC - pericardial canal, TR - the triple heater, C - cardiac, IG - small intestinal, RP - spleen and pancreatic, F - liver, E - gastric, VB - gallbladder, R - renal , V - Urinary channel, VC - Front-middle channel, VS - Rear-middle channel. Hereby Pd designates the lung canal on the right and Ps - the left lung canal, etc

THE BEST VARIANT OF REALIZATION THE INVENTION

In a particularly preferred embodiment of the invention, according to the method according to the invention, the concentration of some blood characteristics, in particular glucose, is estimated on the basis of the measurement of the energetic activity of the particular acupuncture channels. At carrying out of procedure in the first so-called "training period" multiple quantitative assessment of activity of channels and simultaneous registration of blood characteristic is carried out. Then, according to these data, an individual or group model (formula) of the connection of the channels with the blood characteristics is formed. In the second period, due to the formulas of the compound obtained, according to the Data of assessment of activity of the specific channels connected with the specific blood characteristic which calculates characteristic itself.

The Formulas in terms of dependencies level of blood characteristics of specific activity channels can according to the results of the average statistical investigations different from each other by diagnosis, age and sex Groups of people to be determined. You can also customize models for one Form patients in dynamics of the investigation. This substantially increases the Accuracy of the calculations, because such a model the individual Special features of the channels of the specific organism.

The assessment the activity of the channel can be determined by the method of determining the energetic activity be realized by the acupuncture channel, with the so-called Method of "pulse diagnostics" is connected, wherein according to the results of the assessment Characteristic of amplitudes of a spectrogram of a cordial rhythm calculated on the specific frequencies the activity of the particular channels becomes.

It is also another method of estimating activity after Data of active testing of channels possible. This is the discrete Effect on the "input - output" points from the channel Infrared radiation used. The number of test pulses is calculated until the moment of pain.

For the investigation the connection of the channels with the blood characteristics was in the diabetic patients of the o. g. Test completed. Thereafter, the blood took for determination of biochemical characteristics and leukocyte formula. Next were the test data and the laboratory biochemical Examinations of the blood, for example by the method of linear Regression, compared and formed the models of their connections. For example, the following is for different types of diabetes common model of regulation of glucose in blood (see table 1) constructed.

• R-SQ. (ADJ.) = 0.7522, (der Koeffizient der Sicherheit der Vorhersagen = 75%

In this model, which has a predictive confidence coefficient of 75%, the right hepatic duct most positively influences the increase of glucose in blood (t = 4,8). This confirms the well-known fact that glucose is built in the liver. Table 1 Derived channels coefficient Statistical error t-criterion Level of significance Independent variable coefficient Hours. error t-value sig. level CONSTANT (Const.) 23.881392 5.918608 4.0350 0.0005 RPs -6.106297 2.759818 -2.2126 0.0371 fd 6.432937 1.32788 4.8445 0.0001 Ed -13.91464 4.019018 -3.4622 0.0021 Rd -4.004711 1.893141 -2.1154 0.0454 RPd 5.202921 1.436439 3.6221 0.0014

• R-SQ. (ADJ.) = 0.7522, (the predictive confidence coefficient = 75%

From the received models also follows that the left and right channels from the same organ have opposite influence signs on the same characteristic. Studies have shown that in the same piece of tissue of the liver or pancreatic substance, the cells are present with both the right and the left torsion field components, and their activity depends on the energetic activity of the left or right branch of the eponymous channel. It has been found in experiments that the right and left liver and pancreatic ducts have the opposite influence on the level of glucose and insulin in blood. Glucose in blood is a right-sided optical isomer and the increase in its concentration in blood is associated with the liver cells and the right-sided torsion component. Thus, at a hypofunction of the right branch of a hepatic canal there is a reliable increase of Glucose takes place in blood, which is proportional to the level of hypofunction. The left branch of the liver canal is connected to the cells having a left-sided polarization torsion component. And their hypofunction leads to safe lowering of the level of glucose in blood. The similar regulatory influence of the channels on cell function also applies to the pancreatic duct. In pancreas, where only the cells with the left torsion component are present, in the hypofunction of the left branch of the pancreatic duct cells stimulate active insulin synthesis and thus lower the level of glucose in blood. The cells with the right-sided component, especially in the hypofunction of the right channel, in turn lower the level of free insulin and mediate the increase of glucose in blood. Thus, for example, at the level of channel regulation of concentration of glucose in blood in norm there is a dynamic record at the level of the right and left branches of these channels. In case of their energetic imbalance at the level of the right and left branch disturbance of regulation arises. At the same time the level of glucose in blood is proportional to the degree of energetic asymmetry of the given channel.

In In most models, the level of glucose in blood safely drops also in the right branches of the gastric and renal canals. The is most likely with the intake of food from the organism and the Loss of glucose linked by the altered renal membrane. Confirmed in such a way the entire formula of regulation at the level of channels recognized Knowledge of the origin of diabetes. And their main components also apply to the other models of dependencies for the limited diagnostic Groups.

Of the analogous mechanism of regulation also takes place in regulation the other blood characteristics.

The method according to the invention for the quantitative assessment of the blood characteristics is realized in the following way: Initially, the level of the energetic state of the channels is estimated. As a basis for the determination of the level of the energetic state of the channels, it is possible to use the data obtained in the pulse diagnosis by the pulse wave sensors or in the electrocardiography according to the results of the spectral analysis of the dynamics of the change from the time periods between the specific phases Cardiac cycle can be obtained (see RU-98106432 , published "Isobretenija" No. 1, 2000). As a spectral analysis, for example, the method of fast Fourier transform, Wevelet transformation or MUSIC method can be used.

At definition of level of an energetic state of acupuncture channels on the data of a rhythmic cardiogram for spectral analysis the dynamics of change of time periods between certain phases of a cardial cycle is used. The wave amplitudes in the regions of the spectrum whose waves are associated with the activity of the particular channels are estimated quantitatively. And through the formulas of dependencies of levels of an energetic state of channels on the given sites of a spectrum obtained in the first phase of investigation in the second phase of investigation characteristics of levels of an energetic state are determined by the interesting channels (in more detail please refer RU-98106432/14 , published "Isobretenija", No. 1, 2000).

The quantitative assessment energetic activity the acupuncture channels can after the Folla, Nakotani test u. s. w. be performed. ("Not traditional Methods of diagnosis and therapy ", Kiev," Zdorowie "(Health), 1994).

In The first phase of the examination will be blood collection, for example from the vein, made. And with the classic, common in Biocheme, methods will be the level of glucose and the others biochemical characteristics. Here are the statistical Considering the teaching groups of the patients Diagnosis, age and gender formed.

you can be the purely individual models for a patient in the dynamics to make observation. That increases significantly the accuracy of the calculations, because in such a Model individual regulators Features of channels of concrete Considered organism can be. In the course of mathematical processing, for example with the method the regression with the formation of the model, the formula becomes dependencies obtained in the second phase of the investigation after the activity the particular channels by means of calculations the level of glucose in blood and the to determine other characteristics.

To implement the method, two variants of the devices can be used. In the course of of test, with influence on the end points by means of infrared radiation, on results of an assessment of activity by certain channels by means of the general or individual formulas of communication the concentration of the interesting characteristic in blood is calculated. In another variant, if the assessment of the activity of the channels is carried out by means of the "pulse diagnostics", without active influence on the channel, the device can be designed as a block in a wristwatch. On the back cover of the clock is the sensor of the pulse wave. It helps to get the information about the heart contractions, which is further analyzed according to the spectrum. According to the formulas of the compounds, the necessary blood characteristics are calculated. The data is displayed on the monitor of the facility by means of continuous monitoring.

In 1 is the principle block diagram of the device shown, with the aid of the inventive method can be realized. The device includes the cardiac rhythm recording block (1), the control block (2), the time sensor block (3), the information registration and processing block (4), the information representing block (5). and the double-sided modem block for connection to the base computer (6). If the assessment of the activity of the acupuncture channels is carried out by the action of the infrared radiation, the block diagram additionally contains the block for forming the test pulses (7) and the infrared radiator (8) (see 2 ).

For the synchronization with the heart rhythm becomes in the course of the active test phase of the block used to register the heart rhythm based on the Sensors of the pulse blood filling as a pair of IR emitter photoreceptors or as an ECG channel with the synchronization of the test pulses for example, after the spike rash R of the ECG, designed can be. At the same time the block is registration of a cordial rhythm through the block of control with the entrance of the block to the formation connected to the test pulses. The output of the block to Formation of the test pulses is connected to the IR emitter. And the outputs of the block of control are connected to the monitor, the block of communication with the computer and each other with the block of the registry and editing the information.

verwendet. Der Block zur Verbindung mit dem Computer ist auf der Basis des infraroten hin- und zurückgerichteten Interfaces aufgebaut, das erlaubt Information in beide Richtungen zu übergeben.The block for control is provided with the keyboard for the introduction of the information. The block for registering and processing the information is on the basis of microprocessor (for example AT103 Mega) with the memory which does not depend on the energy or on the basis of the special mathematical processor. The radiator is the IR diode of the type

used. The block for connection to the computer is constructed on the basis of the infrared back-and-forth interface allowing to pass information in both directions.

The Operating principle of the device is described in the case that the assessment the activity of channels is realized by the action of the IR radiation.

In The first "teaching period" is the assessment of the Levels of activity from the acupuncture channels carried out. For that will be the test pulses of IR radiation in sync with the pulse wave by synchronizing using the IR emitter on the "input - output" points of the channel introduced. For the assessment of the Levels of energetic state of the channel becomes heat influence on the corresponding points with the electromagnetic radiation used by the infrared (IR) range.

The wavelength is 780-1400 nm. The radiation is modulated in time with the heart contractions according to the amplitude in the form of rectangular pulses. The transmittance is 1.3-3.0 mWt / cm ² and the density of the capacity of the radiation is 50-400 mWt / cm ² . The test pulses are introduced to the corresponding points in synchronism with the pulse wave (when the pulse sensor is used). The number of test pulses for each point is calculated from the beginning of the irradiation to the first pain sensations. When the channel is in the low energetic function, the number of test pulses becomes large and proportional to the hypofunction of the channel. If the channel is in the high energetic function, the number of test pulses will decrease in proportion to the overfunction level because the temperature pain threshold at these specific points is related to the activity of the channel.

All channels are tested in a specific order. The results of the testing are entered in the block for registration and processing of the information. Also included in this block are the results of the assessment of the level of glucose in blood and the other biochemical characteristics obtained by the commonly used laboratory tests. After the necessary number of parallel measurements (at assessment on 24 channels at least 25 measurements are necessary) with various methods of mathematical analysis (for example with regression method) in block for registration and processing of information (4) becomes a model from the Changes in the level of glucose in blood from the state of certain channels formed, which is shown on the display (5).

To the formation of the individual model of dependence is in the second Period "of assessment of Characteristics "the immediate calculation of biochemical characteristics possible. If that Device in the function of the assessment the characteristics is, on the display (5) the characteristics become only from the channels that certainly represents the level of specific biochemical Characteristics influence, for the model has been formed. After measurements of level energetic activity from the corresponding channels on the display (5) the value of the model to be determined Biochemical characteristics (for example, glucose in the blood) shown.

For leveling various external Factors in the assessment The biochemical characteristics of these factors can be modeled considered become. According to the obtained Data can do that Level of glucose in blood, the dose of insulin injection, the time after the injection, the outside temperature, the time of day u. s. w. influence. All of these the accuracy of the procedure increasing Details can in the model besides the characteristics of the activity of the channels. They can do that in the memory of the device be introduced through the keyboard of the block of control. Furthermore is in the device the block provided for interconnection with the computer, which is constructed for example in the form of the IR modem. In this Case can the received results with the help of special programs the support be analyzed more accurately mathematically on the base computer.

In The second period is also "self-study of the system " the exam all channels with simultaneous assessment the biochemical characteristics by means of the commonly used Laboratory methods possible. In this case, the original one Model to the changes the course of the illness and other factors (for example the season) constantly customized. By such comparisons and storage of the information the accuracy of the model can be constantly improved.

The Setup can work without first phase. In this case the models will be based on the average statistical data Analysis considering diagnosis, age, gender and other characteristics educated. In this case, you can they are stored in the facility or computer, of which they are through the modem of the connection (6) can be brought into the device.

In addition, can When using the static models, the "teaching period" can be significantly shortened. To the example for the assessment Glucose in blood has channels of liver, pancreas, kidneys and stomach's the biggest meaning. In this case, the number of channels to be tested can be shortened to 4-6. In this case, the period of "individual teaching" is after 6-7 tests completed.

The following concrete practical examples for the evaluation of the biochemical characteristics explain the invention:

Example 1.

Of the Sick J., 49 years old, suffers from diabetes of the 1st type. The glucose correction is carried out by means of insulin injections. In the morning on sober Stomach, before insulin injection was the number of testifying Impulses for calculated each channel. The investigations were carried out on the apparatus "EMI" m-11.

simultaneously was the blood from the vein for taken the biochemical analysis. Here, glucose in blood was 8,2 mmol / L, β-lipoproteins - 34 units, Creatine - 64 mkMol / L and cholesterol - 5.1 mmol / L.

• R-SQ. (ADJ.) = 0.7522 SE = 8.393783 MAE = 5.667226 DurbWat = 1.814

Because the temperature pain threshold may differ significantly in different patients, the average statistical formula for the particular contingent for leveling these factors was calculated according to the scaled characteristics. For this, the sum of the values of 24 channels of each channel used in the model (in this case it is equal to 168) and the arithmetic mean (it is equal to 7) is calculated. Then, each characteristic is divided by the channels by the arithmetic mean. The result obtained is used in the formula. For women of the same age group suffering from diabetes of the I type, the formula of dependence of level of glucose in blood on a condition of channels in table 2 is specified. Table 2 Derived channels coefficient Statistical error t-criterion Level of significance Independent variable coefficient Hours. error t-value sig. level CONSTANT 23.881392 5.918608 4.0350 0.0005 RPs -6.106297 2.759818 -2.2126 0.0371 fd 6.432937 1.32788 4.8445 0.0001 Ed -13.91464 4.019018 -3.4622 0.0021 Rd -4.004711 1.893141 -2.1154 0.0454 RPd 5.202921 1.436439 3.6221 0.0014

• R-SQ. (ADJ.) = 0.7522 SE = 8.393783 MAE = 5.667226 DurbWat = 1.814

• Glykose = 23,8 – 6,1 × 1,42 + 6,4 × 0,71 – 13,9 × 1 – 4 × 1,14 + 5,2 × 1,28 = 7,9 m Mol/IL

Using the scaled values of each channel operating in the model we get:

• Glycose = 23.8 - 6.1 x 1.42 + 6.4 x 0.71 - 13.9 x 1 - 4 x 1.14 + 5.2 x 1.28 = 7.9 moles / IL

• β-Lipoproteine, = 32 + 0,58 VBd – 0,18 Vd – 2 Cs – 0,8 Gis – 0,4 Ps
• Cholesterin = 4,04 + 1,06 TRd – 0,74 Gis – 0,07 Vd + 0.38 Pd
• Kreatin: = 60 + 4,6 Igd – 0,45 Vd – 2,2 Pd – 1 Ps – 0,33 Rd

At the same time, according to the average statistical formula, the level of β-lipoproteins, cholesterol and creatine is calculated

• β-lipoproteins, = 32 + 0.58 VBd-0.18 Vd-2 Cs-0.8 Gis-0.4 Ps
• Cholesterol = 4.04 + 1.06 TRd - 0.74 Gis - 0.07 Vd + 0.38 Pd
• Creatine: = 60 + 4.6 Igd - 0.45 Vd - 2.2 Pd - 1 Ps - 0.33 Rd

• β-Lipoproteine = 32 + 0,74 – 0,33 – 1,42 – 0,56 – 0,34 = 30 Einheiten
• Cholesterin = 4,04 + 0,75 – 0,52 – 0,13 + 0,38 = 5,25 mMol/L
• Kreatin = 60 + 3,2 – 0,83 – 2,2 – 0,85 – 0,38 = 59 mkMol/L

Using the scale values in the formula, we get:

• β-lipoproteins = 32 + 0.74 - 0.33 - 1.42 - 0.56 - 0.34 = 30 units
• Cholesterol = 4.04 + 0.75 - 0.52 - 0.13 + 0.38 = 5.25 mmol / L
• Creatine = 60 + 3.2 - 0.83 - 2.2 - 0.85 - 0.38 = 59 mcoles / L

On Such are the results with the method according to the invention been obtained, similar by the commonly used Methods are obtained results.

Example 2.

In contrast to the previous example (if the calculations are based on the average models according to the statistical groups depending on age, gender, type of diabetes) an individual model is used in this case. For this, the patient is at least 25 times tested. At the same time, glucose in blood is determined with the individual glucometer. In Table 3 the model of such individual regulation of channels of glucose in blood is specified. The model has been obtained with the method of linear regression with the help of the package of programs "STATGRAPHICS" at the patient S., 52 years old, suffering from diabetes of the II type for more than 28 years. Table 3

• R-SQ. (ADJ.) = 0.8275 SE = 4.848804 MAE = 3.733570 DurbWat = 1,408 25 observations.

• Glukose in Blut = 30,4 – 7,2 RPs + 11 Fd – 14,8 Fs – 5,5 Ed – 7 Rd

The coefficient of safety of predictions from the model is 83% At the same time the formula of glucose regulation is:

• Glucose in blood = 30.4 - 7.2 RPs + 11 Fd - 14.8 Fs - 5.5 Ed - 7 Rd

Example 3

Of the Patient L., 41 years old, suffers from diabetes of the 1st type. The activity of the channels and the Level of glucose in blood was measured with the help of pulse diagnostics estimated according to the frequency spectrograms of the heart rhythm. there was the information about the heart rhythm from the sensor of the pulse wave at the carpal introduced. The dynamic assessment of the spectrum of the rhythm cardiogram became fast Fourier transformation realized. Before were through the comparison Characteristics of amplitude from a spectrum with results the assessment the activity of the channels the specific frequency components of the spectrum, their activity with the activity the particular channels connected, and established the models of these compounds been formed. In this way you can get the formula of these compounds after the activity Considering the amplitudes on certain areas of the spectrum also the level of activity of the channels to calculate. In

3 The fragment of the record of the spectral analysis from the cardiogram of rhythm on data of pulseometry at the said patient and results of an estimation of activity of channels received by the named method is represented. On the same drawing there is a table of activity of amplitude of a spectrogram on certain parts of the spectrum which was further used for calculation of activity of 24 channels. At the bottom of the drawing, the values of the activity of the channels obtained by the calculations according to the indicated spectrogram shown in Table 4 are given: TABLE 4 page P GI MC TR C IG RP F e VB R V right 14 10 7 6 8th 5 7 9 9 10 10 10 left 9 11 6 8th 13 10 8th 8th 6 10 10 19

• Glukose in Blut = 3,8 + 10,4 – 11,7 + 5,9 – 3,24 = 6,2 mMol/L.

For calculations on individual models the values of channel activity characteristics not taken in scale were used. When inserted into the formula you got:

• Glucose in blood = 3.8 + 10.4 - 11.7 + 5.9 - 3.24 = 6.2 mmol / L.

The Result of control measurement of the level of glucose after analysis of the blood from the finger was 5.7 mmol / L.

On one of days also the other record of a spectrum was made by the Rhythmic cardiogram in which the rhythm of cordial activity on the R-R spikes of the electrocardiogram was estimated. The fragment of the record of the spectrogram from the cardiac contractions with the assessment of the characteristics of the amplitudes from the spectrum and calculation of the activity of the channels is shown on the drawing ( 4 ). The quantitative activity of the channels is given in Table 7: TABLE 5 page P GI MC TR C IG RP F e VB R V right 15 19 10 11 12 10 9 13 13 9 14 12 left 17 22 11 12 8th 12 5 6 9 12 18 20th

• Glukose in Blut = 3,8 + 15 – 8,7 + 6,2 – 3,3 = 13 mMol/L

The assessment of glucose level was carried out on the previous model. The following values have been obtained:

• Glucose in blood = 3.8 + 15 - 8.7 + 6.2 - 3.3 = 13 mmol / L

at In the control analysis, the close value of 14.1 mmol / L has been obtained.

Example 4.

• Glukose in Blut = 11 – 4,1 VC + 13,8 F – 9,2 E

The patient G., 66 years old. suffers from diabetes of the II. type. Along with the estimation at the level of the right and left branches of the main channels, calculations were carried out on the individual model with the registration of the summary values of the left and right branches of the channels and with the registration of the values of the front-middle channel (VC). The results have been obtained:

• Glucose in blood = 11 - 4.1 VC + 13.8 F - 9.2 E

The results of the testing of the channels are given in Table 8. Table 6 page P GI MC TR C IG RP F e VB R V right 9 12 8th 8th 9 9 32 12 7 18 9 24 left 7 9 6 7 10 8th 19 9 6 13 10 20

• Glukose in Blut = 11 – 1,3 + 13,8 – 5,7 = 17,8 mMol/L

The value of the front-middle channel VC = 7, the value of the rear-middle channel VS = 6. The sum of 26 channels = 294. Further, the arithmetic mean is determined after 14 channels (= 21). Then the scaled values are put into the formula:

• Glucose in blood = 11 - 1.3 + 13.8 - 5.7 = 17.8 mmol / L

Corresponding The results of the biochemical examination is the level of Glucose in blood 17.0 mmol / L.

The Calculation of the level of ionized sodium became as follows Formula performed:

• Na = 136 + 13 TRd - 14 TRs + 0.82 Vs

To Inserting the in scale Values taken into the formula are:

• Na = 136 + 8.84 - 8.4 + 1.7 = 138 mmol / L

Corresponding The results of biochemical investigations is the level of Sodium 141 mmol / L.

These Method of assessment also allows monitoring of other biochemical characteristics at the same time in the course of 24 hours.

Example 5

• Glukose = 12 + 0,26 Es + 0,37 Igd + 0,09 Rs – 0,53 Fs – 0,54 Igs – 0,04 Vd

Patient I, 49, suffers from II type diabetes. The patient receives diet treatment. For the assessment of the level of glucose in blood, an individual model was used:

• Glucose = 12 + 0.26 Es + 0.37 Igd + 0.09 Rs - 0.53 Fs - 0.54 Igs - 0.04 Vd

The Calculation was done on off-scale characteristics carried out.

• Glukose = 12 + 1,3 + 1,11 + 0,45 – 2,65 – 1,62 – 0,44 = 10,1 mMol/L

After inserting the test values into the model you get:

• Glucose = 12 + 1.3 + 1.11 + 0.45 - 2.65 - 1.62 - 0.44 = 10.1 mmol / L

at the control measurement is the value of sugar of 10.6 mmol / L obtained Service.

• Leukozyte = 2,93 + 0,63 Cd + 0,04 RPd – 0,26 MCd – 0,13 Gis + 0,02 Vd
• Erytrozyte = 4,1 + 0,02 Vd + 0,34 Cd – 0,14 MCd – 0,07 Gid + 0,02 RPd
• Blutsenkungsgeschwindigkeit = 13,6 + 1,55 Igs – 0,98 TRs – 0,2 Pd – 0,04 RPd

At the same time, according to the test results, some characteristics of the blood were calculated according to the following formulas obtained from the group of patients with the same diagnosis:

• Leukocyte = 2.93 + 0.63 Cd + 0.04 RPd - 0.26 MCd - 0.13 Gis + 0.02 Vd
• Erytrocyte = 4.1 + 0.02 Vd + 0.34 Cd - 0.14 MCd - 0.07 Gid + 0.02 RPd
• Sedimentation rate = 13.6 + 1.55 Igs - 0.98 TRs - 0.2 Pd - 0.04 RPd

• Leukozyte = 2,93 + 1,9 + 0,32 – 0,78 – 0,39 + 0,22 = 4,2tausend
• Erytrozyte = 4,1 + 0,22 + 1,02 – 0,42 – 0,28 + 0,16 = 4,8tausend
• Blutsenkungsgeschwindigkeit = 13,6 + 4,65 – 3,9 – 1,4 – 0,32 = 12 mm/Stunde

For the calculation, the non-scaled characteristics were used. After the calculations, the following values were obtained:

• Leukocyte = 2.93 + 1.9 + 0.32 - 0.78 - 0.39 + 0.22 = 4.2 thousand
• Erytrocyte = 4.1 + 0.22 + 1.02 - 0.42 - 0.28 + 0.16 = 4.8 thousand
• Sedimentation rate = 13.6 + 4.65 - 3.9 - 1.4 - 0.32 = 12 mm / hour

at the control measurement by means of the blood analysis are the following values the blood formula has been obtained: leukocyte - 4.4 thousand, erythrocyte - 4.5 thousand, Rate of erosion - 10 mm / hour.

In In the examples mentioned, the models used by the Method of linear regression had been obtained. among them are the most studied compounds, especially at the borders of the area not linear. That's why you can use it the method of non-linear analysis the accuracies of the calculations increase significantly. To the accuracy of the assessment of the level of energetic state of the channels is synchronizing the test effects of the IR pulses on the corresponding ones Points of the channels performed with the heart rhythm Service. In this case, the testing impulses get ours Investigations into the different phases of the cyclic change the activity the acupuncture channels. According to that, the average was obtained during the tests Characteristic of the activity of the channel, which repeats itself well in dynamics of observation.

The according to the invention, not invasive method and the device for its realization allow due the assessment energetic activity the particular acupuncture channels concentration of some characteristics of blood, in particular of glucose. The inventive method is in practice, especially in one of the hospitals of St.Petersburg in Russia, approved. Through the years 1998-1999 it is more at determination of characteristics of blood more used as 250 patients.

The inventive method is easy and allows you to get reliable results. The device for the Realization of non-invasive method of definition of characteristics Blood is convenient and can be used in everyday practice by professionals become.

Claims (7)

A method for determining blood characteristics, wherein the energetic activity of the acupuncture channels of a patient is quantitatively estimated and the blood characteristics are calculated based on the mathematical formulas with respect to the dependence of the biochemical characteristic of the level of activity of the acupuncture channels that affect this characteristic and wherein the formulas in advance for each concrete biochemical characteristic according to age, sex and the diagnosis of patients through mathematical processing of one set of examinations and each investigation from an assessment of energetic activity of the main acupuncture channels by the method of "Pulse diagnostics" on data of a rhythmic cardiogram, where for the spectral analysis the dynamics the change in the time periods between the specific phases of the cardiac cycle in an electrocardiogram and the parallel measurement of the blood characteristics to be determined is. Method according to claim 1, characterized in that that for the preservation of mathematical formulas in terms of dependence Characteristic of energetic activity of certain energy channels Examination of the group of patients of the same diagnosis, same Age and sex performed becomes. Method according to claim 1, characterized in that that for the preservation of mathematical formulas in terms of dependence a characteristic of energetic activity of certain acupuncture channels Series investigations of patients in dynamics is performed. Method according to claim 3, characterized that the energetic activity of the acupuncture channel according to the data of the rhythm cardiogram and that for the spectral analysis the dynamics of changing the time periods between the particular phases of the cardiac cycle is used, the wave amplitudes be estimated quantitatively in the ranges of the spectrum, their wave amplitudes with the activities of the value of the to be determined Characteristics influencing channels correlate and where the Characteristics of energetic activity of acupuncture channels by means of the pre-calculated formulas in terms of dependency the activity the acupuncture channels be determined by the amplitudes of the specific spectrum waves. Method according to claim 4, characterized in that that for the calculation of the blood characteristic the values of the amplitude of the Spectrum are used, which in the particular proportionally same Regions of the spectrogram lie. Method according to claim 5, characterized in that that in the spectral analysis of the heart rhythm as time periods between the specific phases of the heart rhythm the R-R, P-P or T-T intervals of the electrocardiogram. Method according to claim 5, characterized in that that in spectral analysis as intervals between the given Phases of the heart rhythm the periods between the tips of the Pulse waves are used.