RU25991U1 - DEVICE FOR DIAGNOSTIC OF THE STATE OF THE ORGANISM - Google Patents

Description

Authors - Dobkes Alexander Lvovich, MKI: А61В 5/00; 5/02; 5/04; 5/05.

A method for diagnosing the state of the body and a device for its implementation.

The invention relates to medical equipment, and in particular to systems for conducting automated diagnostics of the state of an organism and, in particular, to methods and devices implementing these methods for automated diagnostics of an organism condition.

Known methods for diagnosing the state of the body and known devices for implementing these methods 1-6. Diagnosis of the state of the body by known methods and devices for their implementation is carried out on the basis of obtaining and interpreting data about the diagnosed organism using computer technology. So, according to patents 1-6, the diagnostic method is carried out by entering data on the body into the computer, storing, programmatically processing the received data according to the given algorithms and displaying the results of the processed data. The method is implemented by a device, which includes a computer with appropriate software tools and algorithms for collecting and processing data. The computer is connected to an input device and to an information presentation device. Through the input device, data about the body is entered into the computer. The information presentation device provides the output of diagnostic analysis results. These blocks in conjunction with software tools implement various diagnostic algorithms and allow you to formalize and automate the diagnostic process.

However, the use of known devices that implement known methods for diagnosing the state of the body does not allow diagnostics taking into account exogenous factors that affect the state of the body and assess this effect on the state of the body. In many cases, this drawback does not allow a more reliable diagnosis of the condition and determine the cause of deviations of the state of the body from the normal state. Diagnostic interpretation algorithms that reflect the results of the analysis of the state of the body, which do not have data and do not take into account indicators of exogenous factors that influence the state of the body, can give erroneous results Rubin Alexander Mikhailovich, Chashchin Alexander Vasilievich.

you. For this reason, medical reports, the choice of tactics for therapeutic and preventive measures, and the prognosis of subsequent changes in the patient’s condition can also be erroneous or unreliable.

The closest, in technical essence, to the claimed method and device for its implementation is a device that implements the diagnostic method of the condition of Patent 7. According to Patent 7, the device comprises a computer connected to a patient data input device and to an information output device for presenting processing results . This device configuration allows various diagnostic algorithms to be performed based on the data collected about the patient. The diagnostic method according to patent 7 is based on obtaining data about the body. It involves collecting patient data by measuring predetermined physiological parameters, and comparing parameter values with data stored in electronic memory.

However, the method and device for its implementation proposed in the patent 7 also does not allow to diagnose the state of the body, taking into account exogenous factors that affect the state of the body and with an assessment of this effect on the state of the body. This reduces the reliability of the diagnosis and does not allow to determine the true causes of the deviation of the state of the organism from the normal state. For this reason, it is also not possible to give a reliable medical opinion about the state of the body, to make a more reliable prognosis of subsequent changes in the state of the body and to choose the right tactics of therapeutic and preventive measures.

Significant exogenous factors affecting the state of the body include environmental factors (climatic and environmental), factors of solar activity, the state of natural and artificial electromagnetic background, factors of psychoemotional effects, and many others. For example, it is known that under the influence of climatic factors on the human body, such physical parameters of the state of the environment as the level of atmospheric pressure, the value of electric and magnetic fields, the level of radioactivity, wind speed and direction, air humidity, the nature of solar radiation, the amount and the ratio of negative and positive air ions, dustiness and the presence of aerosols in the air, and others 8-11. There is a relationship between the state of the organism and the state of the ecological environment of the habitat. The influence of changes in solar activity on the occurrence of a number of diseases in humans and animals has been established. The connection between the occurrence of epidemics and epizootics, exacerbations and mental illness with changes in solar activity. There is evidence of the effect of the state of natural and artificial electromagnetic background on the state of the body.

It seems advisable that a device that implements a diagnostic method by collecting, subsequent analysis and processing of data on the body, allows for a more reliable diagnosis of the state of the body, taking into account the influence of exogenous factors, and the assessment of this effect on the state of the body.

The aim of the invention is to increase the reliability of diagnosis by taking into account exogenous factors affecting the state of the body.

This goal is achieved by the fact that the method of diagnosing the state of the body, according to which, when taking biosignals from the body, converting these signals, entering data about the body into a computer, storing and processing the information received in a program that compares data with diagnostic thresholds, and displays the results processed data, additionally includes entering into the computer data on exogenous factors that affect the state of the body, and, taking into account the values of exogenous factors, change the conditions for obtaining data about the diagnosed organism, and / or change the order of the diagnostic study, or / and adjust the diagnostic thresholds.

To implement the proposed diagnostic method, it is proposed: in a device containing a computer, a biosignal acquisition unit, a signal conversion and input unit for the computer, and an information presentation unit, additionally include an information exogenous factor information acquisition unit that affects the state of the body connected to the conversion unit and entering information into a computer.

In the process of patent research, no technical solutions with features similar in features distinguishing the claimed solution from the prototype were found. Therefore, the proposed technical solution meets the criterion of significant differences.

In FIG. 1 shows a structural diagram of a device for implementing a method for diagnosing an organism condition. Figure 2 shows an embodiment of a device that implements the inventive method for diagnosing the condition of the body. In Fig. 3 shows an example of a device that implements the inventive method for diagnosing the condition of the body. Figure 4 shows the results

one of the diagnostic studies carried out by the claimed method.

The device (Fig. 1) contains a block 1 of sensors for acquiring information from the body and a block 2 for obtaining information about exogenous factors, which are connected through a block 3 for signal conversion with the input of a computer 4 connected to the block 5 for presenting information.

Block 1 of sensors for acquiring information from the body of the body provides the primary conversion of biosignals carrying data on the functioning of the body into electrical signals. Block 1 can be made in the form of a set of known sensors, for example, electrocardiographic electrodes, electrodes for rheographic measurements, sensors for phonocardiography, a respiratory sensor, a pulse oximetric sensor, a shoulder cuff connected to a pressure sensor for measuring blood pressure, and many other types of sensors. The composition of the block 1 sensors information retrieval is completed depending on the procedure for diagnostic studies.

The information obtaining unit 2 provides the conversion of signals carrying information about exogenous factors. Block 2 can be made in the form of known sensors for the primary conversion of signals characterizing the state of exogenous factors into electrical signals. Examples of such sensors can be electronic sensors of temperature, pressure and humidity of the atmospheric air, a sensor of electromagnetic fields, a dust sensor and many others. In addition, the information obtaining unit 2 can be made in the form of an information computer data exchange network, which computer 4 can access. On this network, using the necessary software, calls to the corresponding servers can be implemented with requests for issuing the required information. Computer 4 at the same time is a receiver and accumulator of data on exogenous factors affecting the state of the body. An example of the implementation of such information exchanges is the well-known Internet. On the Internet, you can receive information from various specialized organizations. For example, data on climatic environmental factors are from the Russian State Hydrometeorological University, data on the state of solar activity are from the Astrophysical Observatory of the RAS and Geophysical Observatory named after A.I. Voeykova, data on the activity of the geomagnetic field of the Earth - from the Institute of Terrestrial Magnetism, etc.

Block 3 signal conversion provides the conversion of input signals and their coordination according to the conditions of input into computer 4. In cases of communication with the lines of computer information networks, block 3 must include known mandatory devices that provide such communication, for example, a modem, communication line and others .

Computer 4 is designed to carry out a diagnostic procedure according to the specified algorithms, including collecting, accumulating and processing data on the state of the body, collecting accumulation and recording of data on exogenous factors affecting the state of the body, and diagnostic interpretation based on available and obtained data. Computer 4 can be replaced by known microprocessor devices, with an additional set of matching devices and software tools.

The information submission unit 5 is intended to display the progress and results of diagnostic procedures. As the information presentation unit 5, it is convenient to use a computer monitor 4, and / or a printer. External displays can also be used.

The proposed device (figure 1) for implementing the method for diagnosing the state of the body operates as follows.

In accordance with the accepted examination methodology, the sensors of the information acquisition unit 1 are located on the body of the body, which provide the removal of biosignals characterizing the functioning of the examined body systems. The signals removed from the body of the body from the sensors of unit 1 are transferred to the conversion and matching unit 3, where they are converted and matched according to the requirements for the signals input to computer 4. Signals from the output of information block 2, providing computer 4 with data on exogenous factors affecting the body also arrive at block 3 conversion and coordination. After carrying out preparatory actions, a diagnostic program is launched. The execution of the diagnostic program provides for the accumulation in the computer memory 4 of data on signals received from the body at its input and on exogenous factors affecting the body. In the case of obtaining information about exogenous factors through the information computer network (Fig. 2), a program-controlled request is made to the corresponding server, receiving and accumulating the required information about exogenous factors affecting the state of the body. During processing in computer 4 of the obtained data, an assessment of exogenous factors affecting the state of the body is performed. Subject to assessment

exogenous factors, situational diagnostic thresholds are adjusted, based on the results of comparison with which diagnostic interpretation of the data is performed. The results of the diagnostic determination and exogenous factors affecting the state of the body, as well as the corrective corrections made by the diagnostic program, are displayed by the information submission unit 5. If it is impossible to carry out diagnostic determinations in the prevailing diagnostic situations, information is sent to block 5 of the presentation, giving a message about this and indicating the reason. In addition, in order to indicate ways to continue the diagnostic procedure, a proposal is displayed on the presentation device to change the conditions for obtaining data about the diagnosed organism, or / and to change the order of the diagnostic study.

Thus, the result of an automated diagnostic test is information on the state of the body, presented by block 5. The content of the information taken into account exogenous factors affecting the state of the body. Therefore, the results obtained are more comprehensive and reliable. As a result, the results obtained can reveal or exclude situations in which exogenous factors affecting the state of the body provoke the occurrence or alter the course of the existing pathological process, and also allow timely identification of risk factors for exacerbation of the pathological process, in the form of an adaptive reaction of the body, occurring against the background of the existing pathology, on the impact of exogenous factors.

Thus, the task of increasing the reliability of diagnosing the state of the body by taking into account exogenous factors affecting the state of the body is solved.

Example. The hardware-software complex Valenta (Fig. 3), produced by the Scientific Research Institute of Neo-Neuropathy (St. Petersburg), is designed to assess the functional state of the cardiovascular, respiratory and neuro-regulatory systems of the human body. The complex provides recording, measurement, interpretation and storage of electrocardiographic, rheographic and spirographic signals. The measurements are carried out using the sensors of the unit 1 information retrieval. The delivery set includes electrocardiographic and rheographic electrodes, a respiratory sensor, a sensor for phonocardiography and others, as well as a software package for various medical diagnostic tests. Based on these measurements and included in the complex of control and data processing programs, a number of well-known

methods and techniques of diagnostic research. The complex implements diagnostic studies using electrocardiography (ECG), rheography (REO), mechanocardiography (phonocardiography FKG), and spirometry (external respiratory function of FVD). The complex is based on computer 4 and provides automated signal processing. In addition, in the Valent complex (FIG. 3), there is a connection between the computer 4 and the information receiving unit 2. Data on the values of exogenous factors is entered via the computer keyboard, or from block 2. Block 2 is equipped with electronic sensors for temperature, pressure, and humidity, which measure the state of the environment surrounding the atmosphere. It also provides for the connection of block 2 with the line of information-computer communication Internet, through which an external request is made and information is obtained on exogenous factors affecting the state of the diagnosed organism. The signal coordination of the communication of computer 4 with the sensors of block 1 and with block 2 is carried out by means of a converter block 3. All information related to the progress of the diagnostic procedure carried out by the Valent system (Fig. 3) is presented on the screen of monitor 5, which is part of computer 4. Figure 4 shows an example of data entry on exogenous factors (temperature, pressure and humidity). These data are taken into account when assessing hemodynamic parameters and airway patency of the body. In particular, on the basis of the known data 9, the range of the Norm of change of the RI reographic index is changed by 0.2 units and the duration of the ascending and descending phases of the wave is increased by 0.3 and 0.8, respectively. If it is necessary to compare the diagnostic results, taking into account the influence of exogenous factors on the state of the body, with the results, in which their influence is not taken into account, the program provides the possibility of choosing the appropriate data processing options.

Claim.

item 1. A method for diagnosing the state of an organism, according to which, during the diagnostic study, data are collected and accumulated on the diagnosed organism, and a diagnostic interpretation is carried out, which involves comparing data with diagnostic thresholds, characterized in that, in order to increase the reliability of the diagnosis, data are collected, evaluated and accumulated about exogenous factors affecting the state of the body, and, taking into account the values of exogenous factors, change the conditions for obtaining data on the diagnosed organ Lowland, and / or change the order of execution of the diagnostic studies, and / or adjust diagnostic thresholds.

item 2. The method for diagnosing the state of an organism according to claim 1, characterized in that the diagnostic thresholds are synthesized in relation to the diagnosed situation using the database of accumulated data.

P.Z. The method for diagnosing the state of an organism according to claim 1, characterized in that data on exogenous factors affecting the state of the organism are obtained through an information computer network.

item 4. A method for diagnosing the state of an organism according to claim 2, 3, characterized in that they use databases of spatially separated collection and storage systems.

P.Z. A device for diagnosing an organism’s condition, comprising a unit for discharging information from the body of the body, connected via a conversion unit to a computer, which is connected to an information presentation device, characterized in that, in order to increase the reliability of diagnosis, an additional unit for discharging information on exogenous factors affecting the body connected to the conversion unit.

item 6. A device for diagnosing an organism condition according to claim 4, characterized in that the computer has access to an information computer network for exchanging data.

Authors: "/ / DobkesA.L.,

/ Rubin A.M., / Chashchin A.V.

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9.Nikberg I.I. Heliometeotropic human reactions. 1986.

10. A guide to the compilation of medical weather forecasts and the comprehensive prevention of meteotropic reactions. Russian State Medical University. M. 1997.

11.Boksha V.G. Medical climatology and climatotherapy. M. 1980

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Claims (2)

1. A device for diagnosing the state of an organism, comprising a unit for discharging information from the body of the body, connected via a conversion unit to a computer, which is connected to a device for presenting information, characterized in that an additional unit for discharging information about exogenous factors affecting the body is connected to it with converter box. 2. A device for diagnosing the state of an organism according to claim 2, characterized in that the computer has access to an information computer network for exchanging data.