RU2558453C1 - Hardware/software complex for assessing functional body reserves and risk of developing common non-infectious diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, diagnostics, can be used for the comprehensive screening assessment of patient's health. A hardware/software complex for assessing the functional body reserves comprises at least one patient's terminal device (TD) that is a computed with downloaded psychological testing software, a data store with patient's data bases (DB) containing anthropometric measures, test results, test data bases, data bases of text, image and audio objects used in tests. The patient's TD has a computer mouse configured to select and move an image object from one position to the other on the monitor during testing; it is also provided with boards and loudspeakers for audio signal reproduction, video card boards for image data reproduction during testing and/or according to its results. A doctor's TD is coupled by wire or wireless connection to the patient's TD and comprises: a heart rate variability analyser unit configured to estimate a cardiointervalogram recognising R waves, calculating a heart rate and a quantity of considered R-R intervals and variability parameters; an internal media bioimpedancemetry unit configured to assess the body composition; a spirometry unit configured to assess the external respiration function; a blood circulation parameters oscillometry analyser unit configured to assess the central haemodynamics; a pulse oxyhaemometer unit configured to estimate a photoplethysmogram. The units are configured to connect the respective sensors to the patient to obtain the respective patient's criteria through an analogue-digital converter (ADC). All the patient's physiological and psychological parameters obtained by the examination are supplied into an analytical processing unit configured to transform the obtained parameters into a unified ten-point scale and to form integral values to assess the functional body reserves.

EFFECT: invention provides the fast and adequate health assessment in individuals of various categories in any environments with using no additional equipment, with the integral quantity assessment of the human functional body reserves according to primary systems, unifying the assessment of the functional reserves, compactness, transportability and producibility of examinations.

7 cl

Description

The invention relates to medicine, in particular to diagnostics, and can be used for a comprehensive assessment of the health status of patients in medical institutions, rehabilitation centers, sanatoriums, clinics and other medical institutions during screening assessment of the functional state of the body during the medical examination.

One of the most important tasks in the field of human health is the development of technologies for assessing the functional reserves of the human body and algorithms for identifying individuals at risk of developing common diseases. Indeed, the enormous social role of assessing the reserves (resource) of health and its monitoring is carried out with the aim of early detection of dysfunctions associated with social and industrial activities of a person and preventing the development of the pathological process. General requirements for monitoring the health status of a population follow from the fact that it should cover various professional and age groups of the population, be aimed, first of all, at maintaining an optimal functional state of a person and ensure active prevention and rehabilitation of detected dysfunctions (A. Razumov, Bobrovnitsky I.P., 2010).

Known diagnostic medical hardware-software complex containing a series-connected registration unit and a diagnostic unit with an electropuncture diagnostics system and a printer, while the electropuncture diagnostics system includes subsystems of electropuncture diagnostics at measurement control points (CTI), along meridians and functional systems, characterized in that it additionally contains a block of prescriptions and recommendations of a doctor, a block of preliminary electro-puncture diagnosis and differential diagnostic unit, a unit for comparing examination results and a unit for drug testing, while the diagnostic unit additionally includes systems of clinical iridodiagnosis, psychophysiological diagnostics and functional diagnostics with subsystems of the omega-potential of the brain and variational pulsometry, and the electropuncture diagnostic system of the diagnostic unit additionally contains a subsystem of electropuncture diagnosis of diseases according to various diagnostic algorithms, preliminary block The electropuncture diagnosis and differential diagnosis contains a CT analysis system with analysis subsystems according to meridians, functional systems, a diagram, relationships and biologically active points (BAP) for selected diseases, while the relationship analysis subsystem contains activating and inhibiting relationships, syndromes ″ emptiness ″ and ″ completeness ″, in cycles ″ y-syn ″ - deficiency and ″ y-syn ″ - excess, in a large circle of energy movement ″ lack ″ and in a large circle of energy movement ″ excess current ″, the unit for comparing the results of the examination contains the following systems: a doctor’s guide, a drug guide and a measurement guide, a drug testing unit contains ampoule and electronic selectors docked through the system interface with the ″ DETA ″ diagnostic and therapeutic device, and the doctor’s prescription and recommendations block contains systems of electro-frequency therapy with a subsystem physician reference book for electro-frequency therapy, bioresonance therapy with a subsystem physician reference book for bioresonance therapy, phytotherapy AI, dietetics, balneology and physiotherapy exercises (LFK), while the diagnostic unit, the unit for preliminary electro-puncture diagnosis and differential diagnosis, the unit for comparing the results of the examination, the unit for drug testing, the unit for appointments and recommendations of the doctor, and the printer are connected in series, one of the outputs of the unit for appointments and The doctor’s recommendations are connected to the input of the registration unit, and one of the outputs of the unit for comparing the results of the examination is connected to one of the inputs of the diagnostic unit (RU No. 96118342).

The disadvantage of this complex is the narrow focus of the proposed methods, which does not allow us to assess the functional state of the organism as a whole.

There is a method of assessing the functional state of the human body by the method implemented in the hardware-software complex "Integral health indicator". It includes the study of the adaptive and reserve capabilities of the body, the state of the cardiovascular, respiratory, central nervous systems, autonomic homeostasis, and psychoemotional status.

The following indicators are used in the program to assess the conditions and lifestyle: the adequacy of nutrition; mode of work and rest; physical activity; stressful environment, including self-awareness in society; bad habits.

The “Integral Health Indicator” program (hereinafter: the Program) is intended for the quantitative determination of human health reserves based on objective research results. The Program implements the principle of the unity of the visceral and psycho-emotional spheres of the body, an integrated approach to assessing health. The opportunities provided by the Program for the presentation and preservation of research results allow dynamic monitoring of the state of health with an analysis of the influence of environmental factors and human lifestyles on it.

Diagnostics of individual health reserves using the Integral Health Indicator hardware and software system is based on a set of studies: 1) assessing the state of nonspecific adaptive reserves of the body using variational cardiointervalometry with a mathematical analysis of heart rhythm (according to the method of P.M. Baevsky et al.); 2) rapid assessment of the level of physical condition (according to the method of G.L. Apanasenko); 3) assessment of the functional state of the central nervous system (CNS) according to the parameters of the visual-motor reaction (according to the method of T. D. Loskutova); 4) determination of the psychoemotional state using the Luscher colorimetric test; 5) self-assessment test of the psychophysical state of SAN (health-activity-mood).

The implementation of this standard set of tests is sufficient to correctly determine the integral indicator of health and its components. The first three tests constitute a unit for assessing somatic health, and the last two relate to the psychological sphere. The program also allows you to supplement the examination with an assessment of physical performance (Harvard step test, PWC-170 test) in the absence of contraindications to submaximal stress tests.

As a result of mathematical processing of data obtained during the performance of individual tests, the program calculates the following main indicators:

- The indicator of activity of regulatory systems (PARS), measured in points, characterizing the adaptive ability of the cardiovascular system;

- The stress index (in arbitrary units), which is one of the important parameters for assessing vegetative tone and is used in calculating PARS;

- Level of physical abilities (in points);

- Functional reserves of the central nervous system (%);

- Levels of anxiety, emotional stability and ability to overcome stress;

- Indicators of well-being, activity, mood and overall self-esteem (%).

These data, in turn, are subjected to mathematical processing by the Program, as a result of which they are calculated (in%):

- Integral indicator (general reserves) of health;

- Somatic component of health;

- The psychological component of health.

The listed indicators are displayed not only in numerical terms, but also in graphical form (as a cursor on an estimated semaphore scale, the position of which corresponds to the numerical value of the indicator and indicates its level).

All this information can be printed on a printer and stored in the computer's memory (Sokolov A.V. Methodical recommendations “Integrated assessment of individual health reserves.” - M., 2003, pp. 12-14).

However, this method has a drawback, since it does not have the ability to evaluate many different parameters (parameters of central hemodynamics, external respiration function, etc.) that allow you to create an optimal picture of the functional state of any person.

The closest in technical essence to the proposed one is a hardware-software complex for functional diagnostics of patients, comprising a measuring part and an electronic signal processing unit connected to it, characterized in that the electronic signal processing unit is made in the form of a personal computer equipped with a wireless interface of a personal computer, and the measuring part is made in the form of a group of devices consisting of right and left spectrophotometric analyzers, right and left pulses x oximeters, left and right skin temperature meters and a respiratory rate meter, as well as a data acquisition controller equipped with a wireless interface for the data collection controller, the inputs / outputs of the instrument group being connected to the corresponding input / output group of the data acquisition controller, which is connected via the wireless interface of the acquisition controller data is connected to the wireless interface of a personal computer.

The disadvantage of this complex is the low accuracy associated with the limited diagnostics due to the lack of the proper number of measuring instruments for an integrated assessment of the functional state of the body. Also, a significant drawback of this complex is the lack of blocks for clarifying diagnostics, calculating the risks of developing common diseases and the block for generating targeted health programs. Used wireless communication of parts of the complex under certain conditions can reduce its performance.

The technical result of the proposed solution is a quick and adequate medical examination of various categories of people in any conditions without the use of additional equipment, a quantitative integrated assessment of the functional reserves of the human body according to the main functional systems, unification of the assessment of the level of functional reserves of the body, as well as compactness, portability and adaptability of research.

The specified technical result is achieved by the fact that the hardware-software complex is made on a modular basis and in the form of a design that is used both in a stationary and in a movable configuration.

The proposed hardware-software complex includes:

- at least one terminal device of the patient, which is a computer with a loaded software application for performing psychological testing, a data warehouse with databases of patients (DB) located in it and their anthropometric indicators, the results of tests, DB tests, text, graphic and sound objects used in the tests, while the terminal device of the patient is equipped with a computer mouse to ensure the selection of the object on the computer monitor during execution Test pressing mouse button and move the object from one position to another while pressing the mouse; sound cards and speakers for reproducing sound signals, as well as video adapter cards for reproducing graphic information during tests and / or based on the results of tests;

- a doctor’s terminal device connected by a wired or wireless connection to a patient terminal device and a printer.

The terminal device of the doctor contains:

a) the module of the analyzer of heart rate variability, made with the possibility of evaluating the cardiointervalogram, which provides recognition of R-teeth, the calculation of heart rate, the calculation of the number of recorded R-R intervals and parameters of their variability;

b) a module of bioimpedansometry of the internal environment of the body, made with the possibility of assessing body composition;

c) a spirometry module configured to evaluate the function of external respiration;

g) the module of the oscillometric analyzer of blood circulation parameters, made with the possibility of evaluating the parameters of central hemodynamics;

d) a pulse oximeter module configured to evaluate a photoplethysmogram.

The modules of the heart rate variability analyzer, bioimpedansometry, spirometry, an oscillometric analyzer of blood circulation parameters, an oximeter are capable of connecting the corresponding sensors and receiving the corresponding values through an analog-to-digital converter (ADC), after which the data processed by the modules are sent to the analytical data processing unit, executed with the ability to translate the parameter values received from each module into a single ten-point four-level scale and the formation of integral indicators to assess the functional state of the body, taking into account the calculation of the risks of developing diseases.

According to the invention, psychological tests stored in the database use tests selected from the group: self-assessments of activity, mood and well-being, Spielberg-Hanin reactive and personal anxiety scale, Luscher color test, “simple sensorimotor reaction” test, “reaction to moving” test an object".

When calculating heart rate variability parameters, an indicator M is calculated - the average value of the recorded RR intervals with a deviation of not more than ± 1 ms, the standard error of the average M value with a deviation of not more than ± 0.05 ms, and the standard deviation SDNN with a deviation of not more than ± 1 ms , the maximum value of Mx with a deviation of not more than ± 1 ms, the minimum value of Mn with a deviation of not more than ± 1 ms, the variation range of MxDMn with a deviation of not more than ± 2 ms, the ratio Mx / Mn (MxRMn) with a deviation of not more than ± 0.02, coefficient of variation CV deviation no more than ± 1%.

When assessing body composition by means of the bioimpedansometry module, the calculation of fat and / or lean body mass, body mass index, percentage of body fat, the amount of extracellular, intracellular and / or total fluid is performed.

When evaluating the function of external respiration by means of the spirometry module, the forced vital capacity of the lungs, forced expiratory volume in 1 second, Tiffno index, peak volume expiratory flow rate, instantaneous volumetric expiratory flow rate after expiration 25% of the functional vital lung capacity (FVC), and instantaneous volumetric velocity after expiration 50% FVC, instant volumetric rate after expiration 75% FVC, average volumetric rate in the range between 25% and 75% FVC, forced expiratory volume, expiratory time, lung capacity inhalation, inspiratory capacity, reserve expiratory volume, tidal volume, minute volume of respiration, the ratio of inspiratory time and expiratory time, respiratory rate, inspiratory time.

When evaluating the parameters of central hemodynamics through the module of an oscillometric analyzer of blood circulation parameters, diastolic, mean, systolic and pulse blood pressure (BP) are calculated in the range from 10 to 250 mmHg, heart rate (HR) in the range from 35 to 200 beats ./min, minute volume of blood circulation in the range from 2.0 to 10.0 l / min, cardiac index in the range from 1.0 to 6.0 l / (min · m ² ), stroke volume of blood circulation in the range from 20 to 200 ml, impact index in the range from 10 to 110 ml / m ² , s pulse wave propagation rate in the range from 3 to 14.0 m / s, vascular system compliance in the range from 0.7 to 3.0 ml / mm Hg, total peripheral vascular resistance in the range from 600 to 3000 dyn · cm ^-5 · s, specific peripheral resistance in the range from 10 to 80.

When evaluating photoplethysmography using a pulse oximeter module, a pulse wave is determined, a venous reflux test, blood microcirculation in a given area of the patient’s skin, as well as atherosclerotic changes are carried out.

The time spent on the study is 35-40 minutes.

At the end of the examination, the final protocol containing the following items is displayed through the printer:

- Anthropometric data (height, weight, waist circumference, etc.);

- Heart rate;

- Blood pressure systolic;

- Blood pressure diastolic;

- Average pressure;

- peripheral resistance;

- The specific resistance of the peripheral vessels is actual;

- The specific resistance of the peripheral vessels is working;

- Blood pressure indicators;

- Parameters of external respiration (vital capacity of the lungs, forced vital capacity of the lungs, Tiffno index, etc.);

- The amount of fat in kilograms and percent. The amount of extracellular fluid (blood, lymph). The amount of intracellular fluid;

- The number in kilograms and percent of active cell mass (muscles, organs, brain and nerve cells);

- Body mass index;

- Microhemocirculation data;

- Reserve capillary blood flow;

- The level of oxygen saturation in the microhemodynamics system;

- Indicators of well-being, activity and mood;

- The level of reactive anxiety;

- Reaction data to a moving object;

- Indicators of a simple sensorimotor reaction.

The results of the study belong to different scales of measurement, and also have a different range of norms and deviations from it.

For a clearer and more uniform presentation, the values obtained from the examination are reduced to an integral ten-point scale, which was developed with the aim of clearly interpreting the quantitative assessment of the functional reserves of the body and the risks of developing common diseases. The possibility of translating into a single ten-point four-level scale is disclosed in patent RU 2464935.

Based on the data obtained, it is possible to determine the scheme of in-depth examination, calculated indicators of the risks of developing common diseases and targeted wellness programs.

Claims (7)

1. Hardware-software complex for assessing the functional reserves of the body, including:
- at least one terminal device of the patient, which is a computer with a loaded software application for performing psychological testing, a data warehouse with databases of patients (DB) located in it and their anthropometric indicators, the results of tests, DB tests, text, graphic and sound objects used in tests, while the terminal device of the patient is equipped with a computer mouse with the ability to select and move a graphic object from one position I'm more on the computer monitor during test execution by using the mouse button; equipped with sound cards and speakers for reproducing sound signals and video adapter cards for reproducing graphic information during the execution of tests and / or based on the results of tests;
- the terminal device of the doctor, connected by wire or wireless communication with the terminal device of the patient and containing:
a) the module of the analyzer of heart rate variability, made with the possibility of evaluating the cardiointervalogram, providing recognition of R-teeth, the calculation of heart rate, the calculation of the number of recorded RR intervals and their variability parameters;
b) a module of bioimpedansometry of the internal environment of the body, made with the possibility of assessing body composition;
c) a spirometry module configured to evaluate the function of external respiration;
g) the module of the oscillometric analyzer of blood circulation parameters, made with the possibility of evaluating the parameters of central hemodynamics;
d) a pulse oximeter module configured to evaluate a photoplethysmogram,
at the same time, the above-mentioned modules are configured to connect appropriate sensors to the patient and receive from them through an analog-to-digital converter (ADC) the corresponding values of the patient’s parameters, after which all the physiological and psychological parameters of the patient obtained from the examination are sent to the analytical data processing unit with the ability to translate the obtained parameter values into a single ten-point scale and the formation of integral indicators to evaluate the functional ial reserves. 2. The hardware-software complex according to claim 1, characterized in that as psychological tests stored in the database, tests are used that are selected from the group: self-assessment of activity, mood and well-being, Spilberg-Khanin reactive and personal anxiety scale, Lusher color test , test “simple sensorimotor reaction”, test “reaction to a moving object”. 3. The hardware-software complex according to claim 1, characterized in that when calculating the parameters of heart rate variability, the indicator M is calculated - the average value of the recorded RR intervals with a deviation of not more than ± 1 ms, the standard error of the average value of M with a deviation of not more than ± 0 , 05 ms, standard deviation SDNN with a deviation of not more than ± 1 ms, the maximum value of Mx with a deviation of not more than ± 1 ms, the minimum value of Mn with a deviation of not more than ± 1 ms, the variational range of MxDMn with a deviation of not more than ± 2 ms, the ratio Mx / Mn (MxRMn) with about by a deviation of not more than ± 0.02, a coefficient of variation of CV with a deviation of not more than ± 1%. 4. The hardware-software complex according to claim 1, characterized in that when assessing body composition by means of a bioimpedanceometry module, fat and / or lean body mass, body mass index, percentage of body fat, extracellular, intracellular and / or total are calculated liquids. 5. The hardware-software complex according to claim 1, characterized in that when evaluating the function of external respiration by means of the spirometry module, the forced vital capacity of the lungs, forced expiratory volume in 1 second, Tiffno index, peak expiratory flow rate, and instantaneous expiratory flow rate are calculated 25% of the functional vital lung capacity (FVC), instantaneous volumetric velocity after exhalation of 50% FVC, instantaneous volumetric rate after exhalation of 75% FVC, average volumetric speed in the range between 25% and 75% VFL, pho volume forced expiration, expiratory time, inspiratory lung capacity, inspiratory capacity, expiratory reserve volume, tidal volume, minute respiratory volume, ratio of inspiratory time and expiratory time, respiratory rate, inspiratory time. 6. The hardware-software complex according to claim 1, characterized in that when evaluating the parameters of central hemodynamics through the module of an oscillometric analyzer of blood circulation parameters, diastolic, mean, systolic and pulse blood pressure (BP) in the range from 10 to 250 mm Hg are calculated ., heart rate (HR) in the range from 35 to 200 beats / min, minute volume of blood circulation in the range from 2.0 to 10.0 l / min, cardiac index in the range from 1.0 to 6.0 l / (min · m ^2), stroke volume, blood flow in RANGES not from 20 to 200 ml, stroke index in the range of 10 to 110 ml / m ^2, pulse wave velocity in the range of 3 to 14.0 m / s, the compliance of the vascular system in the range of 0.7 to 3.0 ml / mmHg, total peripheral vascular resistance in the range from 600 to 3000 dyne · cm ^-5 · s, specific peripheral resistance in the range from 10 to 80. 7. The hardware-software complex according to claim 1, characterized in that when evaluating photoplethysmography using a pulse oximeter module, a pulse wave is determined, a venous reflux test, determination of blood microcirculation in a given area of the patient’s skin, as well as atherosclerotic changes.