RU2339308C1 - Method for determination of human workability in complicated technogenic conditions - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method includes values measurement (DATA) of physiological parameters of a man, determination of the border of individual physiological norms as maximum (MAXi) and minimum (MINi) accepted values of this parameter for each measured physiological parameter, determination for each measured physiological parameter of the border of group norms of adaptive physiological reaction as maximum (MAXa) and minimum (MINa) accepted values of this parameters on the ground of result statistically processed received from the measurement of the physiological parameters of a group of people in complicated techogenic conditions. Human workability in complicated technogenic conditions is determined if MIN<DATA<MAX condition, where MIN equals to maximum from the values MINi and MINa, and value MAX equals to minimum from the values MAXi and MAXa is fulfilled for each measured physiological parameter.

EFFECT: enhancement of determination reliability and accuracy of human workability degree in complicated technogenic conditions.

Description

The invention relates to medicine, namely to a functional diagnosis of a human condition, and can be used in medical examinations in order to identify persons suitable for health reasons to perform work associated with increased danger, in particular to drive vehicles.

A known method of monitoring the functional state of a person (USSR Author's Certificate No. 1692548 A1, АВВ 5/02, publ. 11/23/91, Bull. No. 43) by measuring its physiological parameters, namely the simultaneous recording of an electrocardiogram, respiratory rate, blood pressure, rheovasogram electromyograms and body temperature, after which they determine the main amplitude-time parameters of the electrograms, their ratio, deviation from normalized values and the largest deviation from normalized values of the parameters of the device they add a function that limits the functional state of the body - the function of the heart, cardiorespiratory or vascular system, and control over the functional state of a person is carried out in case of impaired cardiac activity by the ratio of total systole and cardiocycle duration, in case of a cardiorespiratory system disorder - by the ratio of the duration of the pneumocycle and cardiocycle, in case of vasomotor disturbance systems - in terms of the ratio of anacrot, pulse wave propagation time and cardiocycle duration.

The disadvantage of the above method is the difficulty of implementation and the low accuracy of determining the degree of suitability of a person to work in complex anthropogenic conditions due to the lack of assessment of adaptive resources of the body.

There is a method of determining the professional suitability of drivers (USSR Author's Certificate No. 1297804, АВВ 5/16), which is carried out by registering an electrocardiogram before and during psychological tests aimed at switching attention with evaluating heart rate shifts and comparing them with reference indicators, and the subject is additionally present in strict sequence psychological tests aimed at identifying the strength of the nervous system, monotonous stability, noise immunity of the nervous system, ability to learn, probabilistic forecasting and switching attention, the ratio of the processes of inhibition and excitation in the nervous system. The data obtained are sequentially compared with the reference table and determine the subject's suitability for the profession of a driver.

The disadvantage of this method is the low reliability of determining the degree of suitability of a person to work in complex anthropogenic conditions due to the lack of assessment of adaptive resources of the body.

A known method of assessing the functional state of the regulatory systems of the human body (RF patent No. 2103911, publ. 02/10/1998), including the registration of the patient's electrocardiogram, followed by the allocation of R-teeth and fixing their position in time, measuring RR-intervals and the formation of many RR-intervals, carry out their statistical processing, calculate the value of the amplitude of the AMO mode and the distribution modes of the intersystolic intervals Mo, taking into account which the index of overvoltage of regulatory systems is determined, according to which assessment of the functional state of the patient’s regulatory systems.

The USSR Author's Certificate No. 1782532, А61В 5/02 describes a method for determining the functional state of an organism by registering a heart rhythm, followed by determining the Mo mode, the amplitude of the AMO mode, and the variation range Δх and comparing it with the zone of optimal ZOR regulation. With the values of Mo, AMo, and Δx above the ZOR, the voltage of the adaptation reactions is judged, with their value below the ZOR, the reaction is depleted.

The closest in the set of features and selected for the prototype is a method for determining the suitability of a person to work in difficult technogenic conditions (RF patent No. 2238027, publ. 20.10.2004), consisting in the fact that they measure the values (DATA) of physiological parameters of a person, for each measured physiological parameter determine the boundaries of the individual physiological norm in the form of maximum (MAXi) and minimum (MINi) allowable values of this parameter based on statistical processing of the measurement results of this physiologist human parameter for a fixed period of time, the measured values (DATA) of physiological parameters are compared with the individual physiological norm, and the suitability of a person to work in difficult anthropogenic conditions is determined if the condition MINi <DATA <MAXi is fulfilled for each measured physiological parameter. As physiological parameters in the prototype method, the following can be selected: heart rate (HR), systolic blood pressure (ADs), diastolic blood pressure (ADd), mean hemodynamic pressure (SRS), pulse blood pressure (PAD), regulatory tension index body systems (IN), SDR, calculated by the formula:

where Mo is the most common value of the duration of cardio intervals;

AMo - the ratio of the number of values of cardio intervals, the duration of which is equal to Mo, to the total number of registered cardio intervals;

DX - the difference between the maximum and minimum values of the duration of cardio intervals;

and others.

As a result of the practical use of the prototype, insufficient reliability of determining the degree of suitability of a person for work in complex technogenic conditions was revealed, associated with the lack of a comparison of the values of the measured individual physiological parameters with the values of hemodynamic parameters and regulatory functions of the body, characteristic of a group of people working in similar or similar technogenic conditions.

The inventive method is aimed at improving the reliability and accuracy of determining the degree of suitability of a person to work in complex anthropogenic conditions.

The solution of this problem is provided by obtaining additional information about the physiological state of the test subject by comparing the measured values of physiological parameters (DATA) as its individual physiological norm, the boundaries of which are defined as the maximum (MAXi) and minimum (MINi) allowable values of each parameter, and with the boundaries of the group norm of the adaptive physiological reaction in the form of maximum (MAX) and minimum (MINa) allowable values of this parameter, calculated on the basis of statistical processing of the measurement results of the physiological parameter from a group of people working in the same or similar manmade environments.

When determining the degree of a person’s suitability for work in difficult technogenic conditions, when his erroneous actions can lead to grave consequences for the employee himself, people around him, the environment, etc., the requirements for the reliability of information, based on which it is necessary to make a decision, are repeatedly increased. , allow a person to perform complex and / or risky work or not. The decisive role is played not only by the parameters of his health (physiological parameters), measured immediately before the start of the work, but also by the possibility of changing them directly during the work. As is known, the physiological parameters of individuals are not the same and constant in time. For each person, there are ranges of changes of parameters such as heart rate, blood pressure, within which his physiological state can be characterized as normal. In this case, the task of determining the boundaries of an individual physiological norm for a test subject acquires key importance. In other words, the more accurately the ranges of changes in physiological parameters are determined, within which the physiological state of a person is characterized as normal, and the person himself can be considered suitable for work, the lower the degree of risk associated with the possibility of admission to the work of a person whose physiological state is not adequate the requirements for this work.

Determining the boundaries of the range of the conditional “norm”, as well as the ranges of the adaptive reaction of the organism from both the “lower” and “upper” limits of the norm, is a difficult task, especially in cases where statistical data are insufficient to make an unambiguous decision on the state of the subject’s body . At the same time, the measure of responsibility for making a decision on admission to work requires a reliable determination of the correspondence of the physiological state of the individual to the levels of stress that he will experience under complex technogenic conditions of one kind or another. To increase the reliability of the method for determining the suitability of a person to perform complex tasks related to the safety of people and objects, it is necessary to establish additional criteria for assessing his physiological state.

The essence of the invention is to determine the average group values of physiological norms as the result of a multiple, ongoing for a long time (months, years) process of physiological monitoring of the state of a group of people working in complex anthropogenic conditions, followed by comparing the values of the physiological parameters of an individual with the boundary values of these average group norms.

The claimed invention proposes to establish the boundaries of an individual physiological norm for each person, in relation to whom it is necessary to decide on his admission to work in difficult industrial conditions. For each physiological parameter, the boundaries of this individual norm should be determined as a combination of two values of this parameter (MINi) and (MAXi). These values characterize the boundaries of the allowable range of physiological parameter values for a given individual. In the event that, when implementing the proposed method, at least one measured value of the physiological parameter of the test subject (DATA) does not satisfy the condition MINi <DATA <MAXi, it must decide on the unsuitability of a person to work in difficult technogenic conditions. In the event that each measured value of the physiological parameter of the test subject (DATA) satisfies the condition MINi <DATA <MAXi, in accordance with the claimed method, it is necessary to make an additional comparison of each measured value of the physiological parameter of the test subject (DATA) with the boundaries of the group norm of the adaptive physiological reaction, defined in the form of maximum (MAX) and minimum (MINa) values based on the statistical processing of measurement data of the values of this parameter in a group of people working x under similar or comparable industrial conditions.

To determine the boundaries of an individual physiological norm, it is proposed, prior to the implementation of the proposed method, to make multiple measurements of such physiological parameters of a person as, for example, blood pressure, heart rate (pulse), etc. These measurements should be carried out in the best way over a long period of time, for example, during 100 days daily, 4 measurements per day (morning, afternoon, evening and night). After the data on the physiological state of the subject accumulated during the study will be a representative set, statistical processing of the data should be carried out, namely, the reliable average statistical values of each measured physiological parameter (M), as well as the standard deviation (MSD), should be calculated. The parameters MINi and MAXi can be found, for example, by the formulas:

MINi = M-MSD / α,

MAXi-M + MSD / α,

where the coefficient α is determined in the range from 1 to 3, based on the degree of risk and the complexity of the work (see prototype).

To determine the boundaries of the group norm of an adaptive physiological reaction within the framework of the proposed method, it is proposed to make multiple measurements of the corresponding physiological parameters in a group of people working in similar anthropogenic conditions, with the subsequent calculation of the values of MINa and MAX, for example, in the following form:

where N is the number of people in the group.

The suitability of a person for work in difficult technogenic conditions is determined if for each measured physiological parameter the condition MIN <DATA <MAX is fulfilled, where MIN is equal to the maximum of MINi and MINa, and MAX is equal to the minimum of MAXi and MAXa.

Claims (1)

The method for determining a person’s suitability for work in complex technogenic conditions, which consists in measuring (DATA) physiological parameters of a person, for each measured physiological parameter, the boundaries of an individual physiological norm are determined in the form of maximum (MAXi) and minimum (MINi) permissible values of this parameter based on the statistical processing of the measurement results of this physiological parameter in humans for a fixed period of time, characterized in that for each measurement the physiological parameter, the boundaries of the group norm of the adaptive physiological reaction are determined in the form of the maximum (MAX) and minimum (MINa) permissible values of this parameter based on the statistical processing of the results of the measurement of this physiological parameter in a group of people working in difficult technogenic conditions, and the suitability of a person to work in difficult technological conditions are determined if for each measured physiological parameter the condition MIN <DATA <MAX is fulfilled, where MIN is equal to max the maximum of the values of MINi and MINa, and the value of MAX is equal to the minimum of the values of MAXi and MAXa.