RU2192777C2 - Method for carrying out bioacoustic correction of psychophysiological organism state - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves recording electroencephalogram signals at least from two leads. The signals are transposed into audible acoustic frequency bandwidth separately for each lead and at the same time for all leads. The so built acoustic signals are concurrently shown to a patient with biological acoustic feedback being formed by means of one or several acoustic sources. The acoustic sources are placed on the side corresponding to lead. Electroencephalogram signals are recorded in one or several points belonging to longitudinal plane passing through the head median line so that the acoustic sources are placed to the left and to the right from the patient head or in points belonging to transverse head plane and positioned to the left and to the right. The acoustic sources are placed on the side corresponding to these points. Each oscillation of the recorded electroencephalogram signal is transmitted separately and sequentially. EFFECT: enhanced effectiveness of organism repair in the cases of functional disorders. 5 cl

Description

Technical field
The invention relates to medicine, namely to methods for restoring the physiological parameters of the body using electroencephalographic biological acoustic feedback (EEG-BAOS), and can be used in various fields of medicine in the treatment of a wide range of diseases, such as functional disorders of the central nervous system, psychosomatic diseases and the effects of organic brain damage.

State of the art
It is known that currently there is an increasing interest in non-drug methods of treatment and rehabilitation of patients with various types of pathologies. One of the rapidly developing methods for correcting the functional state of both individual systems and the body as a whole is the biofeedback technique. The use of biofeedback in clinical practice allows us to normalize the functional state of the body, thereby facilitating the restoration of upset psychophysiological processes (Alekseev A.S., Daskalov I.E. Biological feedback in psychotherapeutic practice. Book. "Seventh Congress of Neuropathologists and Psychiatrists." M., t. 1, p. 9-11.).

There is a method of correcting the psychophysiological state of a person, including recording physiological parameters, presenting them to a patient, comparing them with reference physiological parameters, conducting a therapeutic effect and monitoring the patient’s condition, while recording the whole body thermogram, which is served on one part of the display screen, in the second part which reproduce the reference thermogram of a healthy person and simultaneously carry out the video recording of the patient and output the video image the image on the second screen, then hetero- and autosuggestive effects are performed, the video image is filled with a color image corresponding to the standard thermogram, and the patient’s condition is monitored by the dynamics of the thermogram changes compared to the standard, and if differences are detected, the procedure is repeated (RF Patent 2012364, A 61 M 21/00, 1994)
In this method, the elements of biological feedback (BFB) are used in combination with the methods of psychotherapy when a patient is exposed to a strictly defined sequence of methods, while the patient himself tries to influence some of his functions to correct them while he is in therapeutic contact with the doctor, by changing thermogram parameters in the "desired" direction and bringing them to the specified standards. This approach allows you to effect on the psychogenic personality side of the disease and on the somatic component, which provides a sufficiently high therapeutic efficacy of the method.

 However, in the known method, when organizing biological feedback, they use the principle of voluntary (cognitive) control of body functions (V. N. Chernigovsky and others. Arbitrary regulation of human EEG rhythms. Journal of Human Physiology 5, v. 8, 1982, p. 817-821), which turns out to be effective in relation to biofeedback techniques that are closed by such psychophysiological indicators as heart rate, blood pressure, respiration, but are not effective enough when using electroencephalography eskoy biofeedback, which attracts more and more attention in the clinic neuroses. This is due to the fact that the concept of arbitrary regulation of functions requires the indication of those “desirable” parameters to which the physiological process needs to be brought, and when organizing EEG-BOS it is very difficult. First, the EEG parameters are largely individual (Rusinov BC Biopotentials of the human brain. M .: Medicine, 1987) and, secondly, given the integrity of the spatio-temporal structure of the electrical activity of the human brain, such “desirable” parameters can be several, which greatly complicates the biofeedback procedure. (Livanov MN Spatio-temporal organization of potentials and systemic activity of the brain. M: Nauka, 1989).

 A known method of correcting the psychophysiological state of a person, in which in preparatory mode the environmental parameters are selected, for example, light or sound, ensuring a comfortable state of a person, and in the correction mode, discrete changes of the selected parameters are performed, in which the patient has minimal biosignal deviations, including EEG signal, and regulate the degree of deviation of the latter from empirical parameters by organizing biological feedback, including sound or light signals (auth. svid. USSR 1706568, A 61 M 21/00, 1991 YG).

 There is also a method of monitoring and correcting the psychophysiological state of a person, in which the recorded EEG signals are converted using a synthesizer into modulated sound (music) signals, and then the converted signals act on a person by organizing biological acoustic feedback (BAOS).

 Common to the above methods is the use of biological feedback that is closed from the EEG, monitoring the functional state according to one or several physiological parameters and their regulation, as well as the use of amplitude-frequency modulation of sound signals of the audible frequency range with various rhythms of the brain’s electrical activity when organizing EEG-BOS . In the first of them, the feedback signal has psychoacoustic, and in the second, musical properties that cause the human brain to generate a predominantly certain type of EEG activity, while the physiological effect is that the brain responds to feedback music and actively changes the current EEG activity , bringing it into a certain resonance with the music presented.

 However, in all known methods for organizing this kind of biofeedback, the latter is used as part of the "traditional" biological feedback with cognitive self-regulation, which is carried out according to an artificial (imposed) correction algorithm. For example, “desirable” or “undesirable” sections of the EEG are distinguished and presented as a “pleasant” or “unpleasant” melody, the appearance of which the patient speeds up with his willpower. This leads to a complication of the conduct of biofeedback sessions and treatment of the patient. In addition, in the indicated EEG-BOS, one or another parameter is replaced by an artificial signal, which significantly distorts the information about the true physiological state of the patient. Large distortions in the EEG-BOS circuit arise either due to too simplified signal conversion, for example, amplitude-frequency modulation of simple tones by EEG rhythms, or due to the introduction of a significant subjective moment: the conversion of EEG into "brain music" according to the law imposed by the operator. In both cases, there is a violation of the initial time-frequency structure of the signal, leading to a decrease in the accuracy of information transfer in the biofeedback circuit and, consequently, to a decrease in the efficiency of correction of the psychophysiological state of a person.

 The closest to the invention according to the technical essence and the achieved result is a method for correcting the psychophysiological state of a person, including recording signals of an electroencephalogram (EEG) of a human brain from one lead of the registration points "forehead-nape" on the patient's head, transposing EEG signals into an audible sound frequency range (transfer the spectrum of the EEG signal into the audio frequency range while preserving the original ratios of amplitudes, frequencies and phases) and the effect on a person transposed with EEG signals in the EEG-BAOS circuit through sound sources, while transposition of the EEG signals into sound signals is carried out by expanding them into a series of quasiperiodic signals using comb filters and recording periods of EEG signals with subsequent accelerated reading and addition of the latter (RF Patent 2071361, A 61 M 21/00, 1997).

 The known method selected for the prototype of the present invention allows, by transposing the initial low-frequency harmonics of the spectrum of EEG signals into the region of audible sound frequencies, in comparison with other known methods, to increase the accuracy of transmitting information about the current state of the central nervous system in a form accessible to sensory systems. This makes it possible to provide a different approach to the organization of EEG-BAOS, which can be taken as the basis that the body, regardless of its current state, has a standard of its functioning, and functional disorders are the result of loss or disorder of the internal channels of information that provide a comparison of the real and reference states. This approach provides the correction of the functional state through EEG-BOS.

 The disadvantages of this method include the low degree of implementation of non-cognitive regulation when creating an EEG-BAOS circuit due to the restriction of the flow of information about the current state of the human body, due to the single recording of EEG signals from one lead of the registration points "forehead-neck" on the patient’s head, as well as insufficient accuracy reflection of the parameters of the original EEG signals in its transposed sound signals. All this ultimately leads to a decrease in the effectiveness of the correction of the psychophysiological state of the patient.

SUMMARY OF THE INVENTION
The aim of the creation of the invention is to increase the efficiency of the processes of restoration of the psychophysiological state of the body in functional disorders.

 This goal is achieved by the fact that in the method of correction of the psychophysiological state of the body, in which the recorded electroencephalogram signals are transposed into sound signals of the audible frequency range and the patient is transposed by organizing biological acoustic feedback, according to the invention, the electroencephalogram signals are recorded from at least two leads from registration points are transposed separately for each lead and simultaneously for all leads and the received sound signals simultaneously affect the patient through one or more sound sources. In this case, the sound sources used for each lead can be placed on the side corresponding to the lead, and the EEG signal can be recorded at one or more points located in the longitudinal plane along the midline of the head or in the transverse plane of the head to the left and right. In addition, each oscillation of the recorded electroencephalogram signal is transposed separately and sequentially.

 Registration of EEG signals simultaneously from several leads of registration points, at least from two, and their subsequent simultaneous transposition from each lead separately allows you to get transposed EEG signals that reflect the spatial parameters of the brain’s biopotentials, and the spatial acoustic effect on the patient in the EEG circuit BAOS, organized by the indicated arrangement of sound sources of transposed EEG signals, allows you to create spatial sounds th image of their own EEG. Ultimately, this is what contributes to improving the efficiency of restoration of the parameters of the bioelectric activity of the brain. Separate and sequential transposition of each oscillation of the recorded EEG signal can significantly reduce the distortions introduced into the EEG signals when converting them into audio signals, which in turn increases the accuracy of the display of the parameters of the EEG signals in its complex sound image.

 A comparative analysis of the known and proposed methods of correction of the psychophysiological state of the body shows that the differences are in the conditions for registration and subsequent transposition of the EEG signals, as well as in the effect of transposed EEG signals in the EEG-BAOS circuit and, therefore, the proposed method meets the criterion of "novelty" .

 Comparison of the proposed method with other technical solutions known in the art allows us to conclude that it follows from them in an unobvious manner and, therefore, meets the criterion of "inventive step".

 The compliance of the proposed method with the criterion of "industrial applicability" is confirmed by the implementation in devices and devices of medical equipment.

 The most preferred embodiment of the invention.

 During the treatment procedure, the patient is acoustically transposed by EEG signals. On average, the duration of the EEG-BAOS session is 20-30 minutes.

 The inventive method is implemented using a device that contains sound sources, EEG sensors located at the registration points on the patient’s head, amplifiers of recorded EEG signals, transpose units, power amplifier units, visual and acoustic control unit, and control unit. The transpose unit contains a transducer of EEG vibrations into acoustic signals.

 During the treatment procedure, the recorded EEG signals, by which it is possible to judge the quality of the patient’s condition, are displayed at the operator’s workstation and fed to the visual and acoustic control unit. At the same time, the signals from each lead recorded by EEG sensors through amplifiers are fed for further conversion to the corresponding transpose blocks. After converting the EEG signals in transposing units, where each EEG oscillation is transposed separately and sequentially, sound signals are fed to power amplifiers, the mixing mode of which is set by the control unit. The acoustic control system allows the operator to hear the same thing as the patient.

 At the Institute of Experimental Medicine (St. Petersburg) in the physiological department. I. Pavlova obtained preliminary results of studies on the use of this method in the treatment of patients with asthenoneurotic disorders of varying severity. During the research, from 3 to 7 sessions of acoustic biofeedback were performed with each patient. Based on the tests, “successful” and “unsuccessful” sessions were determined. The session where the sound image of the EEG was perceived by the patient as harmonious was considered “successful”, the session in which the sound of the transposed EEG signal was perceived as disharmonious was considered “unsuccessful”. Individual spectral EEG characteristics of patients were combined according to the groups of “successful” and “unsuccessful” sessions, and thus the average dynamics of the spectral indices of EEG signals in the groups of these sessions was determined. In most cases, the first session was “unsuccessful.” In this case, the transposed EEG , a characteristic of a chaotic, unstructured set of sounds was given, similar to the sounds of tuning a symphony orchestra before a concert. The fourth session was most often successful. the patients noted the structure and harmony of both individual moments and the session as a whole. Often patients were able to break the session into separate phases (up to 3-4) with their characteristic sound. the sound of the sensory image of their own EEG, which corresponds to an improvement in psychophysiological indicators: the level of reactive and personal anxiety according to Spielberger-Khanin, the correlation coefficient of the autogenic norm, vegetative th coefficient Luscher, subjective assessment of sound image, a simple motor reaction time, the individual minute health assessment, activity and mood on the test SAN.

 Thus, the proposed method in comparison with the prototype allows you to more effectively restore the psychophysiological state of the body in functional disorders by increasing the accuracy of the conversion of brain biopotentials into sound signals.

 The proposed method can be widely used to normalize the psychophysiological state of a person in medical institutions of various profiles.

Claims (5)

 1. A method for correcting the psychophysiological state of an organism, including recording electroencephalogram signals, transporting these signals to an audible range of sound frequencies and applying the latter to the patient by organizing biological acoustic feedback, characterized in that the electroencephalogram signals are recorded from at least two leads from the registration points, transpose separately for each lead and simultaneously for all leads and received sound signals simultaneously in acting on the patient through one or more sound sources.  2. The method according to p. 1, characterized in that the sound sources for each lead are placed on the side corresponding to the lead.  3. The method according to p. 1, characterized in that the electroencephalogram signals are recorded at one or more points located in a longitudinal plane along the midline of the head, and sound sources are located to the left and right of the patient's head.  4. The method according to p. 1, characterized in that the electroencephalogram signals are recorded at points located in the transverse plane of the head left and right, and sound sources are placed on the side corresponding to these points.  5. The method according to p. 1, characterized in that each oscillation of the recorded signal of the electroencephalogram is transposed separately and sequentially.