RU2405592C1 - Method of operator's performance incoordination - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to physiotherapy. The method involves electric pulse current exposure with two pairs of electrodes. The electrodes are fixed in the collar zone. Electric pulses of duration 2 ms with frequency modulation 0-200-0 Hz are fed on the electrodes in a subthreshold mode. In the intermittent continuous work, electric current exposure during time gaps is at the sensitivity threshold.

EFFECT: method promotes fatigue prevention and provides long time performance in coordination.

8 cl, 1 tbl

Description

The invention relates to medicine, in particular to the physiology of work, and relates to a method for maintaining optimally high productivity of operators whose work is associated with prolonged static voltage, in particular with computer work, tracking of moving objects, etc.

Known methods of preventing overwork of people by selecting modes of work and rest, complexes of physical exercises, ensuring hygienic organization of working conditions and means of rationalization of labor, the use of balanced diet, suggestion, hypnosis. Active ways to reduce fatigue include performing various specialized complexes of physical exercises, autogenous training (see, for example, Leonova AB, Psychodiagnostics of human functional states. Moscow University Press, 1984, pp. 161-183).

To eliminate unpleasant conditions associated with decreased performance, pharmacological agents are used. However, the ability of psychotropic and tranquilizing drugs to affect the functional relationships of various ensembles of the cerebral cortex limits the use of these funds in the process of performing camera work. An alternative direction of exposure to the central nervous system by impulse currents has been created (see Kastrubin EM Central impulse neuroregulation and performance of flight profile operators. In: Actual issues of medical support for flights, medical examination and rehabilitation of flight personnel. Abstracts of 5 European reports seminar on aviation medicine, June 3-7, 1996, Moscow). The main mechanisms of this direction are the restoration of brain energy consumption, the intensification of self-regulation processes due to the effect of central reflexology. The initial stage of the application of the method was sports medicine, where there was a need to accelerate the processes of adaptation with a sharp change in climatic conditions and hourly time. Quick and impeccable muscle relaxation allowed before the competition to relieve mental and emotional stress and improve athletic performance. Further, the method was tested in marine medicine, where prolonged sensory deprivation, loads on the vestibular analyzer, the influence of powerful natural electromagnetic fields lead to a sharp decrease in performance. Studies conducted during the period of Arctic navigation and long scuba diving showed that this method allows you to get the effect of psychotropic and tranquilizing drugs in conditions resulting from a violation of neurological, mental and psychological status. The high efficiency of the method in enhancing a person's resistance to vestibular-vegetative disorders is proved. The effectiveness of the method of exposure to pulsed current is confirmed to enhance the processes of adaptation of the brain to increasing mental and emotional stress.

From the patent literature there is a known method for increasing operator operability, see RU 2000124472. The known method consists in exposing the skin of the thighs and lumbar region through bipolar electrodes with a pulsed current pulse duration of 1 ms with a duty cycle of 4 with duty cycle 2. The frequency and current are adjustable in the range respectively, 4-50000 Hz and 0.1-1200 mA and are directly proportional to the influence of unfavorable factors on the operator’s body, while the bipolar electrodes are superimposed on the calf and hip part, on the bipolar electrodes The electrodes pre-apply a conductive gel.

The closest analogue to the present invention is a method for regulating human performance, disclosed in the description of the copyright certificate SU 818627. The known method is carried out by exposing the central nervous system to a rectangular pulsed current in combination with an additional galvanic constant component with the cathode located on the forehead and anode on the neck under the mastoid processes. The impact is carried out every 2-3 days with a current of 0.1-0.8 mA, increasing it at the beginning by increasing the galvanic component by no more than 10% of the value of the pulse value of the output voltage of 8-9 V at a frequency of 150-200 Hz, and then increasing the current by changing the frequency to 500-700 Hz for 30-40 minutes

However, the use of well-known ways to increase efficiency is associated with the need for additional conditions - the place and time of classes, the participation of specialists. At the same time, to obtain the effect of exposure, it is necessary to carry out several procedures, classes.

The problem to which the present invention is directed is to create a method that can significantly reduce fatigue by exposing the human body to electric pulses directly during the dividing operator activity without involving medical personnel.

The technical result achieved when using the invention in comparison with the closest analogue consists in simplifying the prevention of fatigue and ensuring the preservation of high performance for a long time.

The technical result is achieved due to the fact that in the method of increasing the operability of the operator by applying an electric pulse current using two pairs of electrodes, the electrodes are fixed in the collar area, electrical pulses are supplied to the electrodes for a duration of 2 ms with a frequency modulation of 0-200-0 Hz in the subthreshold mode, and in the case of prolonged work with breaks during breaks, the effect is carried out at the threshold of sensitivity.

The technical result is enhanced due to the fact that the impact of a pulsed electric current is carried out directly during operation of the operator.

The exposure at the threshold of sensitivity is carried out at the end of every second hour of exposure for 10 minutes by amplifying a pulsed electrical signal until a slight vibration is felt.

The electrodes are installed in pairs - to the left and to the right of the spine.

Before installation, the electrodes are moistened with a conductive gel and fixed to the body with adhesive tape, which ensures a reliable fit to the body.

The amplitude-frequency modulation is carried out automatically according to a sinusoidal law 0-200-0 Hz.

The magnitude of the pulse amplitude is changed smoothly to 100 mA.

Carry out a smooth independent adjustment of the amplitude of the pulses for each of the channels.

The invention will be better understood from the following description.

To implement the method using a portable two-channel electrical stimulator. In particular, the commercially available Elektronarkon-1 electrical stimulator can be used.

The stimulator has the following parameters:

the duration of the bipolar pulse is 2 ms,

amplitude-frequency modulation is carried out according to a sinusoidal law of 0-200-0 Hz (automatically), the magnitude of the amplitude changes smoothly to 100 mA (at the equivalent of R-2 kOhm, -0.22 μF,

power is supplied autonomously from a 913 battery or 9 V AC adapter,

the pacemaker has a smooth independent adjustment for each of the two channels.

Immediately before starting work, two pairs of electrodes are installed in pairs on the patient’s collar zone - to the left and to the right of the spine. The electrodes are pre-wetted with a conductive gel and are attached to the patient’s body using adhesive tape that provides a reliable fit. The application and fastening of the electrodes is carried out by the patient user.

After that, on his own, guided by his own feelings of fatigue and muscle discomfort, the patient displays the amplitude knobs for each channel of exposure until the indicator lights up, indicating that the device is operating in a subthreshold mode. The operator determines that the device operates on the threshold of sensitivity by the appearance of the first sensations of impact in the area of the location of the electrodes (a feeling of heat, tingling). The amplitude-frequency modulation is carried out automatically according to a sinusoidal law 0-200-0 Hz. In this case, the addition of a pulse signal of increasing amplitude and a duration of 2 ms and a signal with a frequency of 200 Hz occurs. Then for 2 ms there is no effect, and then it repeats again, etc. Next, the patient user proceeds to fulfill the production duties assigned to him. Electrical stimulation by pulses of 2 ms duration with a modulation of the signal in frequency and amplitude continues throughout the entire operation of the operator. If there are interruptions during long work (if the work lasts 6-8 hours), at the end of every second hour for 10 minutes the signal is amplified until a slight vibration is felt, which, as studies have shown, provides deeper neuromuscular relaxation. Exposure to electric pulses with the indicated parameters can be performed for a long time. No adverse side effects were noted.

The application of the method during intense operator activity (3 hours of continuous operator activity with performing arithmetic operations, tracking a moving object, adjusting the text) helps to maintain high performance, reduce fatigue at the end of work in people using the method compared to the control group. In addition, blood circulation parameters of the deep arterial vessels of the brain are improved, venous congestion and increased intracranial pressure are eliminated, as confirmed by diagnostic tests: after exposure, the heart rate decreases by an average of 10%, blood pressure decreases by an average of 10-15%.

The proposed method was applied to several groups of operators of various profiles: flight, computer operators, editors, electronic production workers. All categories noted improvement in well-being and increased performance. The results of the effect of electrical stimulation on the performance of operators are presented in the table (average data for 9 patients examined are given).

Table Health Tests Before work After work the control impact ASHU test Fatigue 3.6 ± 0.3 5.5 ± 0.9 4.3 ± 0.7 Color test Anxiety 7.8 ± 0.5 8.5 ± 0.8 8.1 ± 0.6 Lusher Operability 17.7 ± 3 15.5 ± 2 16.5 ± 0.8 Stress 12.9 ± 5 14.8 ± 4 13.3 ± 2 SAN test Feeling well 37.5 ± 5 29.5 ± 6 ∗ 33.0 ± 4 ∗ Activity 34.2 ± 7 30.2 ± 8 32.0 ± 6 Mood 39.6 ± 5 30.2 ± 6 ∗ 36.0 ± 5 ∗ Critical frequency Increasing frequency 30.0 ± 2.3 28.0 ± 3.1 31.9 ± 3 light Decreasing frequency 32.2 ± 3.9 30.0 ± 5.1 37.7 ± 5.1 * flickering * difference with control is statistically significant (p <0.05)

The afferent impulse arising from the implementation of this method affects both the central and peripheral nervous systems, helps to relieve muscle fatigue that occurs while maintaining a long time forced static posture that is characteristic of operator activity.

The application of the claimed method of exposure leads to a change in the duration of the latent period of the motor reaction, improvement of well-being, reduction of fatigue from production loads, and regulation of the functional state of the user by achieving the effect of electro-tranquilization.

The proposed method has the following advantages:

1) does not require time costs,

2) does not require additional space for exposure,

3) does not require the constant presence of a medical professional,

4) increases the efficiency and productivity of the operator,

5) reduces fatigue,

6) has no negative health effects,

7) provides neuromuscular relaxation,

8) improves blood circulation parameters,

9) improves mood.

Claims (8)

1. A method of increasing the operator’s working capacity by applying an electric pulse current using two pairs of electrodes, characterized in that the electrodes are fixed in the collar zone, electrical pulses of 2 ms duration with a frequency modulation of 0-200-0 Hz in the subthreshold mode are applied to the electrodes, and in the case of prolonged operation - intermittently, during interruptions, the effect is carried out at the threshold of sensitivity. 2. The method according to claim 1, characterized in that the impact of a pulsed electric current is carried out directly during operation of the operator. 3. The method according to claim 1, characterized in that the impact on the threshold of sensitivity is carried out at the end of every second hour of exposure for 10 minutes by amplifying a pulsed electrical signal until a slight vibration is felt. 4. The method according to claim 1, characterized in that the electrodes are installed in pairs - to the left and to the right of the spine. 5. The method according to claim 1, characterized in that before installation, the electrodes are moistened with a conductive gel and fixed to the body with adhesive tape, which ensures a reliable fit to the body. 6. The method according to claim 1, characterized in that the amplitude-frequency modulation is carried out according to a sinusoidal law of 0-200-0 Hz automatically. 7. The method according to claim 1, characterized in that the magnitude of the amplitude of the pulse is changed smoothly to 100 mA. 8. The method according to claim 1, characterized in that carry out a smooth independent adjustment on each of the channels.