RU2712804C1 - Method for correction of human functional state in confined space - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medical equipment, namely to a method for human functional state correction, in which a person is exposed to inert gases and hardware methods. Human exposure to human gases and exposure to hardware are performed simultaneously in a closed space. Beginning of the hardware exposure is carried out 3–5 minutes after addition of inert gases, with concentration of inert gases from 10 % to 80 %, and time of joint exposure is determined depending on the exposure time of the selected hardware method.EFFECT: technical result is reduction of internal counteraction to human correction procedures to provide possibility of obtaining functional state simulation effect.1 cl

Description

The invention relates to the field of medicine, physiology of work and the activities of power structures, can be used to enhance the effect in the prevention, treatment, rehabilitation and modeling of the mental state to change a person's working capacity in a confined space.

Since ancient times, society has been using various methods of influencing the psychoemotional state of a person in a confined space. Most of these methods have been recognized in medicine and physiology of work, and are actively used in our time. In addition, methods of hardware exposure to the state of man have become widespread. All these methods are based on modeling the functioning of the central and autonomic nervous systems, normalizing the ratio of excitation and inhibition in the cerebral cortex.

The use of artificial procedures is often accompanied by increased nervousness on the part of patients. Fear can prevent the patient from preparing for painful procedures. As a result, the patient will by all means avoid these interventions. The patient even tries to protect himself from interference with his hands, which interferes with the medical professional. This is especially pronounced with electroconvulsive therapy. For its implementation, it is necessary to apply atropine premedication to reduce the secretion of salivary and bronchial glands and reduce the risk of arrhythmia and vagus overexcitation. The anesthetist then administers an ultra-short-acting anesthetic (often methohexitone), immediately after that a muscle relaxant (often hydrochloric suxamethonium) [Crammer, I., Barraclough, B., Heine, B. 1982. The use of drugsin psychiatry. Gaskell, London].

Other examples of the need for hardware exposure are situations where it is necessary to remove the patient from a state of stupor or to act on the receptor field of a person with stimuli of extreme strength, for example, to model behavior in an aggressive state of people. For this purpose, the following methods of exposure are used:

• Sound guns - emit a directional loud sound at the maximum possible perception of the organ of hearing

• Directional microwave generator - heats the human skin to pain

• Irritants - mucosal irritants

• Unpleasant odor - mixtures with a specific unpleasant odor

• Bright light - a laser beam that temporarily blinds the retina

• light and noise impact - light and noise grenades;

• infrasound exposure;

• electroshock exposure

A disadvantage of the known effects is that in order to achieve a result - modeling the psychoemotional state, it is necessary to first reduce the internal psychological stress, both due to the stress and conscious or unconscious opposition from the body. Another obstacle may simply be a time factor, when it is necessary to carry out the procedure quickly enough, without long preparation.

There are various ways to prepare for these procedures to increase their effectiveness. For example, inducing a trance state with the help of: hypnosis, autogenic training, body-oriented therapy, halotropic breathing, neuro-linguistic programming and other psychotherapeutic methods; massage, acupuncture, thermal effects, auditory and visual effects.

The closest analogue to the claimed technical solution is a method of correcting the patient’s functional state, in which the patient was previously exposed to an inert gas - inhalation with a xenon-oxygen mixture, then a course of traditional complex therapy, including physiotherapeutic procedures [Experience in the use of xenon in the treatment of patients with neurological profile, Kurbangaliev R.I., Avseytseva T.Yu., Potapkina Yu.M., Potapov A.V. Materials of the IV annual scientific-practical conference with international participation "Innovative medical technologies in the field of neurology and related medical specialties." Moscow, November 13, 2013 - M., Federal State Budgetary Institution “UNMTs” UD of the President of the Russian Federation, pp. 75-81].

The use of inhalation procedures in the known method made it possible to reduce the duration of treatment by 1.5-2 times and reduce the amount of necessary drugs and therapeutic procedures compared with the control group of patients.

The work emphasizes that inert gas inhalations and other subsequent procedures were carried out separately from each other with a time interval. During this time, the patient’s inert gas exposure was significantly reduced. However, the results show that even with residual inert gas effects, an increase in the hardware effect is visible.

In the proposed method, the effect of inert gases and the impact of hardware methods are carried out simultaneously, as a result of which a similar effect (the effect of the hardware effect) will manifest itself much stronger.

Achievable when using the proposed invention, the technical result is to reduce the internal opposition of the person to the correction procedures to provide the possibility of obtaining the effect of modeling the functional state.

The technical result is achieved by the fact that in the method of correcting the functional state of a person, inert gases are applied to a person and hardware methods are applied simultaneously in a confined space, while the onset of hardware effects is carried out 3-5 minutes after adding inert gases, at a concentration of 10% or more up to 80%, and the joint exposure time is determined depending on the exposure time of the selected hardware method.

The method is as follows.

In a closed space they place a person or group of people and change the gas environment that a person or group of people breathe. The gaseous medium is changed by adding inert gases directly to an enclosed space or remotely in special media using devices for quickly moving an inert gas carrier into an enclosed space.

When the gas environment of a confined space changes, by saturating the air with inert gases, these gases are inhaled and enter the body’s blood. After 3-5 minutes and more dissolved inert gases in the blood enter the brain and produce a psychotropic effect, changing the mental state of a person.

The addition of inert gases to the air can occur imperceptibly for a person in a confined space since they have no smell, color or taste, that is, they do not cause any sensations during inhalation. The use of this method can be carried out both with the consent of the patient, and covertly, without his consent, in the cases provided by law.

Hardware effects on the human body begin 3-5 minutes after adding inert gases to the gaseous environment of a closed room. The exposure time is determined by the time of the hardware exposure prescribed in the instruction manual. When a person’s functional state changes for a predetermined time or after a time specified in the device’s operating instructions with simultaneous exposure to inert gases and hardware effects on the human body, the exposure by this method ceases.

In contrast to the known method in the proposed method, the impact of inert gases and the impact of hardware methods are carried out simultaneously. This allows you to reduce the internal opposition of the person to the procedures for modeling her functional state.

Exposure to an inert gas or a mixture of inert gases and then exposure to hardware methods can be carried out in a confined space, for example:

• During physiotherapy individually or in a group method, people in the same room, for example, in a medical institution;

• In lie detection using a polygraph;

• When correcting aggressive behavior of people (mentally ill, prisoners held in FSIP institutions, armed criminals or opponents, etc.) taking refuge in confined spaces, including in rooms, basements or shelters.

To influence inert gases on the human body, various inert gases can be used, as well as mixtures of inert gases in the concentration necessary and sufficient for the effectiveness of the effect. The concentration of the gas mixture during the procedure is determined individually for each patient, depending on his psycho-emotional state at the moment before the main treatment procedures. The concentration of inert gases can be selected from 10 to 80%.

The effect of inert gases on the body has been studied quite well. Special mixtures of medical oxygen and inert gases (helium, argon, krypton, xenon) exhibit physiological activity under normal barometric pressure and are widely used as new means of healing and therapeutic effects on the human body.

So, the use of oxygen-helium mixtures with an inhalation apparatus is effective in treating a number of diseases of the respiratory system and the cardiovascular system, rehabilitation after hypothermia and physical activity [Barach A.L. The use of helium in the treatment of asthma and obstructive lesions of the larynx and trachea // Ann Intern Med. 1935. V. 9. P. 739-765; Orr J.B. Helium-oxygen gas mixtures in the management of patients with airway obstruction // Ear Nose Throat J. 1988. V. 67. P. 866-869], and the use of oxygen-argon hypoxic mixtures increases the body's resistance to hypoxic hypoxia and improves sleep after psychophysical loads [Shulagin Yu.A., Dyachenko A.I., Pavlov B.N. The effect of argon on human oxygen consumption during exercise under hypoxia // Human Physiology. 2001.V. 27. No. 1. S. 95-101]. Using xenon mixtures, it is possible to treat insomnia, neurosis of various etiologies, reactive and withdrawal conditions, reduce pain sensitivity, etc. [Burov N.E., Potapov V.N., Makeev G.N. Xenon in anesthesiology. Clinical and experimental studies. M .: “Pulse”. 2000.356 s]. At higher doses (over 70% of xenon) xenon anesthesia occurs.

Krypton gas has similar psychotropic effects, and it should be noted that it is an order of magnitude cheaper than xenon. A distinctive feature of the use of a krypton respiratory mixture is that the introduction of anesthesia at atmospheric pressure is impossible, and it is relatively safe with widespread use [A.Yu. Perov, B.M. Ovchinnikov, “Xenon Therapy Technique”, Preprint of the Institute of Nuclear Research, Russian Academy of Sciences, No. 1210/2008].

In the work of A.Yu. Perov, B.M. Ovchinnikov “Preliminary results of using argon-oxygen mixtures”, Preprint of the Institute of Nuclear Research, Russian Academy of Sciences, No. 1321/2012, argon (~ 1%), which is the most common inert gas in the atmosphere, has been experimentally proved that argon has an antistress effect and is an analgesic.

For inert gases, helium and neon have a less pronounced psychotropic effect and are described in [Dovgusha V.V. Discussion questions of the action of indifferent gases on the body. - SPb. LLC “Press Service”, 2011. - 116 p.].

In the claimed technical solution, it is proposed to use gas mixtures containing inert gases in a concentration of 10-80% (concentration is different for various inert gases and their mixtures) to enhance the result of a hardware effect on the human psyche in order to change a person’s mental state in a confined space.

In the proposed method, to change the mental state of a person and to enhance the result of hardware exposure during medical procedures, the operation of exposure to inert gases and the impact of hardware methods on the human body is carried out simultaneously.

Thus, the proposed method of correcting the functional state of a person fully ensures the achievement of the claimed technical result.

Claims (1)

A method for correcting the functional state of a person in which a person is exposed to inert gases and hardware methods, characterized in that the exposure to humans by inert gases and hardware methods are simultaneously carried out in a confined space, while the beginning of the hardware effect is carried out 3-5 minutes after adding inert gases, with an inert gas concentration of 10% to 80%, and the combined exposure time is determined depending on the exposure time of the selected hardware method.