RU2380123C2 - Method for decreasing chronic tissue hypoxy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine and can be used in treating the diseases accompanied with chronic tissue hypoxy. That is ensured by breathing of hypercapnic respiratory mixture created by the patient by mixing the proper exhaled and atmospheric inhaled air in a respiratory device representing a mixing chamber mask of capacity 0.8 litres. A mask is put on to the patient's face with embedding nose, mouth and chin and fixing so that to ensure free breathing, and adjusting the gaps the face and mask, herewith preventing air drags. A mask is individually matched for each patient depending on the rest exhalation volume. Its capacity shall be 100-150%, and dimensions shall not impede sight and head movements of the patient. The mask breathing is continuous to enable normal ventilation indicated by improved health state and achieved time of after-exhalation rest breath-holding 40-60 seconds.

EFFECT: method allows for considerable reduction of chronic tissue hypoxy due to continuous inhalation of the hypercapnic mixtures regardless of the environment.

Description

The invention relates to medicine, namely to methods for reducing chronic tissue hypoxia, based on the adaptation of the respiratory center by creating a state of hypercapnia in the lungs, which reduces the minute volume of respiration, increases the degree of dissociation of oxyhemoglobin, as a result, the absorption of more oxygen by tissues a decrease in hypoxia.

The prototypes of this invention were inventions: USSR No. 1067640 (Buteyko KP method), RF No. 2133629 (Nenashev A.A., Levkin S.F.).

The Buteyko method is based on the voluntary submission of the work of the respiratory center to the patient’s consciousness, which forces him to constantly reduce the volume and depth of breathing, which helps to increase the concentration of carbon dioxide in the blood alveoli, increase oxygen return to tissues, and reduce hypoxia. The method is highly effective, but has not found wide application due to overexcitation of the central nervous system, caused by constant monitoring of consciousness over the work of the respiratory center; many patients can not withstand overvoltage and are not able to master the method.

The Nenashev-Levkin method also intervenes in the work of the respiratory center, but already using a complex external mixing device having control systems: inhalation-expiration resistance, volume of the mixing device, which allows increasing the concentration of carbon dioxide in the alveoli, leading to a decrease in hypoxia. Breathing by this method is possible only in stationary conditions, only in short sessions, only through the mouth, which causes negative reactions.

It is known that attacks of bronchial asthma occur with increased inflammation and hypersecretion of mucus in the lungs, which leads to obstruction of the lungs, causes deep breathing, hyperventilation. Any disturbances at this time to deep breathing and hyperventilation are contraindicated.

Therefore, both methods are not suitable for relieving attacks of suffocation, angina pectoris, blood pressure, but create the conditions for their prevention, reduce the need for harmful medications.

The technical task of the invention is the creation of a method that is superior to the existing ones: that does not cause overexcitation of the central nervous system, which does not interfere with the work of the respiratory center, but based on its work; not having harmful side effects, as simple as possible, safe, available for use at any time, anywhere, for patients of any age, in any condition: during attacks of suffocation, angina pectoris, blood pressure; suitable for the prevention and prevention of heart attacks, strokes and other diseases based on alkalosis, hyperventilation, tissue hypoxia; not requiring the use of harmful medications.

The technical problem is solved on the basis of concepts known in medicine: a) the respiratory center always creates optimal ventilation of the lungs depending on the pathological condition of the body. This ventilation is different from normal; b) any increase in aerodynamic drag of ventilation in the pathological condition of the body is harmful; c) ventilation of the lungs is a diagnosis of the birth and death of a person, therefore, by the type of ventilation, you can diagnose the type of pathological condition of the body. Hyperventilation corresponds to alkalosis, hypoventilation - acidosis.

Textbooks on human physiology state that “normal ventilation” corresponds to a normal state of health: normal ventilation of the lungs, in which normal metabolic needs of the body are provided. Normoventilation is characterized by the following parameters: a constant content of carbon dioxide (CO ₂ ) in the alveoli equal to 5.6%, or its voltage equal to 40 mm Hg, minute breathing volume at rest MOD = 5 l / min or breath holding after expiration of at least 40 s, the indicator of acid-base balance KShR-pH = 7.4 units

A pathological type of health condition is known - alkalosis - a lack of acids in the body (pH = 7.43 units or more). Alkalosis corresponds to “hyperventilation” - increased ventilation of the lungs, exceeding the metabolic needs of the body (concentration of CO ₂ in the alveoli is less than 4.9%, CO ₂ voltage is less than 35 mm Hg, MOD = more than 5.7 l / min, breath holding after expiration less than 30 s). A lack of CO ₂ and acids is the basis of tissue hypoxia and a bouquet of diseases: broncho-pulmonary, gastrointestinal, cardiovascular, nervous, endocrine, etc.

The less CO ₂ in the blood, the red blood cell, the less hemoglobin gives oxygen to the tissues. If the content of CO ₂ reaches 3%, death occurs. Medical practice shows that doctors of all specialties who do not restore normal ventilation in their patients, bring them to cardiovascular diseases with their harmful medicines and refer them to cardiologists, while repeating the mistakes of their colleagues, they bring their poisonous “medicines” patients to heart attacks, strokes and the coffin.

This is the sad fact of modern drug medicine.

Obviously, reduction of hypoxia can be achieved only in one way - restoration of CO ₂ in the alveoli - restoration of normo ventilation. The fastest way is to give CO ₂ to the lungs in the right amount, and only the body knows this amount, but it is sick and has lost the ability to maintain the constancy of CO ₂ in the alveoli, it needs help.

The technical task posed is solved in the following way: a) to return the missing CO ₂ , you need a device outside, in front of the person’s breathing system; b) the device should not create aerodynamic resistance to breathing; c) the dimensions of the device should not interfere and create negative effects; g) the capacity of the device should allow and not interfere with the respiratory center to regulate the composition of the respiratory mixture in the alveoli. Such a device can only be a mask in which are immersed: nose, mouth, chin. The mask (invention of the Russian Federation No. 2296589) does not have air ducts and other parts that create resistance to inhalation-exhalation. The capacity of the mask and its dimensions are selected individually: the capacity is 100-150% of the expiratory volume of the patient, and the dimensions should not interfere with the vision and movement of the patient’s head. For adults, the maximum volume of the mask is about, up to 0.8 liters, for children - less. The mask is fixed on the face. Immersed in it: nose, mouth, chin, it becomes an integral part of the respiratory system, additional vital capacity of the lungs and is completely subordinate to the respiratory center, helping it to create the necessary CO ₂ content in the alveoli.

Thus, all the technical tasks set are solved.

A mask capacity of up to 0.8 liters (100-150% of the patient’s expiratory volume at rest) guarantees complete safety from hyper-limiting hypercapnia due to the possibility of the respiratory center increasing the expiratory volume by several times compared to the mask volume, and the mod up to 120 liters per minute .

The work of the proposed method for reducing chronic tissue hypoxia occurs as follows. The patient fixes the mask on the face so that it breathes freely, adjusting the gaps between the face and the mask, the depth of immersion of the face in the mask, creates the net mask capacity that is currently needed. Starts breathing freely. Let us follow the simplified process of the formation of a hypercapnic mixture in a mask and its feeding into the alveoli.

Suppose that the patient’s breathing is stable: MOD = 10 l / min, expiratory volume is 0.5 liters, the number of inspiratory exhalations = 20 cycles / min, one cycle time is 3 s, net mask capacity is 0.5 l, lung capacity is 5 liters, the lack of CO ₂ (carbon dioxide) in the tissues is 1%, the patient’s mass = 72 kg, the content of CO ₂ in exhaled air is 3.6%, taken as 1; the content of CO ₂ in atmospheric air is 0%.

The first cycle: exhale into the mask (0 + 1): 2 = 0.50, inhale (0.5 + 0): 2 = 0.25;

second cycle: exhale into the mask (0.25 + 1): 2 = 0.625, inhale (0.625 + 0): 2 = 0.312, etc. The concentration coefficient of CO ₂ in the mask, with a mask capacity = expiratory capacity is an average of 0.33. Therefore, with each breath, a mixture with the content of CO ₂ = 3.6% × 0.33 = 1.2% will enter the lungs. Since lung volume = 5 L, the concentration of CO ₂ in the alveoli will increase by only 0.12% per cycle. In total, the body lacks 1% CO ₂ or 1% × 72 = 72%, in order to eliminate this deficit, it is necessary to perform 72%: 0.12% = 600 cycles. The duration of one cycle is 3 s. In total, 600 × 3 = 1800 s or 30 minutes of therapeutic breathing in a mask will be required. If the mask capacity is 150% exhale, then the concentration coefficient in the mask is 0.36.

Practical use of the invention to relieve attacks of bronchial asthma, angina pectoris, blood pressure showed that for the relief of these attacks requires 30-40 minutes of continuous breathing in the mask. To prevent attacks and prevent all diseases based on alkalosis and tissue hypoxia, it is advisable to use therapeutic respiration continuously for as long as necessary for a complete re-adaptation of the respiratory center. Breaks in therapeutic respiration are made when reaching the mod = 5 l / min, or holding the breath after exhalation for at least 40 s. The method allows you to use therapeutic breathing in the mask for unlimited time: in motion, while driving, during sleep, which contributes to the fastest improvement in health without the use of harmful medications, thus saving patients from getting new diseases of medication.

Therefore, the proposed method is superior to all existing methods of reducing tissue hypoxia, based on the adaptation of the respiratory center using hypercapnic mixture, created on the basis of its own exhaled and inhaled atmospheric air. The invention is patentable.

Complete normocapnia, normoventilation, tissue normoxia are possible only with a combination of proper thinking, proper nutrition and normal physical activity, selected by the patient himself.

Claims (1)

A method of reducing chronic tissue hypoxia, including ventilation of the lungs with a hypercapnic mixture created by a patient by mixing their own exhaled and atmospheric inhaled air in a breathing device with a hypercapnic respiratory mixture, which is a mixing chamber mask with a capacity of up to 0.8 l, into which the nose is immersed, the mouth, chin, mask are fixed on the face so that they breathe freely, adjusting the gaps between the face and the mask, do not allow the occurrence of aerodynamic drag in the gaps I wait with a face and a mask, characterized in that a safe device for breathing with a hypercapnic respiratory mixture - a mask is selected individually for each patient; mask capacity is 100-150% of the patient’s expiratory volume at rest, and its dimensions should not interfere with the vision and movement of the patient’s head; at the same time, continuous breathing in the mask is performed until normoventilation is ensured, which is determined by the improvement in well-being and the achievement of a patient’s breath holding time after exhalation in the amount of 40-60 s at rest.