SU1635959A1 - Method for diagnosing disturbed bronchial passability - Google Patents

Abstract

This invention relates to medicine, in particular to resuscitation and emergency pulmonology. The purpose of the invention is to improve the accuracy of diagnosis and reduce the trauma of the method. The patient is measured by the velocity and pressure of the air flow, the respiratory volume and resistance are determined, and air oscillations are applied at a frequency of 4-20 Hz and a sinusoidal pressure with amplitude less than the amplitude of the pressure developed in the respiratory paths with normal breathing, the aerodynamic drag and respiratory impedance dependencies on the respiratory volume are calculated and, based on the form of the dependence, the behavior of the patency of the armor is judged ialnogo tree during the respiratory cycle. The accuracy of diagnosis is increased due to the possibility of studying the bronchial patency in the state of apnea and on the background of artificial ventilation of the lungs, and the intra esophageal administration of pressure sensors is excluded. (Ls

Description

This invention relates to medicine, in particular to anesthesiology and resuscitation.

The purpose of the invention is to improve the accuracy of diagnosis and reduce the trauma of the method.

The method is carried out as follows.

The patient being monitored is supplied with air flow oscillations at a frequency of 8-10 Hz through a mouthpiece. A dynamic emitter connected to the NIHONKOHDEN low-frequency generator MRP-6 is used as the oscillation source. Air pressure and speed

are converted by pneumotachograph to electrical signals that are processed on the measuring and computing complex. PRI me R 1, Patient H., suffering from obstructive bronchitis with chronic respiratory failure, 35 years. A study of the aerodynamic resistance of the airways was carried out with the flow of sinusoidal pressure oscillations through the mouthpiece. The oscillation frequency is 10 Hz, the amplitude is 2 cm Н20 / l / s. At the outer end of the mouthpiece, measurements were made of the volumetric flow rate of the total flow and the magnitude of the total pressure. Analysis of dependencies

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simulations of these values from time to time and comparing them with each other allowed us to find the aerodynamic resistance of the airways at more than 40 points of the respiratory cycle, including at points 50, 75 and 90% of the tidal volume. The presence of a sharp increase in aerodynamic resistance at the end of expiration indicated that the main mechanism of obstruction is the expiratory closure of the airways. The treatment method chosen in connection with this - breathing sessions with positive end-expiratory pressure (Peep) allowed the patient to significantly improve his condition.

PRI mme R 2. Monitor control in intensive care.

Sick A., diagnosed with a myastonic curve, acute respiratory failure associated with hypersecretion of the tracheal glands and obstruction of the respiratory tract + ways, mucus when it is not possible to cough effectively because of the weakness of the respiratory muscles. Intubation trachea. Pressure tubes of a sinusoidal shape with a frequency of 10 Hz and an amplitude of 3 cm HzO / l / s were applied through the intubation tube. The study of aerodynamic resistance of the respiratory tract was carried out according to the described method. The accumulation of viscous mucus in the respiratory tract led to an increase in aerodynamic drag. This was a signal for timely rehabilitation of the respiratory tract even before the onset of clinical signs of obstructive respiratory failure.

Example Patient B., 38 years old, Shock Lung Syndrome. Intubation trachea. Artificial ventilation of the lungs. The application of the proposed monitoring method allowed us to recognize the displacement of the end of the endotracheal tube from the trachea to the bronchus (endobronchial intubation) due to a sudden sharp increase in aerodynamic resistance, correct the position of the tube, prevent the development of hypoxia and lung barotrauma.

The method provides objective control during the selection of bronchodilator therapy, 5 allows to give an objective assessment of the effectiveness of respiratory therapy, including the selection of the optimal positive pressure at the end of expiration.

Claims (1)

Invention Formula A method for determining violations of bronchial permeability by measuring the speed and pressure of the air flow over time, determining tidal volume and resistance, characterized in that, in order to improve diagnostic accuracy and reduce the morbidity of the method, air oscillations with a frequency of 4-20 Hz and sinusoidal pressure are applied Forms with an amplitude less than the amplitude of pressure developed in the respiratory tract during normal breathing determine the respiratory impedance, then the dependence of the aerodynamic drag respiratory impedance of the respiratory volume on which is judged on the bronchial tree patency during the respiratory cycle, 0 0 five 0 five