RU55564U1 - LARINGOSCOPE FOR INTUBATION OF A TRAJA USING HIGH FREQUENCY ARTIFICIAL LUNG VENTILATION - Google Patents

Abstract

The utility model relates to medicine, to laryngoscopes for examination of the larynx and tracheal intubation using high-frequency mechanical ventilation. The objective of the utility model is to create a laryngoscope for tracheal intubation using high-frequency artificial lung ventilation, ensuring the possibility of a long examination of the patient’s oropharynx up to his vocal cords in the absence of independent breathing in the patient, the ability to adequately preserve the patient’s gas exchange of the patient’s lungs, and making it possible to observe the introduction of vocal ligaments of the patient's endotracheal tube for mechanical ventilation, as well as receiving the possibilities of its use as a teaching aid in training novice anesthetists. To solve the problem, a laryngoscope for intubation of the trachea using high-frequency artificial lung ventilation was proposed, including a blade with a lamp of the lighting system placed on it and a handle connected to the blade, in the cavity of which the power supply of the lighting system is placed, the new one of which is that the blade is additionally rigid a tube for supplying a pulsating jet of oxygen is installed, and the end of the tube for introducing a pulsating jet of oxygen protrudes beyond the base of the blade and is equipped with a unit for connecting to the appa atom of high frequency ventilator and the other end of the exit tube pulsating jet of oxygen is placed on the blade distal to a 10-20 mm bulb lighting system (i.e., protrudes 10-20 mm for a lighting bulb laryngoscope system). The tube for supplying a pulsating jet of oxygen is made with a diameter of 1.5-3 mm metal or polymer.

Description

The utility model relates to the field of medicine, namely to laryngoscopes for examination of the larynx and tracheal intubation using high-frequency mechanical ventilation.

A laryngoscope is known that contains a blade with a lamp of the lighting system placed on it and a handle connected to the blade, in the cavity of which the power supply unit of the lighting system is located (see RF patent for utility model No. 39998, IPC 7 A 61 V 1/267, 2004 )

However, the known laryngoscope has the following disadvantages:

- the impossibility of a long examination of the patient’s oropharynx up to his vocal cords in the absence of independent breathing in the patient,

- the inability to adequately preserve the gas exchange of the lungs of the patient,

- the inconvenience of observing the introduction process of the endotracheal tube for the patient’s vocal cords for mechanical ventilation,

- a laryngoscope is inconvenient when used as a training tool for training novice anesthetists.

The objective of the utility model is to create a laryngoscope for tracheal intubation using high-frequency mechanical ventilation.

The technical result is the possibility of a long examination of the oropharynx of the patient up to his vocal cords in the absence of independent breathing in the patient, the ability to adequately preserve the patient’s gas exchange in the lungs of the patient, the possibility of monitoring the insertion of the endotracheal tube for the patient’s vocal cords for mechanical ventilation, and also the possibility of its use as a teaching aid in training novice anesthetists.

The technical result is achieved by the fact that the proposed laryngoscope for tracheal intubation using high-frequency artificial lung ventilation, contains a blade with a lamp of the lighting system placed on it and a handle connected to the blade, in the cavity of which the power supply of the lighting system is placed, while the tube is additionally rigidly mounted on the blade the supply of a pulsating jet of oxygen, and the end of the input tube of a pulsating jet of oxygen protrudes beyond the base of the blade and is equipped with a unit

connections to the high-frequency artificial lung ventilation apparatus, and the other end of the pulsating oxygen jet exit tube is placed on the blade distal to 10-20 mm of the light bulb of the lighting system (i.e., 10-20 mm protrudes from the light bulb of the laryngoscope lighting system). The tube for supplying a pulsating jet of oxygen is made with a diameter of 1.5-3 mm metal or polymer.

Among the essential features of the proposed laryngoscope for tracheal intubation using high-frequency mechanical ventilation, the following are distinguishing:

- rigid placement on the blade of the laryngoscope of the pulsating oxygen jet supply tube, the end of the pulsating oxygen jet input tube protruding beyond the base of the blade and equipped with a connection unit to the high-frequency artificial lung ventilation apparatus, and the other end of the pulsating oxygen jet output tube placed 10-20 distal on the blade mm light bulbs of the lighting system,

- the implementation of the pipe supply pulsating jet of oxygen with a diameter of 1.5-3 mm from a metal or polymeric material.

The tests of the proposed laryngoscope for tracheal intubation using high-frequency mechanical ventilation in clinical conditions have shown its high efficiency. At the same time, it was found that the possibility of a long-term examination of the patient’s oropharynx, up to his vocal cords, in the absence of

the patient's spontaneous breathing, it was possible to adequately preserve the patient’s gas exchange in the lungs of the patient, it was possible to observe the process of introducing the endotracheal tube for the patient’s vocal cords for mechanical ventilation, and it was also possible to use the laryngoscope as a training tool for educating novice anesthetists.

The essence of the proposed technical solution is illustrated by the drawing, where Fig. 1 shows a diagram of the proposed laryngoscope for intubation of the trachea using high-frequency mechanical ventilation, and in Fig. 2 is a view along AA.

A laryngoscope for tracheal intubation using high-frequency artificial lung ventilation contains a blade 1 with a lamp 2 of the lighting system placed on it and a handle 3 connected to the blade, in the cavity of which the power supply of the lighting system is placed (not shown in Fig. 1). A tube 4 for supplying a pulsating jet of oxygen is rigidly mounted on blade 1 of the laryngoscope, and the end 5 of the tube for introducing a pulsating stream of oxygen projects beyond the base of the blade 1 and is equipped with a unit 6 for connecting to a high-frequency artificial lung ventilation apparatus, and the other end 7 of the tube for exiting the pulsating stream of oxygen is placed on the blade distal to 10-20 mm of bulb 2 of the lighting system (i.e., protrudes 10-20 mm of bulb 2 of the lighting system of the laryngoscope). In this case, the pulsating jet supply tube

oxygen is made with a diameter of 1.5-3 mm metal or polymer.

A laryngoscope for tracheal intubation using high-frequency mechanical ventilation is operated as follows. Before the operation, the doctor introduces the blade 1 of the laryngoscope into the patient’s open oral cavity. A pulsating oxygen stream under a pressure of 1.5-3 atm at a pulsation frequency of 120 per minute is fed through a tube 4 to supply a pulsating stream of oxygen from a block 6 located at its end 5 of the connection unit 6 with a high-frequency artificial lung ventilation apparatus to the oropharynx of a patient. The ratio of inspiration to exhalation is from 1: 1 to 1: 2. The doctor examines the patient’s oropharynx, determines the position of the glottis and inserts an endotracheal tube into it. It starts standard mechanical ventilation and removes a laryngoscope from the patient’s oropharynx.

Claims (2)

1. A laryngoscope for intubation of the trachea using high-frequency artificial lung ventilation, comprising a blade with a lamp of the lighting system placed on it and a handle connected to the blade, in the cavity of which there is a power supply for the lighting system, characterized in that the pulsating jet supply pipe is additionally rigidly mounted on the blade oxygen, and the end of the input tube of a pulsating jet of oxygen protrudes beyond the base of the blade and is equipped with a unit for connecting to a high-frequency artificial ventilations of the lungs, and the other end of the tube exit the pulsating stream of oxygen is placed on the blade distal to 10-20 mm of the lamp of the lighting system. 2. The laryngoscope according to claim 1, characterized in that the tube for supplying a pulsating stream of oxygen is made with a diameter of 1.5-3 mm metal or polymer.