RU2734567C1 - Endotracheal tube for artificial pulmonary ventilation with vocal cords protection - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to an endotracheal tube for the prevention of vocal cord injuries associated with mechanical ventilation. Tube comprises a cuff configured to be inflated and deflated by connecting a syringe to the Luer-Lok connector. Cuff is designed so that its degree of blowing is controlled by a balloon. Endotracheal tube is made with inserts from elastic membranes by the shape of a rounded rectangle in the area of vocal chords made with possibility of inflation, in the patient's inhalation phase, with the air flow from the ventilator and forming an opening corresponding to the diameter of the endotracheal tube, and blowing in the patient's exhalation phase, with reinforcement of the remaining portion of the tube wall within the vocal chords.

EFFECT: technical result is prolongation of artificial ventilation with ETT introduced into the respiratory tract and possibility of not tracheostomy.

3 cl, 4 dwg

Description

The endotracheal tube for artificial ventilation of the lungs with protection of the vocal cords refers to medicine, namely, to anesthesiology, resuscitation, intensive care and palliative care, and is used to prevent trauma to the vocal cords by the walls of endotracheal (tracheostomy or endotracheal) tubes during mechanical ventilation ( IVL).

Endotracheal tubes (ETTs) seal the airways below the vocal cords. Typically, the endotracheal tube is inserted into the patient until its distal end is behind the vocal cords, but some distance above the patient's tracheal bifurcation, which allows the ETT cuff to form a seal at an appropriate location in the lower airway space. Since the airways are narrowed around the vocal cords, in some patients the airway diameter in the vocal cords may be close to the outer diameter of the ETT, which can lead to edema of the vocal cords and subsequently to their paralysis. Vocal cord injuries are often irreversible. With mechanical ventilation, the mechanism of damage to the vocal cords consists in ischemia of the mucous and submucous layer of the vocal cords. This is due to their constant compression by the endotracheal tube, as a result of which the vessels supplying the soft tissues of the vocal cords narrow, which, in turn, leads to a decrease in the volumetric blood flow through these vessels and a violation of trophism (supply of oxygen and nutrients) of the cells that make up the soft tissues vocal cords.

Currently, the problem of damage to the vocal cords is solved by performing a tracheostomy operation at a certain period of mechanical ventilation. Tracheostomy is a surgical intervention that requires follow-up and treatment, as well as a number of possible complications, including fatal ones.

Conventional ETT (eg, HI-Contour Covidien) around the vocal cords has a circular section, while the glottis has a triangular section. The present invention is an ETT, in the wall of which membranes of a plastic material are inserted in the region of the vocal cords. Thus, during the patient's inhalation phase, this material is inflated by the air flow from the ventilator and forms an opening corresponding to the ETT diameter, and during the patient's exhalation phase, the walls are retracted, ensuring the prevention of vocal cord stenosis. Due to the elasticity of the membrane material, ETT is able to take the shape of the glottis, reducing trauma. In this case, the rigidity and integrity of the ETT in this section is supported by the reinforcement of the remaining section of the tube wall. Also, for the convenience of the doctor, it is possible to place the membranes perpendicular to the sagittal plane of the tube.

The outlined essence of the invention by the drawings, which show:

1. Figure 1 shows a top view of the patented ETT.

2. Figure 2 shows a side view of the patented ETT.

3. Figure 3 schematically shows the location of the patented ETT in the region of the vocal cords in the inspiratory phase.

4. Figure 4 schematically shows the location of the patented ETT in the region of the vocal cords in the expiratory phase.

Figure 1 shows a top view of the patented ETT. The ETT cuff (1) is inflated and deflated by connecting a syringe to the Luer Lock connector (2), the inflation rate is controlled by a balloon (3). ETT is connected to the ventilator through the connector (4). Position 5 denotes the part of the ETT located in the glottis.

Figure 3 shows the placement of the patented ETT in the region of the vocal cords (1) in the inspiratory phase. Shown is a reinforcing element (2) and an air channel for cuff inflation (3). Elastic membranes (4) take the form of ligaments and gently squeeze them only during the patient's inhalation phase, without exerting pressure during the patient's exhalation phase.

Figure 4 shows the placement of the patented ETT in the region of the vocal cords in the expiratory phase.

Thus, the described invention will help to prolong the period of mechanical ventilation with ETT introduced into the airways and in many cases to avoid tracheostomy.

Claims (3)

1. Endotracheal tube for the prevention of vocal cord injuries associated with mechanical ventilation, containing a cuff designed to inflate and deflate by connecting a syringe to the Luer Lock connector, while the cuff is made in such a way that the degree of its inflation is controlled by a balloon, while the endotracheal tube made with inserts of elastic membranes in the shape of a rounded rectangle in the vocal cords, made with the possibility of inflating, during the patient's inhalation phase, by the air flow from the ventilator and the formation of an opening corresponding to the diameter of the endotracheal tube, and deflation during the patient's exhalation phase, with reinforcement of the remaining wall section tubes in the area of the vocal cords. 2. The endotracheal tube according to claim 1, the membranes of which are rotated perpendicular to the sagittal plane of the tube. 3. Endotracheal tube according to claim 1 or 2, having an air channel for inflating the cuff of the endotracheal tube, with a diameter of 1 mm to 1.5 mm.

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