RU219967U1 - Endotracheal tube for ventilation with protection of the vocal cords with a solid membrane and a reinforcing element - Google Patents

Abstract

The utility model relates to medicine, namely to anesthesiology, resuscitation, intensive care and palliative care, and is used to prevent injury to the vocal cords by the walls of endotracheal (tracheostomy or intubation) tubes during artificial lung ventilation (ALV). The present invention is an endotracheal tube (ETT), the wall of which in the region of the vocal cords is represented by a continuous membrane in the form of a rounded rectangle made of plastic material. Thus, during the patient’s inhalation phase, this material swells and forms a hole corresponding to the diameter of the ETT, and during the patient’s exhalation phase, the walls are drawn in, providing prevention of vocal cord stenosis due to less pressure of the wall made of elastic material on the vocal cords and, accordingly, less ischemia. At the same time, the rigidity and integrity of the ETT in this area is maintained by reinforcing the remaining section of the tube wall with a metal tube located in the channel for inflating the ETT cuff in the ETT wall in the region of the vocal cords. The authors are aware of the invention No. 2734567 "An endotracheal tube for artificial lung ventilation with protection of the vocal cords", where the reinforcing element and the channel for inflating the cuffs are presented separately, and has two flexible membranes. The current invention differs from No. 2734567 in the method of implementing reinforcement, the shape and number of elastic membranes, the new invention is intended to perform the same tasks and functions, however, due to a different method of implementing reinforcement and membranes, it is more technologically advanced and better suited for industrial production.

Description

The utility model relates to medicine and is used to prevent injury to the vocal cords by the walls of endotracheal tubes (ETT) during artificial lung ventilation (ALV).

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, allowing the ETT cuff to seal the airway at the appropriate location between the tracheal bifurcation and the vocal cords. Since the airways narrow in the region of the vocal cords, since the vocal cords form the so-called "glottis", which has a slit-like shape close to triangular, while the transverse size of the airways in the region of the vocal cords is less than the outer diameter of the ETT in most patients, which leads to constant compression of the soft tissues of the vocal cords and the vessels in them by the walls of the ETT, which leads to the development of ischemia of the tissues of the vocal cords, which, depending on the duration of this ischemia, leads to inflammation and swelling of the vocal cords and subsequently to their paralysis, the appearance of gross defects or granulomas leading to the impossibility of phonation and persistent disability. The described lesions of the vocal cords are often irreversible. With mechanical ventilation, the mechanism of damage to the vocal cords is ischemia of the mucous and submucosal layers of the vocal cords. This occurs due to their constant compression by the endotracheal tube, as a result of which the vessels that feed the soft tissues of the vocal cords narrow, which in turn leads to a decrease in volumetric blood flow through these vessels and disruption of trophism (supply of oxygen and nutrients) to the cells that make up the soft tissues. vocal cords.

Currently, the problem of damage to the vocal cords is being solved by performing a tracheostomy operation at a certain period of mechanical ventilation. Tracheostomy is a risky surgical procedure that requires follow-up and treatment, and has a number of possible complications, including death. In addition, after a tracheostomy, an unaesthetic scar remains on the patient’s neck, and post-tracheostomy stenosis may subsequently develop in the damaged area of the trachea, which will lead to the need for expensive and dangerous reconstructive operations, and may result in disability due to persistent organ dysfunction.

A conventional ETT (eg HI-Contour Covidien) in the vocal cord region has a circular section, while the glottis has a triangular section.

The authors are aware of the invention No. 2734567 "An endotracheal tube for artificial lung ventilation with protection of the vocal cords", where the reinforcing element and the channel for inflating the cuffs are presented separately, and has two flexible membranes. The current invention differs from No. 2734567 in the method of implementing reinforcement, the shape and number of elastic membranes, the new invention is intended to perform the same tasks and functions, however, due to a different method of implementing reinforcement and membranes, it is more technologically advanced and better suited for industrial production.

The present invention is an endotracheal tube (ETT), the wall of which in the region of the vocal cords is represented by a continuous membrane in the form of a rounded rectangle made of plastic material. Thus, during the patient’s inhalation phase, this material swells and forms a hole corresponding to the diameter of the ETT, and during the patient’s exhalation phase, the walls are drawn in, providing prevention of vocal cord stenosis due to less pressure of the wall made of elastic material on the vocal cords and, accordingly, less ischemia. At the same time, the rigidity and integrity of the ETT in this area is maintained by reinforcing the remaining section of the ETT wall with a metal tube located in the channel for inflating the ETT cuff in the ETT wall in the region of the vocal cords. The walls of the ETT in the distal part of the membrane are bevelled at an angle of 45° so that the suction catheter does not cling to the edge. The essence of the invention is set forth in the drawings, which show:

1. Figure 1 shows a top view of a patent-pending ETT.

2. Figure 2 is a side view of a patent-pending ETT.

3. Figure 3 schematically shows the location of the patent-pending ETT in the region of the vocal cords in the inspiratory phase.

4. Figure 4 schematically shows the location of the patent-pending ETT in the region of the vocal cords in the expiratory phase.

Figure 1 shows a top view of a patent-pending ETT. The ETT cuff (1) is inflated and deflated by connecting the syringe to the Luer Lock connector (2), the degree of inflation is controlled by the balloon (3). The ETT is connected to the ventilator via connector (4). Position 5 denotes the part of the ETT located in the glottis. The diameter and length of the ETT varies within the size range.

Figure 3 shows the placement of the patent-pending ETT in the region of the vocal cords (1) in the inspiratory phase. Shown is the metal tube located in the inflation port of the ETT cuff (2). The elastic membrane (4) takes the shape of the glottis and gently compresses the vocal cords only during the patient's inhalation phase, without exerting pressure on them during the patient's exhalation phase.

Figure 4 shows the placement of the patent-pending ETT in the region of the vocal cords in the expiratory phase.

The endotracheal tube can be made with an elastic membrane and a metal tube turned perpendicular to the sagittal plane of the endotracheal tube.

The endotracheal tube described in this utility model can be manufactured in sizes from 3.0 mm to 8.0 mm, in 0.5 mm increments.

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

Claims (3)

1. Endotracheal tube for the prevention of vocal cord injuries associated with mechanical ventilation with a continuous section of an elastic membrane in the form of a rounded rectangle for placement in the vocal cord area, with a section of the tube wall reinforced with a metal tube in the vocal cord area, placed in the channel for inflating the endotracheal cuff tube, made with the possibility of connection to the ventilator by means of a connector, with the possibility of inflating the elastic membrane corresponding to the diameter of the endotracheal tube in the patient's inhalation phase, and deflating in the patient's exhalation phase, while the walls of the endotracheal tube in the distal part of the elastic membrane are beveled at an angle of 45°. 2. Endotracheal tube according to claim 1, characterized in that the elastic membrane and the metal tube are turned perpendicular to the sagittal plane of the endotracheal tube. 3. Endotracheal tube according to claim 1 or 2, characterized in that it is made in sizes from 3.0 mm to 8.0 mm, in increments of 0.5 mm.