RU128998U1 - TRANSPARAHE SINGLE-LIGHT CATHETER FOR JET BLOW VENTILATION - Google Patents

Abstract

Transtracheal single-lumen catheter for jet ventilation of the lungs, characterized in that it is made of flexible elastic material and has a rectilinear proximal section and a section in the form of a cylindrical spiral for fixation of the catheter when it is inserted into the trachea, ending in a rectilinear section located along the axis of the cylindrical spiral.

Description

The utility model relates to the field of medicine, namely to single-lumen transtracheal catheters for jet lung ventilation, and can be used for artificial lung ventilation (SIVL) in otorhinolaryngology, anesthesiology and resuscitation.

Known endotracheal catheter for high-frequency jet ventilation of the lungs with a clamp made in the form of a wave-like end section of the tube that is curved in one plane, which protects the mucous membrane of the trachea from damage during high-frequency exposure to a gas jet [A.S. SU 1516115 A1 of the USSR, A61H 31/02].

Disadvantage: the lack of stabilization of the distal end of the catheter during the passage of an intermittent stream of gas under high pressure.

Known transtracheal single lumen catheter having a diameter of 1.2-1.4 mm, installed in the trachea by puncture percutaneous method. [Pluzhnikov M.S., Karpishchenko S.A., Ryabova M.A. Contact laser phonosurgery, 2005, p.20]. Carrying out jet ventilation through such a catheter located outside the surgical field provides the maximum possible view of the operating area, freedom of manipulation of the surgeon and eliminates the entry of blood and particles of tissue removed into the lower respiratory tract, and also frees the area of operation from smoke, thereby improving visualization of the field. This catheter is accepted by the authors as a prototype.

The disadvantage of the prototype: there is no fixation of the central position of the catheter in the trachea, which causes a high risk of trauma to the mucous membrane of the trachea with a gas stream flowing from the nozzle of the catheter.

The technical result of the utility model is to reduce damage to the tracheal wall and improve gas exchange in the lungs.

The specified technical result is achieved by the fact that the known single-lumen trans-tracheal catheter for jet ventilation of the lungs, according to the invention, is made of elastic elastic material and has a rectilinear proximal section, and a section in the form of a cylindrical spiral for fixation of the catheter when it is inserted into the trachea, ending in a rectilinear section located along the axis of the cylindrical spiral.

The proposed design allows to give the catheter a stable central position when it is inserted into the trachea due to the presence of a section in the form of a cylindrical spiral. The turns of the cylindrical spiral are straightened and serve as catheter retainers, resting against the walls of the trachea along its entire circumference. In this case, the rectilinear section, which is the end of the section in the form of a cylindrical spiral and located along its axis, occupies a position along the axis of the trachea. Thus, the catheter nozzle (the end of the straight portion that ends the cylindrical spiral) is located along the axis of the trachea, while contact with the mucous membrane of the trachea is excluded, and the gas mixture flow is evenly distributed in the intratracheal space, which provides more efficient ventilation of both lungs.

The utility model is illustrated in figures 1, 2, where:

figure 1 presents a General view of the proposed catheter;

figure 2 presents the proposed catheter in action.

A single-lumen tranchecheal catheter for jet ventilation of the lungs, which is a tube with a diameter of 1.2-1.4 mm made of elastic material, consists of a rectilinear proximal section 1 and section 2 in the form of a cylindrical spiral consisting of 3-5 turns (half rings) with a diameter of 10 -20 mm in increments of 5 mm, and ending in a straight-line (5-6 mm) section 3, located along the axis 4 of the cylindrical spiral.

The device operates as follows.

A catheter from the side of section 2 is put on a metal conductor, a section 2 having the shape of a cylindrical spiral is straightened, and inserted into the trachea 5 through a puncture needle with a diameter of 2 mm. After insertion, the conductor is removed, due to its elastic-elastic properties, the portion 2 in the form of a cylindrical spiral restores its original shape, the turns of the spiral abut against the walls of the trachea 5 along the entire circumference and the rectilinear section 3, which is a continuation of the cylindrical spiral of the distal section 2, takes a position along the axis of the trachea 5. Such a fixed position of the catheter inside the trachea 5 allows the gas stream to fill the entire lumen of the trachea 5 and provide uniform bipulmonary ventilation. The rectilinear proximal part 1 of the catheter remains on the outside of the trachea 5 and serves to interface with the equipment for conducting SIWL.

Two ways of introducing a catheter are possible: intralaringeal and transtracheal. The introduction of a catheter on a metal conductor with the intralaryngeal method allows it to be inserted into the lower third of the trachea through the narrowing (stenosis) of the larynx or upper sections of the trachea.

Using the utility model allows to reduce the morbidity and improve gas exchange in the lungs during jet ventilation of the lungs through a tracheal catheter.

Claims (1)

Transtracheal single-lumen catheter for jet ventilation of the lungs, characterized in that it is made of flexible elastic material and has a rectilinear proximal section and a section in the form of a cylindrical spiral for fixation of the catheter when it is inserted into the trachea, ending in a rectilinear section located along the axis of the cylindrical spiral.

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