RU221232U1 - DEVICE FOR VIBRATION-TACTILE NEUROSTIMULATION FOR TREATMENT AND PREVENTION OF OBSTRUCTIVE SLEEP APNEA - Google Patents

Abstract

The useful model can be used in medical and educational organizations in the treatment and prevention of obstructive sleep apnea by conducting vibration-tactile stimulation of the hypoglossal, infrahyoid muscles and the outer surface of the tongue for neurostimulation of the hypoglossal nerves (XII pair of cranial nerves). The device uses electromechanical eccentric vibrators, which allow the transmission of mechanical vibration-tactile effects on the hypoglossal, infrahyoid muscles and the outer surface of the tongue, providing indirect neurostimulation of the conductive and central parts of the functional systems, transmitted along afferent sensory fibers from the mouth and pharynx as part of the hypoglossal nerves (XII pair cranial nerves), then along sensory pathways to the neurons of the precentral gyrus, then along the descending efferent fibers of the corticobulbar tract to the motor nuclei of the glossopharyngeal nerves and the muscles innervated by them. The device consists of a sealed housing made of rigid pyrogen-free and hypoallergenic material, to which an external part made of pyrogen-free and hypoallergenic material is mechanically attached to fix the position of the device in the patient’s oral cavity using his teeth, to the working end of which four structural elements of the material are mechanically hermetically attached auxetics with a negative Poisson's ratio, which are hermetically coated with elastic pyrogen-free and hypoallergenic material, two of which have a length sufficient for mechanical action in the area of the outer surface of the tongue, and the other two have a length sufficient for mechanical action in the area of the sublingual and sublingual muscles, inside of which the working ends are mechanically fixed vibrators based on electric motors with eccentrics fixed to their axes in housings; Electrical wires pass through the through holes of the structural elements, connecting the electric motors of the vibrators to the current source through voltage regulators to control the frequency of generation of mechanical vibrations of the vibrators. 2 ill.

Description

The useful model can be used in medical and educational organizations in the treatment and prevention of obstructive sleep apnea by conducting vibration-tactile stimulation of the hypoglossal, infrahyoid muscles and the outer surface of the tongue for neurostimulation of the hypoglossal nerves (XII pair of cranial nerves).

Obstructive sleep apnea (hereinafter referred to as “OSA”) is characterized by multiple episodes of partial or complete occlusion of the upper airway during sleep, which leads to cessation of breathing followed by periods of awakening. Symptoms may include snoring [1]. The cause of OSA is periodic obstruction (collapse) of the airways at the level of the oropharynx, which occurs due to a decrease in the neuromuscular activity of the muscles of the pharynx, as a result of which the soft palate is pressed against the back wall of the pharynx and blocks the airways, preventing air from entering the lungs. In particular, a negative factor is the possible retraction of the tongue, which additionally puts pressure on the soft palate from the oral cavity. One of the options for non-drug treatment and prevention of OSA is to maintain the muscles of the tongue and pharynx in tone, in particular, using stimulation of the hypoglossal nerve [2], [3]. The hypoglossal nerve innervates the muscles of the tongue: the styloglossus, hyoglossus and genioglossus muscles, as well as the transverse and rectus muscles of the tongue.

To stimulate the hypoglossal nerve, mechanical tactile stimulation and stimulation of the mucous membrane and receptors (speech therapy massage) of the sublingual, infrahyoid muscles and the outer surface of the tongue is used by stroking, pressing, vibration with an otorhinolaryngological spatula, speech therapy probe (hereinafter referred to as “speech therapy instruments”), which activates the work of the corresponding neuromuscular structures.

The proposed technical solution is a device using electromechanical eccentric vibrators, which allow the transmission of mechanical vibration-tactile effects on the hypoglossal, infrahyoid muscles and the outer surface of the tongue, providing indirect neurostimulation of the conductive and central links of functional systems, transmitted along afferent sensory fibers from the mouth and pharynx to the composition of the hypoglossal nerves (XII pair of cranial nerves), then along sensory pathways to the neurons of the precentral gyrus, then along the descending efferent fibers of the corticobulbar tract to the motor nuclei of the glossopharyngeal nerves and the muscles innervated by them.

The prototype of the claimed device is manual stimulation of the sublingual, infrahyoid muscles and the outer surface of the tongue using a speech therapy instrument, to which differentiated and dosed mechanical effects are applied by the hands of a specialist (manual mechanical generation).

Manual generation of a mechanical effect on a speech therapy instrument as it moves along the area of the sublingual, infrahyoid muscles and the outer surface of the tongue requires a highly strengthened professional skill of prolonged differentiated and dosed mechanical impact from a specialist. The need to manually generate a mechanical effect on a speech therapy instrument leads to increased fatigue of a specialist due to an irrationally high level of labor costs, increases the risk of occupational diseases, reduces the effectiveness of professional activities and limits the possibility of providing professional assistance to patients, which can be considered as a significant drawback of the prototype of the proposed device .

Mechanical impact with a speech therapy instrument on the areas of the hypoglossal, infrahyoid muscles and the outer surface of the tongue is carried out only in one area and on one side of the oral cavity due to its limited volume, but since the hypoglossal nerves (XII pair of cranial nerves) are paired (right branch and left branch), then it is necessary to work with both branches of the nerve to provide full speech therapy assistance. This circumstance increases the specialist’s work time, which can also be considered as a significant drawback.

Speech therapy instruments have a rigid shape and do not allow for rapid adaptation to the individual characteristics of the anatomical structure of the oral cavity (anatomical bends and cavities), which can also be considered as a significant drawback.

The manual mechanical impact of a speech therapy instrument when moving the latter along the area of the sublingual, infrahyoid muscles and the outer surface of the tongue affects only those muscles and sensitive receptors of the mucous membrane of the area of the sublingual, infrahyoid muscles and the outer surface of the tongue that are located directly under the instrument, and does not create conditions for complex stimulation of nearby muscles, which can also be considered a significant drawback.

Moving the speech therapy instrument over the areas of the sublingual, infrahyoid muscles and the outer surface of the tongue requires that the patient's mouth be wide open during the procedure, which can also be considered a significant disadvantage.

The claimed utility model eliminates these disadvantages in that it offers a device that consists of a sealed housing made of rigid pyrogen-free and hypoallergenic material, to which an external part made of pyrogen-free and hypoallergenic material is mechanically attached to fix the position of the device in the patient’s oral cavity using his teeth, to the working end of which are mechanically hermetically sealed four structural elements made of auxetic material having a negative Poisson's ratio, which are hermetically coated with an elastic pyrogen-free and hypoallergenic material, two of which have a length sufficient for mechanical action in the area of the outer surface of the tongue, and the other two have a length sufficient for mechanical impact in the area of the sublingual and sublingual muscles, inside of which vibrators based on electric motors with eccentrics in housings fixed to their axes are mechanically fixed at the working ends; Electrical wires pass through the through holes of the structural elements, connecting the electric motors of the vibrators to the current source through voltage regulators to control the frequency of generation of mechanical vibrations of the vibrators.

In the claimed utility model, the above disadvantages of the prototype are eliminated as follows:

The use of the utility model provides mechanical vibration-tactile neurostimulation of the sublingual, infrahyoid muscles and the outer surface of the tongue, which increases the efficiency of a specialist by reducing his fatigue, labor costs and the risk of occupational diseases.

The use of the utility model provides mechanical vibration-tactile neurostimulation of the sublingual, infrahyoid muscles and the outer surface of the tongue simultaneously on the right and left sides of the oral cavity, which reduces the time of the medical procedure.

In the utility model, structural elements made of an auxetic material with a negative Poisson's ratio, for example, Gortex, allow a specialist to quickly and individually change the position of any structural element (vibrator) relative to the device body and place them in selected places in the oral cavity, including anatomical bends and cavities.

The use of the utility model makes it possible to carry out mechanical vibration-tactile neurostimulation not only directly under the device - the hypoglossal, infrahyoid muscles and the outer surface of the tongue, but also in nearby areas of the oral cavity, since mechanical vibrations propagate in all directions from the place of application of the device.

Voltage regulators, for example, based on variable resistance resistors, through which the vibrators are connected to a source of electric current, make it possible to control the frequency of generation of mechanical vibrations of the vibrators by changing the rotation speed of the electric motors of the vibrators, which gives the specialist a wider choice of mechanical neurostimulating effects.

The technical result of using the claimed utility model is:

the possibility of individual selection of parameters of mechanical vibration-tactile neurostimulation (frequency of mechanical vibrations of vibrators of structural elements) for each of the four areas of the oral cavity (on the outer surface of the tongue and under the tongue on the left and right sides).

In fig. Figure 1 shows a cross-sectional drawing of a utility model. The components of structural element I are designated. For structural elements II, III, IV, the designations of the components are similar.

The utility model is a device consisting of a body 1, with a mechanically fixed part 2 for fixing the position of the device in the oral cavity using the patient's teeth, in which structural elements I, II, III, IV, made of an auxetic material with a negative coefficient, are mechanically fixed Poisson, 3.I, 3.II, 3.III, 3.IV, in which there are through holes 4.I, 4.II, 4.III, 4.IV, to the free ends of which vibrators based on electric motors are mechanically attached from the inside 5.I, 5.II, 5.III, 5.IV with eccentrics 6.I, 6.II, 6.III, 6.IV mounted on their axes in housings 7.I, 7.II, 7.III, 7.IV. Structural elements with vibrators are hermetically covered with elastic material 8.I, 8.II, 8.III, 8.IV. Electrical wires 9.I, 9.II, 9.III, 9.IV from electric motors 5.I, 5.II, 5.III, 5.IV pass through through holes 4.I, 4.II, 4.III, 4.IV structural elements and are connected to the current source 10 through voltage regulators 11.I, 11.II, 11.III, 11.IV based on variable resistance resistors.

Structural elements I and IV have a length sufficient for mechanical impact on the area of the outer surface of the tongue.

Structural elements II and III are of sufficient length to provide mechanical impact on the hypoglossal and infrahyoid muscles.

In fig. Figure 2 shows a diagram of the placement of the device in the patient’s oral cavity without detailing the structural elements I, II, III, IV, without electrical wires 9.I, 9.II, 9.III, 9.IV, without voltage regulators 11.I, 11.II , 11.III, 11.IV and without current source 10.

The claimed utility model works as follows. When connecting the current source 10 through voltage regulators 11.I, 11.II, 11.III, 11.IV, using electrical wires 9.I, 9.II, 9.III, 9.IV, structural elements I, II, III, IV (vibrator housings 7.I, 7.II, 7.III, 7.IV) begin to generate mechanical vibrations.

Before using the utility model, the specialist molds structural elements I, II, III, IV for mechanical vibration-tactile neurostimulating effects on the area of the outer surface of the tongue (elements I and IV) and for mechanical vibration-tactile neurostimulating effects on the hypoglossal and infrahyoid muscles (elements II and III). Then the device is inserted into the oral cavity, and its body 1 is fixed with the patient’s teeth using the external part 2. While working with the device, the specialist selects the required frequency of mechanical vibrations of structural elements I, II, III, IV (vibrator bodies 7.I, 7.II , 7.Ш, 7.IV) using voltage regulators 11.I, 11.II, 11.III, 11.IV.

Literature:

1. Kingman P. Strohl, MD, Case School of Medicine, Case Western Reserve University, Obstructive sleep apnea. Medical Review Oct. 2022 (https://www.msdmanuals.com/ru-ru/professional/pulmonary-disorders/sleep-apnea/obstructive-sleep-apnea).

2. Somnology room of the University Clinical Hospital No. 1 of the First Moscow State Medical University named after. THEM. Sechenov. Hypoglossal nerve stimulation: will it replace CPAP therapy? (https://somnolog-pulmonolog.ru/blog/diagnostika-i-lechenie/stimulyatsiya-podyazychnogo-nerva/).

3. All-Russian public organization “Russian Society of Somnologists”. Review: Newest treatments for obstructive sleep apnea. (https://rossleep.ru/obzor-noveyshie-metodyi-lecheniya/).

Claims (2)

1. A device for vibration-tactile neurostimulation for the treatment and prevention of obstructive sleep apnea, consisting of a sealed housing made of rigid pyrogen-free and hypoallergenic material, to which an external part made of pyrogen-free and hypoallergenic material is mechanically attached to fix the position of the device in the oral cavity of the patient with using his teeth, to the working end of which four structural elements made of an auxetic material with a negative Poisson's ratio are mechanically hermetically attached, which are hermetically coated with an elastic pyrogen-free and hypoallergenic material, two of which have a length sufficient for mechanical action in the area of the outer surface of the tongue, and two others have a length sufficient for mechanical impact in the area of the sublingual and sublingual muscles, inside of which vibrators based on electric motors with eccentrics in housings fixed to their axes are mechanically fixed at the working ends; Electrical wires pass through the through holes of the structural elements, connecting the electric motors of the vibrators to the current source through voltage regulators to control the frequency of generation of mechanical vibrations of the vibrators. 2. The device according to claim 1, characterized in that Gortex is used as an auxetic material with a negative Poisson’s ratio.