RU173015U1 - Phototherapeutic ENT device - Google Patents

Abstract

A useful model is a phototherapeutic device, with which you can effectively irradiate the mucous membranes of the oropharynx and nasopharynx with light, as well as irradiate the auditory canals of the child with ENT diseases. It is possible to carry out preventive irradiation of the oropharynx and oral cavity when teething. The device is made detachable, which allows you to attach various optically transparent silicone irradiators to the optoelectronic unit, designed to irradiate the oropharynx, nasal passages and ear canals of the young child.

Description

The utility model relates to medical equipment, namely to phototherapy. For the treatment of acute respiratory diseases (ARI) and ENT diseases, methods of irradiating the mucous membranes of the upper respiratory tract, the entrance gate of infection, are currently widely used [1, 2, 3]. As a rule, most acute respiratory infections and ENT diseases are caused by pathogens that constantly circulate in the upper respiratory tract. In RU 2316366 and in [4], in vitro experiments have shown that blue spectrum light effectively suppresses the propagation of opportunistic bacteria, for example, Staphylococcus aureus. Blue irradiation of the mucous membrane of the upper respiratory tract is especially relevant for the treatment and prevention of acute respiratory diseases and ENT diseases in young children. Irradiating a child’s oropharynx with blue light is significantly more gentle compared to the widespread physiotherapeutic procedure — short-wave ultraviolet irradiation of the pharynx (KUV) [1].

For the treatment and prevention of acute respiratory infections and ENT diseases in young children, various phototherapeutic devices have been developed and are used [5, 6]. The use of blue spectrum irradiators can reduce or completely abandon the use of antibiotics in the treatment of mild and moderate acute forms of acute respiratory infections and ENT diseases in young children.

In patents RU 2260459; RU 2286186; RU 2038 and RU 146971 describe a method and a technique for treating acute respiratory infections and ENT diseases, as well as modern compact phototherapeutic devices with which they treat young children.

Known phototherapeutic device for irradiation of the mucous membrane of the oropharynx of a child, which is used for the treatment and prevention of mild and moderate acute forms of respiratory diseases and ENT diseases, U-Ssd "Firefly SM" [7]; RU 146971. This device is the closest prototype of the claimed model.

It is an LED device with a stabilized dose of radiation, which includes a dummy pacifier, in which are integrated: a light-emitting diode, an autonomous power source, a microcontroller with an ADC and a sealed contact. The microcontroller summarizes the amount of electricity passed through the LED and turns it off when the specified radiation dose RU 146971 is reached.

The main disadvantages of the prototype are: 1) the limited ability to use pacifiers, soothers - only for irradiation of the mucous membrane of the oropharynx; 2) restrictions when conducting sanitary heat treatment, the device must not be heated above 60 ° C

The manifestation of a child’s disease often begins with discharge from the nasal passages or with painful manifestations in the auditory canals [8]. Irradiation with blue light at an early stage of the disease of the mucous membranes of the nasal passages or auditory canals allows you to stop the disease without the use of drugs.

Due to the presence of electronic components in the prototype, heating of the device above 60 ° C is not allowed. The inability to sterilize the device by boiling (≈30 min) or by processing the device in a steam sterilizer narrows the scope of its use in large families or in children's groups. The closest prototype is the non-separable device “Firefly SM” intended for individual use [7]; RU 146971.

The technical task of the utility model is to create a simple and reliable phototherapeutic device with which you can effectively irradiate the mucous membranes of the oropharynx and nasopharynx with light, as well as irradiate the ear canals of the child with ENT diseases. An additional technical task is to create a simple collapsible device that allows for deep sanitary heat treatment of its various parts separately.

The proposed technical solution to the problem, namely the separation of the device into nodes: the body of the pacifier; an irradiator of the nasal passages or an irradiator of the ear canals and an optoelectronic unit allows you to make the device multifunctional and affordable for all types of antibacterial treatment. The collapsible design of the device is a separate sealed optoelectronic unit and various interchangeable irradiators that easily dock with the optoelectronic unit.

The design of the device is shown in FIG. one

An optoelectronic unit (1) with a light emitting diode (3) and a light guide (2) is connected to the holder (5) with a longitudinal section (6) using a cap (4). The holder (5) is inserted inside the silicone spray can (7) fixed in the mouthpiece of the pacifier (8). Instead of a silicone balloon of a pacifier (7), you can use a narrow, elongated silicone balloon designed to irradiate the nasal passages or to irradiate the ear canals. During teething, the silicone can of the pacifier (7) can be replaced with a transparent silicone teether.

The device works as follows: a silicone spray can (7) (or a silicone irradiator for the nasal passages and ear canals; or a teether) is inserted into a plastic mouthpiece (8). Then, a plastic holder (5) with a longitudinal section (6) is inserted into the silicone can (7). A cylindrical optical fiber (2) of the optoelectronic unit (1) is inserted into the central hole of the holder (5), which is made with a small taper of ≈4 °. Using the threaded connection of the holder (5) and the plastic cap (4), the optical fiber (2) of the optoelectronic unit (1) is advanced along the axis of the central hole of the holder (5), while sliding the sashes of the lower part of the holder (5), since in the lower part the holder has a longitudinal section (6). The flaps of the lower part of the holder (5) wedge the silicone walls of the can (7) in the mouthpiece (8). Thus, the connection of the optoelectronic unit (1) with the light guide (2) and the holder (4) with the silicone can (7) and the mouthpiece (8) is rigidly fixed. If necessary, the silicone balloon of the nipples (7), which is used to irradiate the oropharynx of the baby, is replaced with a silicone balloon of a narrow, elongated shape intended for irradiation of the nasal passages and ear canals, or with a teether. Since the shape and dimensions of the connection of various silicone cans and a teether with a bib (8) and a holder (7) are standard, it is not difficult to change the silicone cans.

The device is inserted into the child’s mouth (nose or ear) and turned on in the same way as in the prototype RU 146971, from the outside using a magnetic key. The light-emitting diode in the device is switched off automatically after reaching the set radiation dose.

After the end of the irradiation procedure, the device is removed from the child’s mouth (nose or ear) and disassembled. To do this, unscrew the cap (4); the optoelectronic unit (1) with the light guide (2) is removed from the holder (5). The holder (5), the silicone can (7) and the mouthpiece (8) can be processed using all standard sanitation procedures, including boiling and processing in steam sterilizers. The optoelectronic unit (1) with the light guide (2) can be processed by all standard sanitation methods, with the exception of heat treatment with heating the unit above 60 ° C.

The ability to easily replace the irradiators in a phototherapeutic device makes it multifunctional and convenient in the treatment of ENT diseases.

References.

[1] V.M. Bogolyubov, G.N. Ponomarenko “General Physiotherapy” Textbooks, M. - St. Petersburg, 1998

[2] V.I. Karandashov, E.B. Petukhov, B.C. Zrodnikov "Phototherapy" Medicine, M., 2000

[3]. M.A. Khan, Ph.D. O.M. Konova et al. “Application of polychromatic incoherent polarized light of the BIOPTRON apparatus in pediatrics”, guidelines, M., 2009.

[four]. E.S. Keshishyan, Z.V. Zaporozhtseva, O.M. Zenina, V.S. Zrodnikov "Photodynamic inactivation of bacteria" invitro "under the influence of the blue range of the spectrum", Bulletin of experimental biology and medicine, t. 158, No. 10, 2014.

[5]. The product of medical equipment "UV short-wave irradiator for single localized irradiation of portable BOP-01/27-NanEMA", TU 9444-010-34711238-2003.

[6] Phototherapeutic device, LED “AFS-Solaris”, advertising materials of Polironik LLC, 2008

[7] Technical specifications TU 9444-001-64597171-2011 "LED nipple device for short-term irradiation of the oral cavity and larynx with a blue light spectrum in young children for the prevention and treatment of mild and moderate acute respiratory diseases U-Ssd" Svetlyachok-SM " ".

Organization-developer LLC "AGAMA +", Moscow

[8] A.N. Nasedkin, V.G. Zenger “Lasers in otorhinolaryngology”, M. LLP “Firm TEKHNIKA”, 2000

Claims (1)

A phototherapeutic device for the treatment and prevention of acute respiratory diseases in young children, characterized in that it contains an optoelectronic LED unit with an autonomous power source and a cylindrical optical fiber, as well as an optically transparent silicone spray can, and the specified LED unit is connected to the indicated spray can using a collapsible a seal consisting of a holder and a cap that connects the LED unit to the holder, while the holder is inserted into the silicone spray can, and a cylindrical light guide is installed in the central hole of the holder.

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