RU6141U1 - DEVICE FOR LASER IRRADIATION OF FABRIC - Google Patents

Abstract

A device for laser irradiation of tissues, comprising a laser and a flexible optical fiber rigidly mounted in the optical nozzle, characterized in that the tip of the optical nozzle is made in the form of a wedge of variable thickness, the base of which is optically in contact with the optical fiber.

Description

DEVICE FOR LASER IRRADIATION OF FABRIC

The utility model relates to medicine, in particular to dentistry, and can be used in the treatment of diseases of hard and soft tissues of teeth in the interdental spaces using laser radiation.

In this area of the oral cavity, favorable conditions are created for the development of microorganisms (food particles get stuck, plaque is deposited, cleaning with a toothbrush is difficult), which leads to an increased risk of carious lesions. Therefore, laser irradiation of this zone is necessary both at the prophylaxis stage and during the treatment of diseases of tooth tissues.

Known devices for laser irradiation of tissues containing a laser, optical fiber and optical nozzle (The use of low-energy infrared therapeutic lasers VITA and VITA-01 in medical practice (Methodological recommendations). Moscow: Association of new medical technologies PLUS, 1994, 112 S.). In such devices, radiation enters the fabric through the end of the fiber or optical nozzle and has the following radiation pattern, Fig. 1a (1 - laser radiation source, 2 - optical fiber, 3 - diagram, arrows indicate the direction of laser radiation propagation).

The disadvantage of this design is that it does not provide the required conditions for laser irradiation of interdental tissue. The scheme of irradiation of interdental tissue with such a device is shown in Fig. 16 (view

.

MKI A 61 N 5/06

above: 4 - teeth, 5 - the gap between the teeth, 6 - the end face of the optical nozzle or fiber, the arrow shows the direction of propagation of laser radiation). The main radiation flux is directed along the surface of the teeth in the gap and is reflected from it, without producing a therapeutic effect, some parts of the surface remain unirradiated.

Closest to the claimed utility model is a device for irradiating the mucous membrane of the larynx (AS USSR No. 1816456, publ. 05.23.93, Bull. No. 19), which contains a laser, a light guide and an optical nozzle, and to increase the reliability of manipulations, the light guide is rigidly fixed in the optical nozzle, and the bend of the end of the latter is due to the anatomical features of the irradiated organ. This device is also characterized by the above disadvantage.

The technical result of this utility model is the design of a device that ensures the propagation of laser radiation perpendicular to the longitudinal axis of the fiber and the optical nozzle by performing the latter in the form of a wedge, the base of which is optically in contact with the fiber. The execution of the wedge of the variable is due to variations in the anatomical features of the interdental spaces - different distances between the teeth in the same patient and in different people.

A general view of the device is shown in Fig. 2.

A device for laser irradiation of interdental spaces consists of a laser 1, a flexible fiber optic fiber 2, rigidly

- 2 installed in the optical nozzle, consisting of a housing 3 and a tip 4, which is optically in contact (contact zone 5) with a fiber waveguide 2. The housing 3 of the optical nozzle is made curved, due to ergonomic features of laser therapy in the oral cavity.

The tip of the optical nozzle (Fig. 3) is made in the form of a wedge of variable thickness: Fig. For - a top view with a laser radiation pattern, Fig. 36 is a front view, Fig. Sv - sectional side view. It is possible to perform a wedge curved for better anatomical correspondence between the interdental space.

The schematic arrangement of the wedge-shaped nozzle in the interdental space is shown in Fig. 4: 1 - teeth, 2 - wedge-shaped tip of the optical nozzle, 3 - gingival margin; fig. 4a is a top view, Fig. 46 is a front view.

The device operates as follows.

Turn on the laser 1, to the optical fiber 2 coming from the laser 1, connect the optical nozzle so that the end of the optical fiber 2 is rigidly fixed in the body 3 of the nozzle and provide constant reliable optical contact between the optical fiber 2 and the base of the wedge-shaped tip 4 of the optical nozzle. The device is taken in the right hand by the housing 3 of the optical nozzle. With the left hand, the required interdental gap is exposed by pulling towards the side of the soft tissues of the lips and cheeks. A wedge-shaped tip 4 of the optical nozzle is inserted into the interdental space until the lateral surfaces of the skin are in contact with the surfaces of the teeth. The interdental space becomes available for irradiation.

- 3 interdental spaces in comparison with known devices creates optimal conditions for laser procedures, provides the patient with a comfortable position during irradiation.

- 4

Authors: DB. Berg

Yu.E. Lavrentieva

Claims (1)

A device for laser irradiation of tissues, containing a laser and a flexible optical fiber rigidly mounted in the optical nozzle, characterized in that the tip of the optical nozzle is made in the form of a wedge of variable thickness, the base of which is optically in contact with the optical fiber.