RU6707U1 - DEVICE FOR IRRADIATION WITH LIGHT BEAMS "LIGHT SHOWER" - Google Patents

Abstract

A device for irradiating light rays, containing an argon laser and a fiber, characterized in that the fiber is hermetically connected to the head having perforations on the opposite side of the connection, and the head is connected to the side with a water inlet hose.

Description

DEVICE FOR IRRADIATION BY LIGHT BEAMS OF LIGHT SHOWER.

The utility model relates to medicine, namely to units for physiotherapeutic treatment.

Known apparatus for light exposure to the body for therapeutic purposes (VE Illarionov Technique and methods of laser therapy procedures. Moscow, 1994, p. 18-27; Light-emitting systems. Efficiency and application: Abstracts of the First All-Russian scientific and technical conference with international participation. Saransk, 1994, p. 55-78).

A known device for the treatment of hyperbilirubinemia in newborns (Mostovnikov VA, Skobelkin O.K. A method for the treatment of hyperbilirubinemia in newborns. 1806604 A1, 1993), which is based on the irradiation of the patient's skin with defocused radiation of an argon laser.

An argon laser produces radiation in the blue-green range of the spectrum with a wavelength of 476.5-514.5 mm. The radiation power density required for the decomposition of bilirubin is 1-5 mW / cm.

The specified apparatus has several disadvantages. This device does not allow you to create uniformly scattering radiation from an argon laser. The radiation power density is high enough, which creates a threat of local overheating of the skin. In addition, there is a risk of personal injury from scattered laser radiation, and therefore it is necessary to protect personnel and the patient from glare from laser radiation.

The objective is to create a safe laser device to expose the patient to blue-green light.

MPKb A61 N5 / 06

source into the perforated head connected to the water supply hose.

It is known (Landsberg G.S. Optics GFML. Moscow, 1976) that light introduced into a free stream of water due to the phenomenon of total internal reflection cannot exit through its lateral surface and follows along the stream, which is similar to a light guide.

The device shown in figure N 1.

It consists of an argon laser 1, a fiber 2, transmitting light from a laser source through a sealed connector 3 to the head 4 with perforations 5, connected to a water supply hose 6.

The device works as follows: they include warm water (the temperature should be comfortable for the patient), which through the hose 6 enters the head 4 with perforations 5, water jets wash the skin of the patient.

Turn on the argon laser 1, equipped with a timer. The blue-green laser radiation 1 through the optical fiber 2 enters through the sealed connector 3 into the head 4 with perforations 5. The blue-green laser radiation propagates almost without absorption through the water jets, which in this case acts as optical fibers.

Due to the effect of total internal reflection from the side surface of the jet, the laser radiation does not come out, propagating only inside the jet.

In the place of contact with the skin of the patient due to the absence of a significant difference in the refractive indices of water and biological tissue, the light is completely absorbed by the skin.

irradiation, laser 1 is automatically turned off, then turn off the water.

The proposed device is safe, because the laser can be in another room, and its radiation is transformed by optical fiber. Due to washing the skin with water, local overheating is excluded. The procedure can be made comfortable selection of water temperature. Laser radiation is transformed precisely to the irradiated area, excluding irradiation of other parts of the patient’s body.

The proposed device can be used in pediatrics for the treatment of jaundice in newborns; in neurology and psychiatry to relieve aggressive conditions (it is known to use both blue-green light and water procedures for this purpose); as well as with a health purpose - in balneology, etc.

Claims (1)

A device for irradiating light rays, containing an argon laser and a fiber, characterized in that the fiber is hermetically connected to the head having perforations on the opposite side of the connection, and the head is connected to the side with a water inlet hose.