SU1669453A1 - Device for irradiating liquids - Google Patents

Abstract

The invention relates to medical technology. The purpose of the invention is to improve the uniformity of illumination of the vessel and simplify the dosing of irradiation, which is achieved by the fact that vessel 4 for a liquid is made in the form of a spatial spiral of variable diameter and placed in sphere 2 with a diffuse-reflecting internal surface 3. The sphere has an inlet 7 for radiation from a source 1 and installed fotozadchik 10. 1 Cp f-crystals, 1 Il.

Description

The invention relates to medical technology and can be used during hemoperfusion, hemosorption, carried out simultaneously with the irradiation of blood with light.

The purpose of the invention is to improve the uniformity of illumination of the vessel and simplify the dosing of radiation.

The drawing shows a diagram of a device for irradiating liquids.

The device contains a light source 1, a spherical body 2, on the inner surface of which a layer 3 diffusely reflecting light is applied. Inside the sphere there is a vessel 4 with nozzles 5 and b, made in the form of a spatial spiral of variable diameter from a material that is transparent to light. A flat mirror 8 is installed behind the inlet 7 inside the sphere 2. A photosensor 9 can be installed inside the sphere to continuously monitor the absorbed light energy.

The device for the irradiation of biological objects works as follows

The beam 10 of the light QT of the light source 1, having passed the entrance opening 7, hits the flat mirror 8, which reflects it on

diffuse reflecting layer 3 of sphere 2. As a result of multiple reflections, uniform illumination is established inside the sphere. As a result, uniform illumination of the vessel 4 occurs, through which biological fluid flows through the nozzle 5 and discharge through the nozzle 6. Continuous monitoring of the amount of absorbed light energy is carried out using a photosensor 9

The device can be used to irradiate blood in a continuous or interrupted flow, when, for the purpose of therapy in a human or experimental animal, blood is excreted from the body into any external device connected to the circulatory system, subjected to therapeutic influence and reintroduced into the body, for example, the process of hemosorption or hemoperfusion.

The device can also be used for the irradiation of other biological and non-biological objects of complex shape, when equal or homogenous illumination of the object's surface is necessary or desirable. In cases of hemosorption or hemo

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The perfusion transparent flexible tube is an extremely simple device for irradiating blood. When it is placed inside a sphere with a diffuse reflecting coating, the illumination of the tube surface is uniform, regardless of how it is laid. This allows, in particular, the use of commercially available disposable blood transfusion kits without any alterations, and in order to obtain reproducible results it is necessary to record only the length of the irradiated part of the tube.

In devices for GF and blood irradiation using a spherical illuminator, a relatively expensive quartz cuvette can be replaced with a straight or bent quartz tube or a plastic tube that is transparent in the UV spectral region, and the tube geometry requirements are reduced to a certain size of its surface, to the minimum shading of some sections of the tube by others, which is important only for its large length. This requirement complies with

The form is supported by a variable cross section.

A laser can be used as a light source.

The device allows accurate measurement of the absorbed dose.

Claims (2)

Claim 1. A device for irradiating liquids, comprising a light source and a vessel made of a material that is transparent to light and placed in a housing covered from the inside by a light-reflecting layer characterized by heme. that, in order to improve the uniformity of illumination of the vessel and to simplify the dosing of irradiation, the light source is located outside the housing, the housing is spherical with diffuse reflective rest and provided with an inlet for the beam, the vessel is in the form of a spiral of variable diameter. 2. The device according to ri.1, o t g, and that is, so that a photosensor is installed inside the spherical body GO at