RU2079310C1 - Method of extracorporeal blue light irradiation of blood and device for its realization - Google Patents

Abstract

FIELD: medicine radiation therapy. SUBSTANCE: blood is subjected to electromagnetic radiation within the range of 400 to 460 nm in the hose of a disposable system for injection of blood and blood substitutes to the value of the preset permissible dose. The device has a mercury lamp, radiating a wide range of electromagnetic modes, and a filter providing for separation of the blue light spectrum (400 to 460 nm). The device is built in an elliptic reflector - body and has an automatic radiation dose control system. The device body has a slot for the hose of the disposable system used for injection of blood and blood substitutes. Employment of the disposable system completely prevents transmission of virus during blood transfusion to the patient's organism. EFFECT: no need in employment of multiple - use quartz cell, apparatus provides for blood irradiation directly in the hose of the disposable system for injection of blood and blood substitutes. 2 cl, 1 dwg

Description

 The invention relates to medicine, namely to phototherapy and is intended for the treatment of various diseases.

 In clinical practice, various methods of treating blood with electromagnetic radiation in the range of ultraviolet, red and blue are known.

 The disadvantage of this method is that blood is irradiated with a quartz cuvette. The high cost of a quartz cell does not allow it to be used once, and repeated use of the cell requires a thorough and lengthy sterilization procedure.

 The closest method is the method of extracorporeal processing of blood by irradiating it with visible light on a portion of a hose of a disposable blood transfusion system and blood substitutes.

 The disadvantage of this method is that the irradiation is carried out not in blue light.

 A device for extracorporeal processing of blood containing a mercury lamp and a filter.

 The disadvantage of this device is that the mercury lamp used in it does not emit the necessary spectrum to obtain pure blue light, limited by the lamp's capabilities, allows you to allocate luminous flux only in the range from 3000 to 420 nm, which is a combination of long ultraviolet and blue light.

 EFFECT: irradiation of blood with blue light, excluding the use of a reusable quartz cuvette and creation of a device for this, emitting a spectrum of blue light proper, while providing the ability to irradiate blood directly in the hose of the system for infusing blood and single-use blood substitutes.

 This is achieved by exposing the blood to electromagnetic radiation in the range of 400-460 nm in the hose of a disposable blood transfusion system and blood substitutes up to a given permissible dose of radiation.

 To implement the method of extracorporeal irradiation of blood with blue light, a device is proposed that uses a DRT-2-100 mercury lamp that emits a wide range of electromagnetic waves (300-600 nm) and a filter that allows you to select a narrow spectrum of blue light (400 460 nm). The device is built into an elliptical mirror reflector housing and has an automatic radiation dose control system.

 The invention is illustrated in the drawing, which shows the device.

 The device contains a radiation source, a DRT-2-100 1 mercury lamp, an elliptical reflector with a diffuse reflective coating 2. The mercury lamp is installed in one focus of the elliptical reflector, and the silicone hose 3 of the disposable blood transfusion system PC 11-05 is placed in the other focus. To highlight the blue spectral region with a wavelength of 400 -460 nm inside the elliptical reflector 2, a set of light filters 4 is installed between the DRT-2-100 1 arc mercury lamp and the silicone hose 3. For placing the silicone hose in the elliptical reflector in focus, a slit is cut along the generatrix along the generatrix . An axial fan 6 is used to cool the lamp. To determine the dose of blood irradiation, an FD-288 5 photodiode is placed inside the reflector and an electronic unit 7 is integrated in the device, which registers the radiation dose and automatically switches off the radiation source when the required radiation dose is reached.

 Blood irradiation is carried out as follows.

 A silicone blood transfusion system hose filled with a blood preservative is inserted into the slit slot of the reflector. Connect the device to the network, then set the required dose of radiation. The “on” key turns on the radiation source, and the LED on the front panel of the devices lights up. At the same time as the radiation source, an axial fan is switched on, by means of which the elliptical reflector with an arc lamp and a silicone hose is cooled. The patient’s blood is taken from a cubital vein in a volume of 2 ml per 1 kg of the patient’s weight in a sterile vial with a preservative (500 heparin units or a solution of glugitsir), and then it is reinfused at a given speed. The effect on the blood with blue light occurs twice: during exfusion and reinfusion directly in the hose of a disposable blood transfusion system inserted into the slot of the reflector of the device.

 The proposed device for extracorporeal exposure to blood with blue light as a result of using a disposable system for blood transfusion completely eliminates the risk of transmission of the virus during blood transfusion. The selection of a narrower spectrum allows the use of directional effects of blue light in clinical practice, and the automatic control system eliminates the excess of the radiation dose prescribed by the doctor.

Claims (2)

 1. The method of extracorporeal treatment of blood by irradiating it with visible radiation on a portion of a hose of a disposable blood transfusion system and blood substitutes, characterized in that the irradiation is carried out in the range of 400 460 nm to a predetermined allowable dose of radiation.  2. Device for extracorporeal treatment of blood with visible radiation, containing a mercury lamp and a filter, characterized in that they use a mercury lamp that emits light in the range of 240 600 nm, a filter that allows you to select the blue spectrum of radiation in the range of 400 460 nm, penetrating through the wall of the disposable hose systems for blood transfusion and blood substitutes, as well as a system for monitoring the dose to a predetermined allowable value.