RU191791U1 - Device for ultraviolet irradiation of blood - Google Patents

Abstract

The utility model relates to medical equipment, namely, devices for intravenous ultraviolet irradiation of blood (UFO) with the possibility of simultaneous infusion therapy. The technical result, which this utility model is aimed at, is to create a device that improves the safety of the structure, reduces the risk to the patient and maintenance staff, as well as providing the necessary power of UV radiation while maintaining the ability to control the position of the injection needle in This technical result is achieved in that the device for ultraviolet irradiation of blood, including an ultraviolet radiation source, a condenser, a light guide, a node for transmitting radiation into a vein in the form of a tee, connected by a side fitting to the system for introducing infusion solutions, and an injection needle, is equipped with an injection unit placed between the tee and the injection needle, while the injection unit nozzle facing the injection needle is made in the form of a Luer cannula, and the radiation source is made in the form a light-emitting diode LED, wherein the optical fiber is made of optical fiber with full internal reflection and is fixed at one end in the end of the tee from the condenser side by means of optical glue, and the other end of the optical fiber is located at the end of the injection needle, and the surface of the ends of the optical fiber is polished, while the inner diameter the injection needle was made not less than 0.6 mm, and the diameter of the optical fiber not more than 0.3 mm. And also because the ultraviolet LED has a wavelength from 365 nm to 405 nm. The proposed utility model through the use of an ultraviolet LED provides low power consumption, reduces the size, simplifies the disposal of the device and reduces the cost of the device for ultraviolet irradiation of blood, while the optical fiber with full internal reflection provides minimal power loss from the ultraviolet radiation source, and at the same time infusion into the blood solution and UV radiation improves safety for the patient, because it guarantees the correct the installation of an injection needle with UFOK. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to medical equipment, namely to devices for intravenous ultraviolet irradiation of blood (UV-OK) with the possibility of simultaneous infusion therapy.

A device for ultraviolet irradiation of blood (UV-OK), including a source of ultraviolet radiation (UV), in the form of a gas discharge lamp of ultrahigh pressure, a condenser, a light guide made of a bundle of optical fibers, is used to enter ultraviolet radiation into the infusion solution, the radiation transmission unit in a vein in the form of a tee, a side fitting connected to the system for introducing infusion solutions, and a bundle of optical fibers and an injection needle with a Luer cannula are connected to two other coaxial fittings (RU, pa tent No. 2294222, published. 07/10/2006).

A disadvantage of the known device is the large loss of ultraviolet radiation (UV) due to the use of an ultra-high pressure gas discharge lamp as a source of UV radiation, which operates on mercury vapor and requires large energy costs, increases the dimensions of the device, as well as special costs for its disposal. In addition, with the passage of ultraviolet radiation in the optical fiber bundle, tee and injection needle, large losses of UV radiation power occur.

The technical result, which this utility model is directed to, is to create a device that improves the safety of the structure, reduces the danger for the patient and maintenance personnel, and also provides the necessary power of UV radiation while maintaining the ability to control the position of the injection needle in the vein.

The specified technical result is achieved in that the device for ultraviolet irradiation of blood, including a source of ultraviolet radiation, a condenser, a light guide, a node for transmitting radiation into a vein in the form of a tee, connected by a side fitting to the system for introducing infusion solutions and an injection needle, is equipped with an injection unit located between tee and injection needle, while the injection unit nozzle facing the injection needle is made in the form of a Luer cannula, while the optical fiber is made of optical fibers with total internal reflection and fixed at one end in the end of the tee from the condenser side by means of optical glue, and the other end of the optical fiber is located at the end of the injection needle, the surface of the ends of the optical fiber is polished, and the inner diameter of the injection needle is made at least 0.6 mm, and the diameter of the optical fiber is not more than 0.3 mm.

And also because the ultraviolet LED has a wavelength of 365 nm to 405 nm.

The utility model is illustrated by the drawing, which schematically shows a device for ultraviolet irradiation of blood (UV-OK).

A device for ultraviolet irradiation of blood consists of a radiation source in the form of an ultraviolet LED 1, a condenser 2, an optical fiber fiber 3 with total internal reflection, a radiation transmission unit into a vein in the form of a tee 4. The injection unit 5 is connected to a tee 4 at one end and the other the end made in the form of a cannula Luer 6 is connected to the injection needle 7. The cannula Luer 6 is closed by a cap 8 of the needle 7. An optical fiber 3 is passed through the tee 4, the injection unit 5 and the needle 7, which is fixed at the end of the cable with one end nickel 4 from the condenser 2 side by means of optical glue. The other end of the optical fiber 3 is located at the section of the injection needle 7. The injection unit 5, the tee 4 and the injection needle 7 are a single use unit. The surface of the ends of the optical fiber 3 is polished. A lateral fitting 9 tee 4 is connected to the node 10 for the introduction of infusion solutions (0.9% sodium chloride solution or 5% glucose solution) into a vein. The site 10 for the introduction of infusion solutions consists of a plastic tube 11 connected to the bottle 12 with a solution, a dropper 13 and a roller clip 14.

A device for ultraviolet irradiation of blood works as follows.

From the attached unit 10 for introducing infusion solutions (single use) through a plastic tube 11 from an injection vial 12 (0.9% sodium chloride solution or 5% glucose solution), when the roller clip 14 is opened, the tee 4 is successively filled with the injection solution , injection unit 5 and injection needle 7. Complete filling of the device with an infusion solution is considered if the infusion solution is supplied from the injection needle 7. Then, through the roller clamp 14, the infusion of the infusion solution into the plastic tube 11 is blocked.

Next, the patient is punctured with a needle 7 of the saphenous vein in the elbow region and after that, with the help of a roller clamp 14, the required rate of introduction of the infusion solution in the dropper 13 is established, then the UV source is turned on and the countdown of the duration of the procedure begins. By the frequency of the drops, the position of the injection needle 7 in the lumen of the vein is visually controlled and, if necessary, it is corrected.

The radiation from the ultraviolet LED 1 passes through a capacitor 2, which focuses the UV radiation on the end of the optical fiber 3 fixed at the end of the tee 4. Next, the radiation passes along the entire length of the optical fiber 3, which has total internal reflection, and comes out at the second end of the optical fiber section of the injection needle 7. And only at the site of the puncture of the vein does the infusion solution from the needle 7 and ultraviolet radiation from the UV LED 1 enter the blood simultaneously.

The implementation of the inner diameter of the injection needle 7 is not less than 0.6 mm, and the diameter of the optical fiber is not more than 0.3 mm provides free passage of the infusion solution into the patient's blood during a session of ultraviolet radiation.

Since ultraviolet light with a wavelength of 365 nm (nanometers) to 405 nm is most effectively absorbed by the blood, this accordingly contributes to the most effective treatment of the patient.

The proposed utility model through the use of an ultraviolet LED provides low power consumption, reduces the size, simplifies the disposal of the device and reduces the cost of the device for ultraviolet irradiation of blood, while the optical fiber with full internal reflection provides minimal power loss from a source of ultraviolet radiation, and the simultaneous supply of infusion into the blood solution and UV radiation helps to improve safety for the patient, as it guarantees the correct setting the injection needle with UV-OK.

Claims (2)

1. Device for ultraviolet irradiation of blood, including a source of ultraviolet radiation, a condenser, a light guide, a node for transmitting radiation into a vein in the form of a tee connected by a side fitting to the system for introducing infusion solutions, and an injection needle, characterized in that it is equipped with an injection unit placed between the tee and the injection needle, while the nozzle of the injection unit facing the injection needle is made in the form of a Luer cannula, and the radiation source is made in the form of an ultraviolet LED, In fact, the optical fiber is made of optical fiber with total internal reflection and is fixed at one end in the end of the tee from the condenser side by means of optical glue, and the other end of the optical fiber is located at the end of the injection needle, the surface of the ends of the optical fiber being polished, while the inner diameter of the injection needle is made not less than 0.6 mm, and the diameter of the optical fiber is not more than 0.3 mm. 2. The device according to claim 1, characterized in that the ultraviolet LED has a wavelength of 365 nm to 405 nm.

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