RU2512U1 - LED DEVICE FOR PHOTODYNAMIC THERAPY - Google Patents

Abstract

An LED device for photodynamic therapy, comprising a matrix of optical fibers, characterized in that the matrix consists of at least 100 LEDs coupled to conical optical fibers, focons arranged in a bundle.

Description

LED DEVICE FOR PHOTODYNAMIC THERAPY.

The utility model relates to medical equipment, namely to devices designed to treat light radiation from atherosclerosis and malignant tumors.

A device is known (J. Lison, E. Mendes. Radiation therapy apparatus Using LED matrix. UK Patent Application 2212010 12.07.89, MKI A 61 N 5/06), consisting of light-emitting diodes placed on the inner surface of the paraboloid, which allows to obtain focal plane required therapeutic radiation density. This device allows you to irradiate external organs, while in many cases it is necessary to carry out intracavitary irradiation, for example, with the entrainment of ENT diseases, gynecology, proctology, etc.

The task is to create the necessary radiation power density for photodynamic intracavitary therapy.

The problem is solved through the use of an emitter consisting of a matrix of blue optical fibers coupled to conical optical fibers (focons).

When using a matrix of red LEDs, the device can be used for photodynamic therapy of malignant neoplasms. The use of optical fiber optical fibers of variable cross-section (focons) allows you to concentrate radiation on a small area, which provides a local effect on a malignant neoplasm or on an atherosclerotic plaque, without damaging the surrounding tissues. Using

MKI5 A 61 N 5/06

a fiber in the form of a focone allows not only intracavitary irradiation, but also intravenous irradiation, for example, when using a single LED coupled to a fiber optic -. fokoyiom. The use of a large number of LEDs, at least 100 pieces, paired with conical-shaped light fibers - focons allows you to summarize the power of all 100 LEDs at the distal end, in a bundle and obtain the required therapeutic power density of about 0.2 - 0.3 W / cm. The bundle can thus consist of 100 or more optical fibers, the diameter of each fiber at the distal end is not more than 0.6 mm.

The use of the concentration of the light flux of LEDs with optical fibers-focons allows for cavity-wide procedures for the irradiation of malignant tumors.

The use of new high-brightness blue power LEDs. about 3 MW with a wavelength and (450i35) HM (Sh. Nakamura, T. Mikai, M. Senoh. Candela-class high-brightness In Ga N / AlGaN doubie-heterostructure blue-light emitting diodes Aeppl. Phys, lett 64, 28 03.1994 g.), Coupled with a fiber optic fiber, allows for intravenous irradiation of an atherosclerotic plaque, ensuring its photochemical destruction.

In FIG. 1 shows an LED device for photodynamic therapy. The device consists of a matrix with LEDs, cover 1, cord 2, power supply 3. The matrix consists of conical optical fibers - focons 4 connected to light emitting diodes 5 and resistors b. The matrix contains at least 100 LEDs. Light emitting diodes 5 are optically coupled to optical fibers of variable cross section - focons 4, which are assembled into a bundle, which allows to obtain the required therapeutic radiation power density at the distal end of the fiber.

The LED device operates as follows: the power supply 3 is connected to a standard network (220V / 50Hz), the DC voltage is 25V, after switching the switch, it is supplied to the matrix of light emitting diodes 5 through resistors 6, limiting the current flowing through a chain of 100 pieces of LED.

Claims (1)

An LED device for photodynamic therapy, comprising a matrix of optical fibers, characterized in that the matrix consists of at least 100 LEDs coupled to conical optical fibers, focons arranged in a bundle.