RU181756U1 - DEVICE FOR PHOTODYNAMIC PHOTOSENSIBILIZING THERAPY - Google Patents

Abstract

The utility model relates to medical equipment, namely, devices for photodynamic therapy and can be used in the treatment of complicated forms of gastric ulcer. The task is to increase the size of the irradiated zone, as well as to increase the usability by combining the irradiating agent with a means for feeding the photosensitizer and removing it The solution to this problem is achieved by the fact that a device for photodynamic photosensitizing therapy containing an irradiating agent and a means for feeding and removing excess photosensitizer, contains an irradiating device in the form of a flexible fiber emitting light through the end surface provided with a convex-concave lens, and the means for feeding and removing excess photosensitizer is made in the form of several, but not less than two, nozzles located around the lens, injection nozzles are connected by a pipe to the outlet of the means for supplying the sensitizer, and nozzles for suction of excess liquid are connected to a vacuum tank connected to the input of the means for supplying the sensitizer bilizatora.Tehnichesky result is that the photosensitizer is issued in the vicinity of the exposed body parts, the device can make the results of the photodynamic therapy close to optimal, since excess consumption eliminated photosensitizer and hit on the areas of the body, in which its presence has no effect.

Description

The utility model relates to medical equipment, namely, devices for photodynamic therapy and can be used in the treatment of complicated forms of gastric ulcer.

A device for conducting interstitial laser hyperthermia and photodynamic therapy, including a laser radiation source, a fiber connected to it and a node for contact cooling of the tissue surface, made in the form of a sealed box with two sapphire windows - upper and lower, between which there is a cavity for coolant, the fiber contains at least one radiation-delivering optical fiber and at least one diagnostic fiber connected to a spectroscopic means oh diagnostics (RU patent for utility model No. 92617, class A61N 5/067, 11.24.2009).

A disadvantage of the known device is that it cannot be used for optical diagnosis of irradiated biological tissue, carried out previously or simultaneously with laser hyperthermia of subcutaneous neoplasms.

The closest in technical essence and the achieved results is a device for implementing antibacterial photodynamic therapy containing an irradiating agent and a means for supplying a photosensitizer, the irradiating agent is an optical fiber that emits light through its side walls with the desired frequency, and the means for supplying a photosensitizer with the possibility of issuing a photosensitizer in close proximity to the body area to be treated, p and the washing device available in the device for removing excess dye-photosensitizer contains a suction device capable of absorbing the main part of the washing liquid and the excess dye dissolved therein, and the means for supplying the photosensitizer, preferably in the form of a tube, forms a shell for the luminous part of the irradiating means, and the shell material is at least partially transmissive to the light emitted by the irradiating agent (patent RU No. 2595792, class A61N 5/06, 01/26/2011).

A disadvantage of the known device adopted as a prototype is the inefficient use of optical fiber, since the irradiated zones are too small. In addition, simply flushing some body cavities to remove excess dye leads to infection of other hard to reach body cavities.

The task is to increase the size of the irradiated zone, as well as increasing the usability by combining the irradiating means with the means for supplying the photosensitizer and removing its excess.

The solution to this problem is achieved by the fact that in a device for photodynamic photosensitizing therapy containing an irradiating means and means for supplying and removing excess photosensitizer, in contrast to the prototype, it contains an irradiating device in the form of a flexible light guide emitting light through an end surface provided with a convex-concave a lens, and the means for supplying and removing excess photosensitizer is made in the form of several, but not less than two, nozzles located around the lens, and nozzles for pumping The nets are connected by a nozzle to the outlet of the means for supplying the sensitizer, and nozzles for suction of excess liquid are connected to a vacuum tank connected to the entrance of the means for supplying the sensitizer.

The figure shows a diagram of the device.

The device 1 contains a flexible housing 2, in the center of which is placed an optical fiber 3. The rear end of the optical fiber 3 is optically connected to a laser source - LED 4 with a power supply 5. The front end of the optical fiber 4 is equipped with a convex-concave lens 6, which serves to scatter light and increased light spot. In the flexible casing 2, channels 7 for supplying a sensitizing liquid are made, connected by a nozzle 8 to the outlet of the means for supplying a sensitizer 9 - by a pump, and channels 10 of suction of the excess sensitizer, connected by a nozzle 11 with a valve 12 and with a vacuum tank 13. The internal volume of the tank 13 is 14 connected to a tank 15 containing a sensitizer connected to the input of the pump 9.

The device operates as follows.

The radiating end of the device is introduced into the affected cavity, for example, a stomach with ulcerative etiology. Using the pump 9 serves a sensitizer from the tank 15 through the pipe 8 into the channels 7, from where it enters the ulcer wound. At the same time, a laser light source 4 is switched on, which generates a coherent beam of light and feeds to its front end via a light guide 3. A beam of light emerging from the front end of the light guide 3 passes through a scattering lens 6, forming a light spot of a large area. In the interaction of light radiation with a photosensitizer, chemical energy is activated, which helps to reduce intracavitary bleeding. To rinse and remove excess fluid simultaneously with the injection of the sensitizer, suction is carried out through the channels 10, the pipe 11 with a valve 12, the liquid is supplied to a container 13 connected by a pipe 14 to a container 15 containing a sensitizer. As the pump 9 pumps the fluid from the reservoir 15 into the channel 7, the liquid level in the reservoir 15 decreases, and a reduced pressure is formed in the reservoir 13 - a vacuum that ensures the suction of excess fluid from the stomach. The valve 12 controls the intensity of the suction.

The device according to the technical proposal can be used to treat band lesions, for example, in the upper respiratory tract, in particular in the pharynx, intestine, vagina, urethra, in other areas of the body accessible by the endoscopic route, as well as in other areas of the body available, for example by means of a microrobot. Various areas of the gastrointestinal tract, including the esophagus, stomach, and duodenum, can also be mentioned as accessible areas for exposure. The device according to the invention can also be used with respect to external surfaces, i.e. to the skin. Among the internal organs for which the device according to the proposed technical solution in the form of appropriately configured cannulas and applicators of other types is suitable, the intestines and blood vessels can also be mentioned.

The technical result is that the photosensitizer is issued in close proximity to the irradiated part of the body, this device allows you to make the results of photodynamic therapy close to optimal, since the excess consumption of the photosensitizer and its contact with parts of the body on which its presence does not have an effect are eliminated.

Claims (1)

A device for photodynamic photosensitizing therapy, comprising an irradiating means and means for supplying and removing excess photosensitizer, characterized in that it contains an irradiating device in the form of a flexible fiber emitting light through an end surface provided with a convex-concave lens, and means for supplying and removing excess the photosensitizer is made in the form of several, but not less than two, nozzles located around the lens, and the nozzles for injection are connected by a pipe to the outlet of the means for sensitizer, and nozzles for suction of excess liquid are connected to a vacuum tank connected to the input of the means for supplying the sensitizer.

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