RU213920U1 - DEVICE FOR PERCUTANEOUS HUMAN BLOOD IRRADIATION - Google Patents

Abstract

The utility model relates to medical equipment, in particular to physiotherapy devices operating on the basis of light radiation, and is intended to enhance blood microcirculation in tissues, increase immunity and protective factors of the human body. A device for transcutaneous irradiation of human blood, containing a pulse generator connected by means of a flexible cable to emitting diodes located on the holder. At the same time, the holder is made in the form of a flexible long rod capable of changing and maintaining its shape, in which emitting diodes are mounted. This allows emitting diodes to be placed over blood vessels along the entire length of the forearm and irradiate a larger volume of blood in less time. EFFECT: increased irradiation area. 1 ill.

Description

The utility model relates to medical equipment, in particular to physiotherapy devices operating on the basis of light radiation, and is intended to enhance blood microcirculation in tissues, increase immunity and protective factors of the human body.

In modern medicine, methods of phototherapy are widely used, which include: external irradiation of the surface of the body and projections of organs, as well as blood irradiation - intravascular, extracorporeal and percutaneous. Transcutaneous blood irradiation is based on the impact of quantum energy on the blood directly through the skin. Percutaneous irradiation of blood with optical radiation can reduce the duration of treatment, stabilize the course of the disease, increase the duration of remission, and reduce the number of postoperative complications. The necessary dose of exposure to optical radiation during transcutaneous irradiation is achieved by increasing the exposure time. Currently, transcutaneous blood irradiation is a popular therapeutic method of treatment.

A known method of percutaneous blood irradiation (RU 2155618). The method consists in irradiating the blood with infrared radiation in the form of a periodic sequence of dual pulses of 50 ns duration each and with a delay time between pulses in the range of 500-1000 ns. Irradiation is carried out in the projection area of the cublital vein or carotid artery. The method makes it possible to non-invasively irradiate the blood inside the artery adequately to extracorporeal blue light irradiation.

A device for transcutaneous laser blood irradiation (US Pat No. RU 5105) is known, containing a fiber optic light guide, characterized in that it is equipped with a disk, the surface of which, facing the irradiated skin area, is made reflective, and in the center of the disk there is a fitting at an angle of 70- 75° to the disk, having a hole in common with it for placing a light guide in it. The proposed device allows for a more efficient input of radiation into biological tissue, thereby increasing the effectiveness of therapy.

It is also known a device for percutaneous blood irradiation with red light (RU 4482), including a power supply, a cord, a housing containing an irradiator with radiation sources, characterized in that a group of semiconductor light-emitting diodes is used as radiation sources, and the irradiator can move relative to a fixed housing . The objective of this device is to increase the efficiency of blood irradiation with red light while simplifying the design. The device has an irradiation spot with a diameter of up to 2 cm.

A device for percutaneous blood irradiation with optical radiation is known - "Light-emitting bracelet" (RU 66963), which consists of a body made of metal or plastic material, connected to a bracelet made of environmentally friendly material, for example, natural leather, and consisting of two fragments . A flat battery and a program control microcontroller are placed inside the case. In the top cover of the case, for example, a clock can be mounted. On the side surface of the case there is a button for turning on the device and program control and a socket for the battery charger plug. On the inner surface of one of the fragments of the bracelet there is a matrix of elastic material, which includes two lines of ultra-bright light-emitting diode chips. In the space between the two lines of LED chips, there is a metal heat sink "cooler". The surface of the matrix is covered with a thin layer of transparent latex, which plays the role of a diffusing screen and an environmentally friendly gasket. One of the fragments of the bracelet is connected to the case via a USB port. Through this connection, the commutative connection of the light-emitting matrix with the power supply unit - battery is carried out.

The utility model "light-emitting bracelet" has the following advantages: the presence of a matrix of LED chips, linearly located perpendicular to the projection of the vessels passing in the wrist area, ensures the full absorption of light by the blood flowing in these vessels, the presence of a high-capacity battery and the possibility of charging it directly in the device case allows you to extend the time of effective use of the device, the introduction of a "cooler" into the design of the device for heat removal protects the matrix of LED chips from overheating and avoids the negative consequences of this overheating: skin burns and vascular thrombosis, the use of a latex coating on the surface of the light-emitting matrix allows you to evenly scatter light throughout of the irradiated surface, complete autonomy of the device, comfort (one of the conditions of which is the absence of excessive exposure to the patient's skin), ease of operation make it possible to use the device in almost any conditions. oviyah - in medical institutions, at home while relaxing or walking, reading literature and other activities, and what is especially important during long flights, for the prevention of desynchronosis developing in these conditions, the presence, for example, of a working clockwork in the device case not only expands it functionality, but also, imitating a watch with a bracelet, completes the design in an aesthetic sense, which creates a certain psychological mood of the patient, allowing him to use the device in any conditions, including at work and in public places.

All of these devices have a significant drawback, namely, a small area of irradiation.

To eliminate this shortcoming, a utility model is proposed.

The purpose of the proposed utility model is to provide irradiation of a larger volume of blood in less time.

EFFECT: increased irradiation area.

The specified technical result in the implementation of the utility model is achieved by the fact that the device contains a power source connected by means of a flexible cable with emitting diodes located on the holder. In this case, the holder is made in the form of a flexible long rod capable of changing and maintaining its shape, in which emitting diodes are mounted. The flexible holder is bent and follows the shape of the vein on the forearm, then it is applied to the vein and fixed with a plaster. The irradiation mode is selected and an irradiation session is performed. Due to the greater volume of irradiation per unit of time, the therapeutic effect is achieved much faster.

In FIG. 1 shows a block diagram of the proposed device. The device contains a power supply - 1, a holder made of composite material - 4, which has the shape of a rod. Emitting diodes - 2 are fixed on it. The holder is bent and fixed on the patient's hand with a plaster - 3 and connected to the power supply unit via a flexible cable - 5, on which there is a mode switch - 6.

LEDs of not only red radiation, but also infrared radiation or blue light can be used as sources of study.

The device works as follows. The patient is seated in a chair or on a couch, giving a comfortable position to the body and head. The radiating device is superimposed on the projection of the vein along the entire length of the forearm and fixed with a plaster. The power supply is connected to the network.

Device operation mode (as an example): wavelength 635 nm, integral pulse power 2.5 mW, duration of the light-emitting pulse 5 ms, pulse mode 50-100 Hz in the red range, exposure time 2-5 minutes, treatment course 5-8 procedures that are carried out daily or every other day. The procedure is completed by turning off the power supply from the network and removing the irradiation holder from the patient's arm.

Thus, targeted blood irradiation is carried out in the projection of the vein of the patient's forearm.

Claims (1)

A device for percutaneous irradiation of human blood, containing a power source connected by means of a flexible cable to emitting diodes located on the holder, characterized in that the holder is made in the form of a flexible rod capable of changing and maintaining its shape, in which emitting diodes of red glow are mounted.

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