RU31101U1 - Device for introducing oxygen into human tissue - Google Patents

Abstract

A device for introducing oxygen into human tissue, containing a pointed tube with a cannula, characterized in that, in order to increase the efficiency of treatment of patients with destructive-dystrophic lesions of the joints due to receiving, the possibility of introducing active forms of oxygen, the tube is made with a lateral outlet connected to the source oxygen, and the cannula of the tube is equipped with a sealing element through which an optical fiber connected to a laser radiation source passes through the tube channel, the working end of the optical fiber KNA is located at a distance of 0.5-2.0 mm from the working channel of the tube.

Description

DEVICE FOR INTRODUCING OXYGEN IN HUMAN FABRIC

The utility model relates to medicine, namely to traumatology and orthopedics, and can be used in the conservative treatment of patients with destructive-dystrophic diseases of large joints.

In the complex treatment of patients with early manifestations of deforming arthrosis (first and second stages), intraarticular administration of various drugs, for example, oxygen, is widely used.

A known method of introducing oxygen into human tissue, namely into the joint using a device made in the form of a pointed tube with a cannula, which is connected to a syringe containing oxygen (1).

The disadvantage of this method and device is the lack of effectiveness in treating patients with destructive-dystrophic lesions of large joints, due to the low concentration of active oxygen molecules in the water being driven.

A device is known for administering drugs into human tissues, for example, into a joint made in the form of a pointed tube with a cannula (2).

The disadvantage of this device is the lack of effectiveness in treating patients with destructive-dystrophic lesions of large joints, due to the low concentration of active oxygen molecules in the water being taken.

It is also known a device for the introduction of medicinal substances, in particular oxygen, into human tissue made in the form of a pointed

tube with cannula. Oxygen is drawn into the syringe from an oxygen source, and then injected into the tissue by connecting the syringe to the cannula. (3).

The disadvantage of this device is the lack of effectiveness in treating patients with destructive-dystrophic lesions of large joints due to the low concentration of active oxygen molecules in the water being driven.

The purpose of creating a useful model is to increase the efficiency of treatment of patients with destructive-dystrophic lesions of the joints by obtaining, the possibility of introducing active forms of oxygen.

This goal is achieved in that the tube is made with a lateral outlet connected to an oxygen source, and the cannula of the tube is equipped with a sealing element through which an optical fiber passes through the tube channel, connected to a laser radiation source, the working end of the optical fiber is located at a distance of 0.5 - 2.0 mm from the working end of the tube.

The utility model is illustrated by graphic material, which depicts the proposed device for introducing oxygen into human tissue, for example into a joint.

A device for introducing oxygen into human tissue contains a pointed tube 1 with a cannula 2. The tube 1 is made with a lateral outlet 3, through which it is connected to an oxygen source (not shown in the diagram). The cannula 2 of the tube 1 is equipped with a sealing element 4, through which an optical fiber 6 connected to a laser radiation source (not shown in the diagram) passes into the channel 5 of the tube 1. The sealing element 4 fixes the distance of the working end 7 of the optical fiber 6 at a distance of 5 - 2.0 mm from the working end 8 of the tube 1.

The proposed device, for example, for the treatment of patients with destructive-dystrophic lesions of the joints, is used as follows.

The method is implemented as follows.

In the dressing room, under aseptic and antiseptic conditions, the patient is placed on a couch in a supine position, the affected limb is fixed in a flexion position in the knee joint of 150 degrees, the surface of the joint is treated with a solution of iodine or alcohol. The affected knee joint is punctured and the working end 8 of device 1 is inserted into the joint cavity. 40-60 cm of oxygen (up to 80 cm, depending on the volume of the joint) are injected laser irradiated at a temperature of 5 C, radiation density 120 - 150 MV / cm, wavelength radiation 0.63 μm, overpressure in the irradiation zone, 05 - 1.0 ATI, exposure 7 minutes, number of sessions 4-5, with an interval between sessions of 2 days. In the treatment of patients with destructive-dystrophic joint damage, it is possible to use a tube with an inner diameter of 1 mm, an optical fiber with a diameter of 0.8 mm, and the distance of the working end of the optical fiber from the working end of the tube mm.

Using the proposed device can improve the treatment of patients with destructive and dystrophic lesions of the joints by introducing oxygen into the joint enriched with active molecules obtained by irradiating the oxygen introduced with a laser beam, accelerates the treatment time due to the small number of procedures. Along with the fact that the treatment factor is delivered directly to the lesion, the procedure is less traumatic and is available for use in orthopedic, traumatological and rheumatological hospitals.

The device is simple to implement, can be used in practical health care.

Sources of information:

1. Intra-and extra-articular oxygen therapy in the medical rehabilitation of athletes. Publishing house of the Rostov University, 1987. S. 28 - 40, Fig. 2,3,4,5.

2. The basics of general patient care. Moscow, Medicine, 1991, pp. 93 - 108. 45.

3. Reference book operating and dressing sister. Moscow, Medicine, 1976 S. 233-239, fig. 140.

The authors:

Patentee:

P. Kotelnikov S. N. Izmalkov Yu. V. Lartsev A. M. Smirnitsky B. G. Carriers

Claims (1)

A device for introducing oxygen into human tissue, containing a pointed tube with a cannula, characterized in that, in order to increase the efficiency of treatment of patients with destructive-dystrophic lesions of the joints due to receiving, the possibility of introducing active forms of oxygen, the tube is made with a lateral outlet connected to the source oxygen, and the cannula of the tube is equipped with a sealing element through which an optical fiber connected to a laser radiation source passes through the tube channel, the working end of the optical fiber KNA is located at a distance of 0.5-2.0 mm from the working channel of the tube.