RU201818U1 - Connector for connecting the catheter light guide to a laser source - Google Patents

Abstract

The utility model relates to medical technology, namely to structural elements of laser catheters. The technical result consists in expanding the arsenal of technical means used to connect the maximum end of the catheter light guide with a laser radiation source, and creating a device with wider functional capabilities, in particular, with the functions of recognizing catheters and excluding the reuse of catheters, as well as the use of catheters and lasers, which are not agreed on the required characteristics. The technical result is achieved in a device comprising a housing with two inputs, in which an optical connector is installed, and one of the inputs is configured to enter the maximum end of the catheter fiber to connect to the output of the optical connector, and the other input is configured to input the radiation of a semiconductor laser for its supply to the input of the optical connector, while in the housing on the side of the semiconductor laser radiation input, a niche is made for installing a microchip with unique information about the catheter and the characteristics of the semiconductor laser radiation that are acceptable for its operation, as well as terminals for connecting to the terminals of the semiconductor laser microprocessor to provide information retrieval from microchip. 1 ill.

Description

The useful model relates to medical technology, namely to the structural elements of laser catheters used, in particular, in the treatment of cardiac arrhythmias by therapeutic laser destruction of pathological foci of the cardiac conduction system using intravascular laser irradiation of the endocardium of the right atrium and right ventricle in patients with cardiac arrhythmias ...

The light guides of such catheters are connected to lasers (sources of laser radiation), and the most important condition for carrying out medical procedures is the inadmissibility of reuse of catheters and the obligatory coordination of the type of catheter with the characteristics of the laser.

Known technical solution [RU 2655533, C2, A61N 5/00, 28.05.2018], in which there is an auxiliary port protruding from the outer surface of the catheter and defining a hollow passage leading to the hollow rod of the catheter, as well as an insert containing a hollow rod and an adapted for insertion into the hollow shaft of the catheter, while the insert additionally contains an auxiliary port protruding from the outer surface of the insert and defining the hollow passage leading to the hollow shaft of the insert, and the laser fiber has a diameter less than the inner diameter of the hollow shaft of the insert, which allows the passage of the laser fiber through hollow insert rod.

The disadvantage of this technical solution, in which the supply of laser radiation to the catheter is provided, is a relatively narrow functionality, which does not allow using it to connect the catheter light guide to a laser with a catheter recognition function and exclude the reuse of catheters or the use of catheters or lasers that are not coordinated. required characteristics.

It is also known a device for connecting a fiber-optic cable with a connector [RU 2603237, C2, G02B 6/38, 11/27/2016], including an optical connector containing a housing having a far side and a near side, a tip assembly including a tip and a spring, moreover, the distal end surface of the tip is located on the far side of the connector body, and the spring is installed between the far and near sides of the connector body with the possibility of displacement of the tip relative to the connector body towards its far side so that the tip can be moved axially relative to the connector from its distal position to the near position, determining the value of its axial displacement, and the movement of the tip from the far position towards the near position occurs with overcoming the spring force, a fiber-optic cable containing at least one light guide, enclosed in a cable sheath, and at least , one power element to increase the tensile load resistance of a fiber-optic cable, wherein said at least one strength element is attached to the connector body near the near side of its body, and at least one light guide passes through a channel in the optical connector from the near side its housing to the tip and the distal part of this at least one light guide is embedded in the tip, and the fixation means for attaching at least one light guide to at least one cable sheath and to at least one strength element ...

The disadvantage of this technical solution, which provides for attaching one or more fibers in a fiber optic cable, is relatively narrow functionality, which does not allow using it to connect the catheter light guide to a laser with a catheter recognition function and exclude the reuse of catheters or the use of catheters or lasers that are not matched for the required characteristics.

In addition, an optical connector of the QBH type is known [RU 2480797, CI, G02B 6/36, 27.04.2013], which has a round-shaped body with a conical taper at its outlet end and with a first annular groove, while at the end of the collimating device body, on the side of the inserted optical connector, a second annular groove and threaded holes are made, a third annular groove is made inside the body of the collimating device, in which an O-ring is located, in the first groove there are semicircular crackers protruding beyond the maximum diameter of the body by the amount of the second annular groove, the body of the optical connector with with installed semi-circular crackers, it is fixed in the collimating device body by a clamping flange with threaded parts inserted into through holes corresponding to the position of the threaded holes on the collimating device body end face.

The disadvantage of this technical solution, intended for fastening the optical connector in the collimating device of a fiber laser, is its relatively narrow functionality, which does not allow using it to connect the catheter light guide to a laser with a catheter recognition function and exclude the reuse of catheters or the use of catheters or lasers that do not coordinated according to the required characteristics.

The closest in technical essence to the proposed one is a technical solution, which is a separate element included in the device for intravenous laser irradiation of blood [RU 36626, U1, A61N 5/067, 03/20/2004], which contains a unit containing a semiconductor laser emitting head and a latch fastened to it, intended for connection and fixation with a plastic tip, coaxially put on the end of the fiber, while the latch is made in the form of a hollow latch connector, the first end of which is docked to the emitting head of the semiconductor laser and has a hole in the center, coaxial with which the luminescence body of the semiconductor laser, the opposite end of the fixture is made in the form of a flexible elastic plate with a round hole in the center for inserting the tip, the tip has an annular protrusion on the lateral surface with a diameter larger than the diameter of the said circular hole in the said plate, and the annular protrusion separates the tip nick on the guide and tail part, the guiding part is made in the form of a truncated cone and with a recess in front of the annular protrusion for fixing the tip in the specified circular hole of the said plate, while on the end of the tip guiding part there is a protrusion for centering and fixing the end of the light guide when placing this protrusion in hole of the first end, and the length of the guide part between the specified and the annular protrusions is equal to the distance between the inner surface of the first end and the outer surface of the opposite end of the lock.

The disadvantage of this technical solution, intended for connecting an optical fiber to the emitting head of a semiconductor laser, is a relatively narrow functionality, which does not allow using it to connect a catheter fiber to a laser with a catheter recognition function and exclude the reuse of catheters or the use of catheters or lasers that do not coordinated according to the required characteristics.

The task of the utility model is to create a connector for connecting the maximum end of the catheter light guide with a laser radiation source with wider functional capabilities, in particular, with the functions of catheter recognition and exclusion of catheter reuse, as well as the use of catheters and lasers that are not matched according to the required characteristics.

The required technical result consists in expanding the arsenal of technical means used to connect the maximum end of the catheter light guide with a laser radiation source, and creating a device with broader functionality, in particular, with the functions of recognizing catheters and excluding the reuse of catheters, as well as the use of catheters and lasers. that are not consistent with the required characteristics.

The problem is solved, and the required technical result is achieved by the fact that a device containing a housing with two inputs, in which an optical connector is installed, and one of the inputs is configured to enter the maximum end of the catheter light guide to connect to the output of the optical connector, and the other input is made with the possibility of inputting radiation of a semiconductor laser to supply it to the input of an optical connector, according to the utility model, a niche is made in the housing on the side of inputting radiation of a semiconductor laser for installing a microchip with unique information about the catheter and the characteristics of radiation of a semiconductor laser that are acceptable for its operation, as well as terminals for connections with the terminals of the semiconductor laser microprocessor to provide information retrieval from the microchip.

The drawing shows a connector for connecting the light guide of the catheter to a laser source.

The connector for connecting the catheter light guide to the laser radiation source contains a housing 1 with two inputs, in which an optical connector 2 is installed.

One of the inputs of the connector is configured to enter the maximum end of the catheter light guide 3 (can be equipped with a shank) to connect to the output of the optical connector 2, and the other input is configured to input the radiation of the semiconductor laser to be fed to the input of the optical connector 2.

In the housing 1, on the side of the semiconductor laser radiation input, a niche 4 is made for installing a microchip with unique information about the catheter and the characteristics of the semiconductor laser radiation admissible for its operation, as well as terminals 5 for connecting to the terminals of the semiconductor laser microprocessor to provide information retrieval from the microchip.

The connector for connecting the light guide of the catheter to the laser source is used as follows.

The radiation of a semiconductor laser, when docked to the connector, is fed to the input of the optical connector 2 and from its output is fed to the maximum end of the optical fiber 3 of the catheter. In this case, a microchip is fixed in niche 4 with unique information about the catheter and the characteristics of the semiconductor laser radiation that are acceptable for its operation. In that case, through terminals 5 to connect to the terminals of the microprocessor of the semiconductor laser to ensure the readout of information from the microchip before starting work, the microprocessor (not shown in the drawing) reads unique information about the catheter and, if the catheter has already been used, it blocks the laser and therefore again the catheter cannot be used. In this case, the work of the processor can be organized locally and a unique number of catheters delivered for use or with the use of processors connected to the global information network can be entered into its memory.

In addition, the microchip contains information about the characteristics of the laser radiation that are allowed for use in the catheter, which makes it possible to use either blocking the laser in case of inconsistency of characteristics or blocking unacceptable laser modes.

Thus, in the proposed device, the required technical result is achieved, which consists in expanding the arsenal of technical means used to connect the maximum end of the catheter light guide with a laser radiation source, and creating a device with wider functionality, in particular, with the functions of recognizing catheters and eliminating repeated the use of catheters; and the use of catheters and lasers that are not matched for the required characteristics.

Claims (1)

A connector for connecting a catheter light guide to a laser radiation source, comprising a housing with two inputs, in which an optical connector is installed, one of the inputs is configured to enter the maximum end of the catheter light guide to connect to the output of the optical connector, and the other input is configured to input semiconductor radiation laser for feeding it to the input of the optical connector, characterized in that a niche is made in the housing on the side of the input of the semiconductor laser radiation for installing a microchip with unique information about the catheter and the characteristics of the semiconductor laser radiation admissible for its operation, as well as terminals for connecting to the terminals of a semiconductor microprocessor laser to provide information retrieval from the microchip.

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