RU2014098C1 - Catheter - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: catheter has a flexible tube in which working part a flexible tab-shaped catcher is formed, the tabs are made for radial movement apart of the tube axis and have a moving apart device. No less than two longitudinal wall slots forming tabs on the tube end are made in the working part beginning from the end of the tube along the axis. Each tab has a thread on the inner side passed for movement through the tube wall below the tab base from outside into tube channel. In the nonworking part of the tube the end of the thread is brought out for movement through the tube wall from the channel outside the tube. The catheter has a tab radial position lock made on the threads in the form of a limiter of movement through the tube wall. EFFECT: improved reliability and efficiency. 14 cl, 10 dwg

Description

 The invention relates to medical equipment, namely to catheters used for drainage of hollow organs in the treatment of the stomach, gall bladder, etc. abscess cavities.

 Known catheter containing an elastic tube with lobe hooks on its lateral surface, connected to the tube at an acute angle to the axis [1].

 The disadvantages of the known device are low reliability and efficiency due to the low stiffness of the hooks located in the abscess cavity during drainage, as well as significant trauma and a high degree of likelihood of concomitant inflammatory processes associated with conducting molten lobe hooks through the puncture hole, especially when removing elastic tubes from the drained organ.

 Also known are drainage devices containing an elastic tube, in the working part of which a hook is formed in the form of flexible petals made with the possibility of radial dilution from the axis of the tube and equipped with a device for their dilution [2].

 The disadvantages of these drainage devices are low reliability and efficiency, due to the structural complexity of the device for breeding the petals, the low stiffness of the flexible petals, the narrowing of the flow areas of the drainage due to the need to use an additional tube or levers, as well as the likelihood of reducing the area of the flow areas associated with the deformation of the elastic tube when breeding petals.

 The aim of the invention is to increase the reliability and efficiency of the catheter by simplifying the design, increasing the rigidity of the hooks while maintaining the area of the passage sections.

 The goal is achieved in that a catheter containing an elastic tube, in the working part of which a hook is formed in the form of flexible lobes made with the possibility of radial dilution from the tube axis and provided with a device for their dilution, for which at least two longitudinal wall slots, forming petals at the end of the tube, each of which is provided on the outside with a thread passed through with the possibility of moving through the tube wall below the base of the petals from the outside into the channel of the tube, and into the slope whose end portion of the tube filaments derived movably through the tube wall from the channel to the outside of the tube, wherein the catheter is provided with a clamp position lobes formed on the filaments as a displacement limiter through the tube wall. The threads of the petals can be placed parallel, crosswise, at an angle to each other or connected to each other, and the end of each thread is brought out in the non-working part of the tube, respectively, from the side of the petal, from the side opposite to the petal, from one of the petals or one end for all threads. The thread can be rigidly connected with the top of the petal, with the middle part of the petal or with a vertex on the inside of the petal and skipped from the inside out to move through the wall in the middle of the petal. The limiter for moving the threads through the tube wall can be made in the form of knots tied to the threads, and the limiter can be located outside in the working part of the tube before entering the thread into the channel of the tube, in the channel in the non-working part of the tube before the end of the threads from the channel to the outside of the tube, and also outside in the non-working part of the tube after the end of the threads is withdrawn from the channel to the outside of the tube, and in the latter case, an elastic element made in the form of a cylindrical or conical spring can be located between the tube and the stopper. To reduce the deformation of the channel of the tube during dilution of the petals of the catheter, the working part of the elastic tube in place from the end of the slots to the insertion of threads into the channel of the tube contains a reinforcing element made, for example, in the form of a cylindrical spring installed at one end with an interference fit on the outer diameter in the channel of the tube, and the other end protruding freely into the petal run area.

 In FIG. 1 shows the catheter in the idle position with the parallel placement of the threads in the channel of the tube, the ends of which are brought out in the inactive part from the side of the corresponding lobe, the threads are rigidly connected to the top of the lobes, and the thread limiter in the form of knots is located outside in the working part before introducing the threads into tube channel; in FIG. 2 - the catheter in the working position with the hook in the hollow organ and after the formation of the thread movement limiter in the form of nodes placed outside in the inoperative part after the end of the threads is withdrawn from the tube channel; in FIG. 3 - catheter with the cross-placement of threads in the channel of the tube, the ends of which are brought out in the inoperative part from the side opposite the corresponding lobe, the threads are rigidly connected to the middle part of the lobe, and the thread movement limiters are located as in the channel in the non-working part of the tube before the end of the threads from channel outward, and after withdrawal of the end of the threads from the channel to the outside of the tube; in FIG. 4 - a catheter with the placement of the threads in the channel of the tube at an angle to each other, the ends of which are brought out in the non-working part of the tube on the side of one of the petals, the threads are rigidly connected to the middle part of the petal, the thread movement limiters are located outside the working part of the tube before introducing the threads into the channel of the tube, and in the non-working part of the tube in the channel before the output of the threads from the channel to the outside and after the end of the threads from the channel to the outside of the tube; in FIG. 5, 6 - catheters, in which the threads of the petals are interconnected in the channel of the tube, and in the non-working part, the tube leads out one end for all threads, the threads are rigidly connected to the middle part of the petals, and the thread movement limiter is placed outside in the non-working part after the end is output threads from the channel of the tube (in the catheter shown in Fig. 6, between the tube and the thread limiter there is a compensator in the form of an elastic element, namely a conical spring mounted coaxially with the thread; in Fig. 7 and 8 are catheters in which the threads are rigidly connected are connected with the top of the petal from the inside and passed from inside to outside with the possibility of moving through the wall in the middle part of the petal, having different shapes of hooks depending on the degree of deformation of the petals; Fig. 9, 10 - catheters, the working part of the elastic tube which is in place from the end the slots before introducing the filaments into the channel of the tube contains a reinforcing element (in the catheter shown in Fig. 9, the reinforcing element is made in the form of an additional tube, and in FIG. 10 - in the form of a coil spring).

 The catheter contains an elastic tube 1, in the working part of which a hook is formed in the form of flexible lobes 2 made with the possibility of radial dilution from the axis of the tube 1 and provided with a dilution device, for which at least two longitudinal slots 4 are made in the working part from the end of the tube along axis 3 walls forming at the end of the tube 1 petals 2, each of which is provided on the outside with a thread 5, passed with the possibility of movement through the wall of the tube 1 below the base of the petals 2 from the outside into the channel 6 of the tube 1, and in the non-working part of the tube 1, the end of the filaments 7 is withdrawn with the possibility of moving through the wall of the tube 1 from the channel 6 to the outside of the tube 1, and the catheter is equipped with a latch for the radial position of the petals 2, made on the filaments 5 in the form of a limiter of movement through the wall of the tube 1. The filaments 5 in the channel 6 of the tube 1 can placed: in parallel (Fig. 1, 2) to each other, with the end 7 of each of the threads 5 brought out in the non-working part of the tube 1 from the side of the corresponding lobe 2: cross (Fig. 3, 7, 9) to each other, and the end 7 of each of the threads 5 is brought out in the non-working part of the tube 1 from the side opposite to the corresponding lobe 2; at an angle (Fig. 4, 10) to each other, and the end 7 of each of the threads 5 is brought out in the non-working part of the tube 1 from the side of one of the petals 2. The threads 5 of the petals 2 in the channel 6 of the tube 1 can be interconnected (FIG. 5, 6, 8), and one end 8 is brought out to the inoperative part of the tube for all threads 5. The threads 5 can be rigidly connected to the top of the petals 2 (Fig. 1, 2, 6, 8, 9, 10) or the middle part of the petals 2 (Fig. 3, 4, 5, 6), and for the catheters shown in FIG. 9, 10, threads 5 are rigidly connected to the top of the petal 2 from the inside and passed from inside to outside with the possibility of moving through the wall in the middle part of the petal 2. The limiter for the movement of threads 5 through the wall of the tube 1 can be made in the form of knots 9 tied to threads 5 The nodes can be located outside in the working part of the tube 1 before introducing the threads 5 into the channel 6 of the tube 1 (Fig. 1, 2, 4), in the channel 6 in the non-working part of the tube 1 before the conclusion of the end 7, 8 of the threads 5 from the channel 6 to the outside tube 1 (Fig. 3, 4, 8), as well as necessarily outside in the non-working part of tube 1 after the outlet end 7, 8 threads 5 from the channel 6 to the outside of the tube 1 (Fig. 2-10). Between the tube 1 and the node 9, located outside the non-working part of the tube 1 after the end of the 7, 8 threads 5 from the channel 6 to the outside of the tube 1, an elastic element can be located, made in the form of a spring 10, which can be flat, cylindrical or (Fig. . 6, 7). In the working part of the elastic tube 1 in place from the end of the slots 4 to the input of the filaments 5 into the channel 6 of the tube 1 can be installed reinforcing element made in the form of an additional tube 11 (Fig. 9), one end of which is rigidly fixed in the channel 6 of the tube 1, and the other is perforated with holes 12 and protrudes into the run of the petals 2 or in the form of a cylindrical spring 13 (Fig. 10) installed by one end with an interference fit on the outer diameter in the channel 6 of the tube 1, and the other end freely protruding into the run of the petals 2.

 The use of a catheter is as follows.

 The catheter is inserted into the cavity of the gallbladder or abscess through the sleeve of a trocar (not shown) under the control of ultrasound scanning in the position of the petals 2 along the axis 3 of the tube 1. Then, by pulling the threads 5 at the ends 7, 8, radially dilute the petals 2 from the axis of the tube 1, which leads to the formation of a catheter in the cavity of the gallbladder.

 In the non-working part outside the tube 1, the ends 7, 8 of the threads 5 for fixing the radial position of the petals 2 are connected to each other on the tube 1 or to the tube 1. At the ends 7, 8 of the threads 5, for this purpose, limiters for moving the threads 5 through the wall of the tube 1 can be formed in the form of knots 9 tied to threads.

 After the catheter engagement is formed, channels 6 undergo drainage and treatment of the gallbladder cavity or abscess.

 At the end of treatment, before the catheter is removed, the radial position of the lobes 2 is released, for example, the ends 7, 8 of the threads 5 are cut off. The petals 2 are straightened by the elastic forces of the material of the tube 1, when the tube 1 is pulled, the lobes 2 are folded to each other and the catheter is withdrawn from the cavity of the gallbladder or abscess.

 The number of petals 2, and consequently, of the slots 4, of the catheter should be at least two and can be three, four, etc., which implies the corresponding number of threads 5 and other structural elements, namely nodes 9 and springs 10.

 With the parallel placement of the filaments 5 in the channel 6 of the tube 1 (Fig. 1, 2), there is the least clutter of the passage section area of the catheter of the filament 5, however, it requires considerable effort to separate the lobes 2 due to the greatest bending angles of the filaments 5 when they are passed through the tube wall 1.

 Cross-section (Fig. 3, 7, 9) and at an angle (Fig. 4, 10) the placement of the filaments 5 in the channel 6 somewhat clutters the passage area of the catheter, but reduces the force required to dilute the lobes 2. The decrease in the effort of diluting the lobes 2, and Also, simplification of fixation of their position is achieved in the catheter design, when the threads 5 are connected to each other in the channel 6 of the tube 1, and one end 8 is brought out for the non-working part of the tube 1 for all threads 5 (Fig. 5, 6, 8). To reduce the likelihood of a catheter falling out, the most important operation for diluting the petals 2 and forming a hook in the cavity of the gallbladder or abscess is carried out together with the sleeve of the trocar, which is removed from the latter only after fixing the radial position of the petals 2, the formation of threads on the threads 5 outside the inoperative part of the tube 1 in the form of nodes 9 at the ends of 7, 8 threads 5.

 A wire of filaments 5 in the working part of the tube 1 outside the channel 6 below the base of the petals 2 increases the tightness of the catheter in the cavity of the gallbladder or abscess and reduces the chance of leakage of its contents through the slots 4, while the filaments 5 in the working part of the tube 1 increase the stiffness of the hook.

 The presence of limiters in the form of nodes 9 at the ends 7, 8 of the threads placed externally in the non-working part of the tube 1 is an essential element of all structural schemes of the catheter and serves as a fixator for the diluted radial position of the petals 2 along the axis during operation of the catheter.

 Limiters in the form of nodes 9 on threads 5 in the working part outside the tube 1, as well as in the non-working part in the channel 6 of the tube 1 simplify the formation of a hook of a given shape, reduce the possibility of unacceptable deformation or bending of the tube 1 in the middle part, and increase the safety of manipulations when installing a catheter. At the ends 7, 8 of the threads 5 in the non-working part of the tube 1, marks or risks can be made that determine the different degree of dilution of the petals 2, which, if there are nodes 9, will increase the information content of the operation, and if they are absent, eliminate the likelihood of insufficient or excessive tension of the threads 5.

 The connection of the filaments 5 with the vertices of the petals 2 leads to the formation of a rigid form of the hook with the maximum shoulder breeding of the petals 2.

 The connection of the filaments 5 with the middle part of the petals 2 allows, with a rigid form, to provide the softest edges of the hook (Fig. 3, 4, 7), which protects the tissues of the drained organ. Pulling the petals 2 to the wall of the tube 1 (Fig. 6, 8, 9) forms the most rigid form of the hook, however, it increases the likelihood of tissue injury when the catheter is removed from the cavity of the gallbladder or abscess.

 The compensator in the form of an elastic element (Fig. 6, 7) between the tube 1 and the thread limiter 5, placed outside the non-working part of the tube 1 at the ends 7, 8 of the threads 5, smoothes the traumatic effect of the hook on the gallbladder wall or abscess wall during accidental manipulations . The spring 10 can be flat, cylindrical or conical, while the latter has a centering effect on the thread, which creates the most favorable conditions for the operation of the catheter. A sleeve around the tube 1 at the location of the springs 10 eliminates lateral deformation of the latter and a decrease in the area of the passage section of the catheter.

 When breeding the petals 2 to reduce deformation and narrowing of the channel 6 of the tube 1 in the working part in place from the end of the slots 4 to the input of threads 5 into the channel 6, a reinforcing element is installed (Fig. 9, 10), which due to the protrusion of its perforated part in the execution area of the petals 2 simultaneously solves the issue of occlusion of the catheter inlet openings. The cylindrical spring 13 with lateral stiffness has a small cross-sectional area and significant transverse permeability.

 The design of the catheter is determined by the specific conditions of use, namely the size and nature of the cavity of the gallbladder or abscess, the material and length of the tube, and are determined individually by the surgeon.

 The catheter provides reliable drainage for a long period of treatment, and the proposed hook with minor trauma prevents spontaneous prolapse of the tube and, if necessary, provides a quick exit from the cavity of the gallbladder or abscess.

Claims (14)

 1. A catheter containing an elastic tube with hooks in the form of flexible lobes made with the possibility of radial dilution from the axis of the tube and provided with a device for their dilution, characterized in that in the working part from the end of the tube along the axis there are at least two longitudinal wall cuts forming on the end of the tube, the petals, each of which is provided on the outside with a thread passed through with the possibility of moving through the wall of the tube below the base of the petals from the outside into the channel of the tube, and in the non-working part of the tube, the end of the thread is brought out the ability to move through the wall of the tube from the channel to the outside of the tube, and the catheter is equipped with a latch radial position of the petals, made in the form of a limiter to move the threads through the wall of the tube.  2. The catheter according to claim 1, characterized in that the threads of the petals in the channel of the tube are parallel to one another, with the end of each of the threads brought out in the non-working part of the tube from the side of the corresponding lobe.  3. The catheter according to claim 1, characterized in that the threads of the petals in the channel of the tube are placed crosswise one another, the end of each of the threads brought out in the non-working part of the tube from the side opposite to the corresponding lobe.  4. The catheter according to claim 1, characterized in that the threads of the petals in the channel of the tube are placed at an angle to one another, with the end of each of the threads brought out in the non-working part of the tube from one of the petals.  5. The catheter according to claim 1, characterized in that the threads of the petals in the channel of the tube are interconnected, and one end for all the threads is brought out in the non-working part of the tube.  6. The catheter according to claim 1, characterized in that the thread is rigidly connected to the top of the petal.  7. The catheter according to claim 1, characterized in that the thread is rigidly connected with the middle part of the lobe.  8. The catheter according to claim 1, characterized in that the thread is rigidly connected to the top of the petal from the inside and passed from inside to outside with the possibility of moving through the wall in the middle part of the petal.  9. The catheter according to claim 1, characterized in that the limiter for the movement of threads through the wall of the tube is formed by nodes tied to threads.  10. The catheter according to claims 1 and 9, characterized in that the limiter for the movement of threads is located outside in the working part of the tube before introducing the thread into the channel of the tube.  11. The catheter according to claims 1 and 9, characterized in that the thread limiter is located in the channel in the non-working part of the tube before the end of the threads from the channel to the outside of the tube.  12. The catheter according to claims 1 and 9, characterized in that the limiter is placed externally in the non-working part of the tube after the end of the filaments from the channel to the outside of the tube.  13. The catheter according to claims 1, 9 and 12, characterized in that between the tube and the thread limiter there is an elastic element made in the form of a spring, for example a conical one.  14. The catheter according to paragraphs. 1 to 4, characterized in that the working part of the elastic tube in place from the end of the slots to the insertion of threads into the channel of the tube contains a reinforcing element, made, for example, in the form of a cylindrical spring installed at one end with an interference fit on the outer diameter in the channel of the tube, and the other the end freely protruding into the area of the petals.

Images