RU2143246C1 - Intravascular stent-filter - Google Patents

Abstract

FIELD: medicine, namely roentgenoendovascular surgery. SUBSTANCE: intravascular stent-filter is made as cellular-structure body of revolution manufactured of nitinol wire. It contains at least one filtering element positioned in direction of blood flow. Ends of article are provided with X-ray contrast marks. Given construction of intravascular stent-filter ensures simplicity of manipulations, high embolocatching characteristics, full atraumatism due to absence of special attachment members, and guaranteed self-centering, as a result of which it may be used for catching clots of blood in any section of vascular channel. EFFECT: enhanced reliability. 6 cl, 2 dwg

Description

 The invention relates to medicine, in particular to x-ray endovascular surgery, and can be used to capture blood clots.

 Known intravenous filter containing two open at the base of the cone, formed by elastic threads and interconnected by a thrust, the ends of the threads of the first cone or at least part of them are divided along the axis into two parts and bent in different directions, while the ends of the threads of the second cone are bent outward and the tops of the cones are facing each other (RF patent N 20402278, CL A 61 F 2/06, 1995).

The disadvantages of this filter are:
- the possibility of skewing the locking cone with a subsequent turn of the threads of the centering cone and, as a result, the possibility of slipping blood clots between spatially displaced threads,
- the presence of fixation elements does not guarantee from injury to the walls of the vessel during installation,
- the need for an adequate filter choice in accordance with the size of the inferior vena cava,
- Applicability only for the inferior vena cava.

 A device is known - a self-healing stent made of wire forming a cylindrical mesh surface with rhombic cells with unequal sides and a large diagonal along the longitudinal axis (RF patent N 2121317, class A 61 F 2/04, 1998).

The advantages of this device are:
- high characteristics of fixation and maintenance of the lumen of the vessel;
- uncriticality to the diameter of the vessel due to self-expansion;
- lack of special fixation elements;
- Applicability to any vessel.

 However, this device does not capture blood clots - blood clots.

 The objective of the invention is to provide a device that provides reliable trapping of blood clots in different parts of the vascular bed and eliminates wall injury both during manipulation (installation and removal), and when blood clots - thromboembolism get into the filter.

 The problem is solved by the fact that an intravascular stent with filter elements is proposed.

 The intravascular stent filter is made of wire and represents the body of rotation of the cellular structure. Cells are equal or non-equilateral polygons. The connection of cells into a single structure can be either movable or fixed, and the elements themselves can be connected directly or using additional elements.

 Fragments of the body of revolution, which are a set of adjacent cells, form at least one filter element that is located inside or outside the body of revolution.

 At least one filter element is located along the line of blood flow so that blood clots fall into its center. The connection of the filter element with the body of revolution can be made movable or stationary. If there are two filter elements in the device, they can be connected to each other by an additional structural connection located inside the body of revolution. This connection can be rigid or adjustable. The proximal end of the body of revolution is completed by a hook element for gripping and holding the device during installation and removal.

 The design of the movable joint can be implemented in any known manner.

 The intravascular stent filter is made of nitinol, and there are radiopaque tags at its ends.

 The proposed design allows to obtain a multifunctional product that is applicable for any vascular bed (arterial and venous).

 The proposed intravascular stent filter is an atraumatic product due to the absence of any fixing elements characteristic of current filters, it has the properties of self-centering and self-fixation due to the self-healing characteristics of the body of rotation of the cellular structure, which is achieved using nitinol wire, cell geometry and their mutual location.

 The chosen design guarantees the retention of the intravascular stent-filter in the lumen of the vessel without fastening elements (hooks).

 The intravascular stent filter has high embolulation properties due to the presence of a single or double level of filtration with an adequate location of the filter element.

 The proposed design is highly resistant to hydrodynamic shock arising from embolism of a blood clot — a thrombus into an intravascular stent filter due to redistribution and damping of forces on the vessel walls by the body of revolution (there is no likelihood of migration and destruction of the filter upon impact).

 The use of a cellular structure rotation as a body fixer makes it possible to make universal products that are not rigidly geometrically connected with the lumen of the vessel due to the features of the self-healing structure and material properties (nitinol).

 The device has the ability to remove even in the conditions of blood clots captured by the filter element without the risk of migration.

 The intravascular stent filter can be installed in any, by configuration, section of the vascular bed due to the additional alignment properties inherent in the body of rotation.

 The invention is illustrated by drawings.

 FIG. 1 (a-c) - stent filter (layout options).

 FIG. 2 - installation (removal) of the stent filter from the delivery device.

 An intravascular stent filter is a body of revolution that incorporates one or more filter elements (1). Fixation is carried out by the elements of the cellular structure rotation body adjacent to the vessel walls (2).

 For better radiopacity, the stent filter has tags (3) and is equipped with installation and removal tools, and it itself has a hook (4) for carrying out these manipulations.

A device for installing an intravascular stent filter includes:
- conductive cannula (5) with bougie (not shown),
- a pusher catheter (6) equipped with a moving metal two-blade clamp (7) with a spring locking handle (not shown).

A device for removing an intravascular stent filter includes:
- conductive cannula (5) with bougie (not shown),
- a catheter-pusher (6), equipped with a movable metal loop with a locking handle without a spring (not shown), which has a bend of 120 ^o for 1-1.5 cm from the end of the catheter.

 The following is the procedure for working with an intravascular stent filter.

 Installation is carried out in the following sequence. Before installation, the intravascular stent-filter is fixed to the follower catheter by removing the two-web clamp and putting it on the stent-filter hook, after releasing the handle due to springing properties, the clamp is retracted into the pusher catheter with the stent-filter hook fixed to the end of the catheter.

 Access through the subclavian or right jugular vein, the top of the conductive cannula is installed in any vessel distal to the site of thrombosis, the bougie with the conductor is removed.

 A sleeve with a stent filter pre-fixed to the pusher catheter is installed in the lumen of the open tap of the conducting cannula.

 A catheter-pusher is inserted in the sleeve by translational movement, which with a small effort pushes the stent filter into the conductive cannula.

 Under the control of X-ray television, the filter using a catheter-pusher is installed at the level of the apex of the conductive cannula.

 In this position, the filter is held stationary by the pusher catheter, and the cannula is slowly pulled up medially, gradually releasing the stent filter from the conductive cannula.

 At the final stage of the installation, after the stent filter is fully released, pressing the spring handle of the pusher catheter releases it from the two-blade clamp, after which the catheter pusher and cannula are removed.

 For an adequate solution of the problem, the possibility of choosing a specific layout of the intravascular stent filter is used. The choice of the location and number of filter elements in the design of the intravascular stent filter is determined by the specific task and the place of the vascular bed where the device is supposed to be installed. In addition to trapping blood clots, an intravascular stent filter allows you to simultaneously solve the problem of straightening a convoluted vascular bed due to the presence of a stent part in the design. In the presence of two filter elements to enhance the transfer characteristics, they are connected, which can be rigid or adjustable. A rigid connection provides a more efficient transmission of forces during installation and removal of the device, and an adjustable connection improves the characteristics of the distribution of shock loads when blood clots get into one of the filter elements. The connection of the filter element with the stent part can be either movable or stationary.

 The installed intravascular stent filter provides effective capture of blood clots while maintaining the basic characteristics of blood flow, without injuries to the walls of the vessel and without migration of the product, and if necessary, the stent filter can be removed.

 Removing the stent filter is carried out in the following sequence.

 A standard access to the previously installed stent-filter is to let a conductive cannula down and set its tip just above the hook of the stent-filter. A catheter-pusher with a loop is advanced through the cannula, the tip of which is removed by 2-3 cm.

 By pressing the handle of the catheter-pusher, the metal loop is removed from the tip of the catheter, the loop opens and is perpendicular to the axis of the vessel.

Under constant monitoring of X-ray television by simultaneous translational and rotational movements of the pusher catheter, the loop is put on the hook of the stent filter. The bend of the tip of the catheter-pusher at 120 ^o makes it possible to direct an open metal loop into almost any part of the vessel, which ensures the loop is looped over the hook.

 Holding the loop in this position, the push catheter is advanced along the loop until it is fully retracted into the catheter and the stent filter hook is rigidly fixed to the tip of the push catheter. A conductive cannula is put on a stent filter fixed in this way, as a result of which the stent filter is completely folded and is placed inside the cannula.

 At the final stage of removal, all instruments are removed from the vessel in a single block.

 Thus, the design of devices for installing and removing an intravascular stent filter provides reliable retention of it during all manipulations.

 Using these devices allows you to solve the problem of setting and removing an intravascular stent filter in any part of the vascular bed without injuring the walls of the vessel.

 The proposed stent filter and devices for its installation and removal can be manufactured using the applied technology on existing equipment using materials approved for use in medical practice.

 This invention can be used in x-ray surgery to capture blood clots in any part of the vascular bed.

Claims (6)

 1. An intravascular stent filter made in the form of a body of revolution of a cellular structure, characterized in that the cells are made in the form of equal or non-equilateral polygons, interconnected by movable or fixed joints with or without additional elements with the possibility of at least one a filter element located inside or outside the body of revolution.  2. The intravascular stent filter according to claim 1, characterized in that it has at least one filter element located along the bloodstream.  3. The intravascular stent filter according to any one of claims 1 and 2, characterized in that it has at least one filter element connected to the body of rotation movably or motionless.  3. An intravascular stent filter according to any one of claims 1 to 3, characterized in that the two filter elements can be connected to each other inside the body of revolution, and the connection can be rigid or adjustable.  5. The intravascular stent filter according to any one of claims 1 to 4, characterized in that it is made of nitinol.  6. The intravascular stent filter according to any one of claims 1 to 5, characterized in that at the ends of the product are made radiopaque marks.

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