• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    stent graft. the present invention relates to a stent graft from a stent (1) with a variety of ring segments (3), arranged side by side and interconnected, and with at least one membrane (2) with at least one ring segment ( 4) in a marginal position, with a meander-shaped fillet path, in which fillet loops are carved (5), projecting back inwards or outwards, in such a way that molar tongues (6) are formed that are arranged with positive union in the fillet loops (5), and are elastically mobile against the path of the fillet, with the membrane (2) being trapped between the molar tongues (6) and the fillet.
    公开号:BR112013016109B1
    申请号:R112013016109-4
    申请日:2011-12-20
    公开日:2020-12-15
    发明作者:Milisav Obradovic;Rainer Bregulla
    申请人:Bentley Innomed Gmbh;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a stent graft, consisting of a stent with a plurality of ring segments, arranged adjacent and interconnected, at least with a membrane. In addition, the invention relates to the use of such a stent graft to treat deficient vascular formations.
    [0002] Stent grafts of this species are used in blood vessels, possibly in support of abnormally narrow, enlarged or also damaged blood vessels. The combination of stent and membrane also serves to cover segments of dilated vessels, requiring treatment, which require greater length of the stent and, especially, also flexibility of the implant. Especially, stent grafts are used to bridge bridging of failed vessel formations, eventually to exclude aneurysms from the bloodstream. Balloon catheters are usually used to implant such stent grafts.
    [0003] According to the state of the art it is known to use, for these tasks, stent grafts consisting of two stents and a flexible membrane, for example, Teflon. Such a stent graft is described in EP 2 151 217 A1. The revealed stent graft consists of an internal stent and an external stent, coaxially disposed to this first stent, between which is a flexible and ductile membrane. The terminal areas of the stents with the intermediate membrane are welded.
    [0004] EP 1 266 635 A2 discloses a stent graft, which has a cylindrical stent and a cylindrical membrane, which are interconnected, for example, through seams or hooks. In an additional or alternative character, the union can be protected by a reduced overlap of the stent and membrane.
    [0005] WO 2009/035679 A discloses a stent graft, which it presents in an internal polyester or ePTFE liner. A stent is provided in an area of this internal liner, which coaxially surrounds the stent. The areas of the internal liner, next to the stent, are covered with a second layer of polyester or ePTFE, in order to increase the thickness of the implant wall in the area not supported by the stent. The terminal areas of the stent and the second layer will be positioned side by side. When necessary, reinforcement material, for example ePTFE, can be applied additionally to the external side of the stent graft components, especially in the passages between the stent and the second layer.
    [0006] Of the aforementioned stent grafts with a membrane connection of a stent, only the stent shown in EP 1 266 635 A2 interconnects with precisely a membrane. The other solutions in the state of the art always require another stent or another membrane, arranged for reinforcement in a coaxial direction around the first stent, that is, the first membrane.
    [0007] The solution according to EP 1 266 635 A2 employs for the union between stent and membrane, hooks or wires and / or alternatively a superposition of the two components. In this case, the durability of hooks and wires is always problematic, which are subject to intense frictional forces within the blood vessel. Likewise, there is a danger of irritation or tissue damage by protruding hooks or protruding edges between stent and membrane.
    [0008] It is, therefore, a task of the present invention to create a stent graft, which interconnects, in a simple and durable way, stent and membrane, consuming a reduced vessel volume and does not cause irritation or tissue damage.
    [0009] This task is solved by the invention with the stent graft of the species initially mentioned, with at least one annular element positioned on the edge, having a meander-shaped fillet path, in which loops of fillets are pointed inward or outwards, spring tongues being formed, which are arranged in positive union in the fillet loops, being elastically movable against the path of the fillet, the membrane being trapped between the spring tongues and the fillet.
    [00010] The stent graft according to the invention consists of a plurality of interconnected ring segments, which are arranged in the central area. These ring segments correspond to the ring segments of conventional stents as they have been widely proposed and are being used. Shaped according to the invention and modified, it is at least a marginal annular segment, which has a fillet path in an approximate meander shape, with spring tongues being carved in its fillet loops.
    [00011] The expression of ring segments comprises ring segments of such an order that they are arranged on the edge of the membrane. Generally, they are either disposed in a terminal position on the stent, that is, limiting the stent at its ends, or are disposed in the immediate vicinity with the ring segments in the terminal sections. Preferably, these are ring segments in a terminal section. In this case, according to the invention, only one of these marginal ring segments can have spring tabs, preferably they are, however, marginal ring segments at both ends of the Stent.
    [00012] The meandering stent path of the marginal ring segments comprises both a wavy and a zigzag stent path. Wavy and zigzag-shaped paths of stents and ring segments are widely used in vascular stents, in order to compensate, at least partially, the longitudinal contraction that presents in the expansion.
    [00013] To form the spring tongues, the loops of fillets of the marginal ring segments will be partially notched, so that movable spring tongues are formed against the stent path. Ties of stents pointed either inward or outward may be indented, so that spring tongues are formed that point inward or outward. The spring tabs themselves are adjusted in the ready state of the stent (that is, before stapling in a balloon, that is, before expansion) are adjusted with positive union in the stent loops.
    [00014] In order not to worsen the resistance of the stent by the notches in the loops of the stent, it is advisable to increase the width of the stent in the area of the formation of the spring tabs, eventually making the duplication. This means that the spring tabs have an essentially normal stent width.
    [00015] The fixation of the membrane with the aid of spring tabs, placed side by side on the stent, allows a simple and secure connection between stent and membrane. The spring tabs arranged on the stent loops are, for example, produced by laser cutting. Fixing the membrane below the spring tabs, from the technical point of view of production, is easy to achieve. The integration of the connecting elements between the stent and the membrane, such as spring tabs on the stent, eliminates, in this case, the danger of loosening components of the stent union, freely reaching the blood circulation, as this can happen with other elements of the stent. unity.
    [00016] To produce a uniform connection between stent and membrane, it is recommended to have a greater number of spring tongues, pointed adjacent in the same direction. In particular, all loops of the stent, pointing in the same direction, from the respective annular segment positioned at the edge, are equipped with a spring tongue. These spring tabs will be aligned in parallel with the longitudinal axis of the stent, projecting, preferably, into the stent. The shape of the spring tabs, in this case, largely corresponds to the shape of the stent loops.
    [00017] Normally, the spring tabs are aligned parallel to the longitudinal axis of the stent. In the case of corresponding conformation of the notches and backing of the marginal segments, that is, loops of the stent are, however, also possible deviations from the parallelism.
    [00018] The number of spring tabs of a marginal segment will basically be according to the desired resistance of the respective union between the stent and the membrane. Typically, at least two stent loops, opposed to a marginal annular segment, are equipped with spring tabs, preferably all stent loops of the marginal annular segment.
    [00019] The stent graft according to the invention will normally be produced by a stent that can be enlarged by a balloon catheter, for example, from clinically acceptable steel. Alternatively, variants such as the stent are formed as a self-expanding unit, eg by using a shape memorizing alloy, such as nitinol, can also be imagined.
    [00020] The membrane, usually a laminate or a tube, can consist of all conventional materials and accepted in the clinical technique. Stent grafts adapt, however, to ePTFE and polyester. Especially preferred is an ePTFE membrane. The membrane can, in this case, be additionally coated in a functional sense, for example, with inflammation-inhibiting, proliferation-inhibiting or therapeutic substances, for example, with rapamycin, paclitaxel or heparin. The membrane, preferably, will have a tubular shape and has the necessary expansion capacity, in order to accompany the expansion of the stent.
    [00021] One or more marginal ring segments with a stent path close to the meander shape and the integrated spring tongues, constitute, at the same time, especially the terminal ring segments of the stent graft section according to the invention.
    [00022] The spring tongues of the ring segments with a meander-like fillet path, preferably project inwards. The membrane attached between the loops of the stent and the spring tabs, to improve the seat, can be positioned in the terminal area under the spring tabs, being folded over itself, in order to obtain a better tightening effect.
    [00023] The stent graft, according to the invention, can have the membrane inside or outside. Preferably, an arrangement of the membrane is provided on the outer side. This arrangement has the advantage that the influence of the stent on the container wall will be mitigated by the membrane in an intermediate position. In particular, the membrane is attached at both ends of the stent within the marginal ring segments.
    [00024] A variant is also feasible, in which the membrane is attached internally to the stent, inside the spring tongues, extending externally on the surface of the stent and, at the opposite end, being retained internally by the spring tongues. In this case, the spring tongues preferably point outwards.
    [00025] Preferably, the membrane is additionally secured by gluing on the marginal ring segments. This can be done by a glue compatible with the organism, preferably, however, through an adhesive tape, which is glued at the height of the spring tabs on the membrane. Such bonding tape also serves as a presence aspect, also to protect the vessel wall against direct contact with the spring tongues of the marginal annular segment.
    [00026] The stent graft, according to the invention, can present the membrane in a random location and more than one membrane can also be present. For example, the membrane can be arranged only at one or the other end of the stent or in the center of the stent, leaving free regions of the stent. In addition, it is possible to provide more than just a membrane, which, for example, is arranged with a free intermediate space at the ends. When more than just one membrane is provided, for each corresponding spring tongue, each one will be attached to the stent structure, possibly by gluing.
    [00027] If, for example, two membranes are arranged in the terminal section, the part of the stent graft in an intermediate position, not covered by a membrane, can be positioned in the area of a vessel branch, so that the blood flow is not harmed in the branched vessel. For this purpose, also the two halves of the stent, which have the membrane, can only be loosely interconnected by so-called connectors. This also results in greater flexibility in this area.
    [00028] The stent grafts according to the invention will, in the first line, be used for failed vascular formations. In this case, it may be the blocking of branched vessels, but it may also be the paralysis of aneurysms or arterovene shunts.
    [00029] Embodiments are also possible, in which the stent graft, according to the invention, has two stent units, which serve to fix a tubular membrane in an intermediate position within a vessel. In this case, the stent has the clamping union for fixing the membrane only at one end; the other end of the tubular membrane is joined with the second stent. Such a stent graft can be implanted in vessels with extensive lesions, for example, after the obliteration of the epithelial cell layer of a blood vessel.
    [00030] Next, the invention will be explained in more detail and based on the illustrations. The figures show: Fig. 1 - a modified stent according to the invention Fig. 2 - a stent graft according to the invention Fig. 3 - another stent, according to the invention, for fixation with two membranes, and Fig. 4 a stent according to the invention for fixation with two membranes and a flexible union of the two sections of the stent.
    [00031] Fig. 1 shows a stent 1, modified in accordance with the invention, as it is modified for fixing a membrane using spring tabs 6. Stent 1 consists of a plurality of ring segments 3 which have a tracing essentially in the form of a zigzag. In the illustration, stent 1 is shown in a cut, open and expanded state; in the original state, after finishing, it will be a tube made up of fillets and having passages, for example, of clinical steel or nitinol. The production was carried out in a way already known for laser cutting a tube of suitable dimensions.
    [00032] The ring segments 3 are interconnected by expansion elements 7, such that when placing the stent on a balloon, the reduction in length, resulting from the expansion of the ring segments 3, will be at least partially compensated by a stretching of the elements of union 7.
    [00033] The ring segment 4 at the end of the stent has a meander-like pattern. A zigzag course would also be possible. The different fillets form loops of fillet 5, which extend in a wavy or meander shape over the circumference of the stent. The different loops of fillet 5 present - in this case, in the course of their tongues, projected into the stent - notches 8 that allow spring tongues 6 to appear, which are elastically mobile against the general traction of the fillets of the ring segments 4 in the section marginal. This makes it possible to insert a membrane between the spring tabs 6 and the loops of the stent 5, which membrane will be retained there with tightness.
    [00034] It should be noted that for a stent graft according to the invention, the structure of the stent itself is decisive. The ring segments can be of variable constitution. It is important that a marginal annular segment is present, in which spring tongues are carved in order to fix a membrane there.
    [00035] Fig. 2 shows a stent graft according to the invention, with a stent, according to fig. 1, and membrane 2 inserted. The terminal stent loops 5 can be seen, as well as the spring tabs 6 that are laid on the membrane 2. In the case of a retention of the membrane on the stent with an adhesive, in order to stick an adhesive tape over the spring tabs 6 with the deposited membrane.
    [00036] Fig. 3 shows a stent 1, modified according to the invention, which is subdivided into two sections that can be covered separately by membranes. In the left section, the marginal ring segments 4 are provided with strands of thread 5 and with spring-loaded tongues 6. A row of ring segments follows, which are interconnected through joining or dilating elements 7. In the central area of the stents, another 4 'ring segment "in a marginal position", with 5' fillet loops and 6 'spring tabs. Next are ring segments 3 which are joined by expansion elements 7, and the other (no longer shown) end of stent 1 is joined with another marginal ring segment 4 with thread loops 5 and spring tabs 6.
    [00037] The spring tabs 6 and 6 'of the half of the stent, shown on the left side, point, in the case in focus, in a reciprocal direction and receive, between themselves, the tubular membrane. A corresponding situation is also valid for the right part of the stent.
    [00038] Fig. 4 shows an embodiment of a stent according to the invention for the production of a stent graft with two membranes. In this case, stent 1 is also provided, at both ends, with marginal ring segments 4 (the end on the left side is shown), which also has thread loops 5 and spring tabs 6. Spring tabs 6 are directed to inside the stent. In addition, the stent has the conventional ring segments 3 that cover the left part of the stent, which is covered, in the ready stent graft, by the membrane, which happens between the marginal and 4 and 4 'segments. The different ring segments 3 and 4 are interconnected through connecting elements 7.
    [00039] Like the marginal ring segments 4, also the marginal ring segments 4 ', disposed in a central position, have spring tongues 6' and loop loops 5 '.
    [00040] The right half of the stent, shown only with the left end, corresponds, in all points, to the left half of the stent. The two halves of the stent are interconnected by connectors 8. In the case presented, stent 1 has a total of three connectors 8. The connectors leave a larger free space between the two halves of the stent, which, on the one hand, allows retaining vessels, and, on the other hand, also implies greater inherent flexibility.
    [00041] In addition to connectors 8, that is, ring segments 3 'and connector elements 7', the stent in Fig. 4 corresponds, in all other points, to that in Fig. 3.
    [00042] The stent graft, according to the invention, will be stapled, conventionally, over a balloon catheter, being expanded, with the conventional technique, at the site of use. In this case, stent 1 with membrane 2 is applied to the container wall. The membrane 2 is located between the stent 1 and the wall of the container.
    权利要求:
    Claims (12)
    [0001]
    1. Stent graft consisting of a stent (1) with a plurality of ring segments (3), positioned side by side and interconnected, and at least one marginal ring segment (4) with a meander-like fillet path, as well as at least with a membrane (2), characterized by the fact that it has at least one marginal ring segment (4) with a meander-shaped fillet path, fillet loops (5) that point inwards or outwards are cut out in such a way so that spring tongues (6) appear, which are arranged in positive union in the fillet loops (5) and which can be moved elastically against the path of the fillet, with the membrane (2) being fixed between spring tongues ( 6) and fillet ties (5).
    [0002]
    2. Stent graft according to claim 1, characterized by the fact that at least one marginal annular segment (4) is terminally disposed.
    [0003]
    3. Stent graft, according to claim 1 or 2, characterized by the fact that the spring tongues (6) point in the internal direction of the stent.
    [0004]
    4. Stent graft according to any one of claims 1 to 3, characterized in that the stent (1) has a membrane (2) in the form of a hose.
    [0005]
    5. Stent graft according to claim 4, characterized by the fact that the membrane (2) surrounds the stent (1).
    [0006]
    A stent graft according to any one of claims 1 to 5, characterized by the fact that the membrane (2) is fixed by gluing, preferably with adhesive tape, to the spring tabs (6).
    [0007]
    A stent graft according to any one of claims 1 to 6, characterized by several membranes (2) arranged in segments, which are respectively attached to spring tabs (6).
    [0008]
    Stent graft according to any one of claims 1 to 7, characterized in that the marginal area of the membrane (2) attached to the spring tabs (6) is bent.
    [0009]
    Stent graft according to any one of claims 1 to 8, characterized in that the membrane (2) consists of an ePTFE hose.
    [0010]
    10. Stent graft according to any one of claims 1 to 9, characterized in that the stent (1) is a balloon-expandable stent.
    [0011]
    11. Stent graft, according to claim 10, characterized by the fact that it is stapled to the balloon of a balloon catheter.
    [0012]
    12. Stent graft according to any one of claims 1 to 9, characterized by the fact that it comprises a self-expanding stent of an alloy with shape memory, especially nitinol.
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    CN103402461A|2013-11-20|
    RU2603049C2|2016-11-20|
    ZA201304650B|2014-04-30|
    WO2012084202A3|2012-08-30|
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    WO2012084202A2|2012-06-28|
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    法律状态:
    2018-12-18| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2019-09-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2020-06-09| B06A| Notification to applicant to reply to the report for non-patentability or inadequacy of the application [chapter 6.1 patent gazette]|
    2020-10-13| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2020-12-15| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 20/12/2011, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102010055545.2|2010-12-22|
    DE102010055545|2010-12-22|
    DE102011115902.2|2011-10-14|
    DE102011115902.2A|DE102011115902B4|2010-12-22|2011-10-14|Stent-graft and its use|
    PCT/EP2011/006440|WO2012084202A2|2010-12-22|2011-12-20|Stent graft|
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