Vascular stent prosthesis for preventing peripheral leakage from creased skirt edge, processing method and skirt edge creasing method

A vascular stent and processing method technology, which is applied to prostheses, catheters, balloon catheters, etc., can solve the problems of increasing the complexity and difficulty of control, the overall product is too long, and the effect is not ideal, and achieves safe and convenient use. Circulation leakage phenomenon, the effect of preventing loosening

Active Publication Date: 2019-03-08
VENUS MEDTECH (HANGZHOU) INC
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] However, the flexible film is located on one side of the stent axis before it is released, which will inevitably cause the product to be too long as a whole, which puts higher requirements on the conveying system. More importantly, in order to realize the rolling or folding of the flexible film, an additional traction mechanism must be provided. It is controlled by the operator, which increases the complexity and difficulty of the control. There are also metal parts that use the predetermined shape characteristics of the metal parts to drive the flexible membrane to roll up or fold after being released in the body, but the metal parts will undoubtedly make the stent itself more complicated. , and bring additional risks. In addition, due to the influence of the peripheral space of the stent, it is also difficult to lift the flexible membrane to the ideal position, so the effect is not ideal

Method used

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  • Vascular stent prosthesis for preventing peripheral leakage from creased skirt edge, processing method and skirt edge creasing method
  • Vascular stent prosthesis for preventing peripheral leakage from creased skirt edge, processing method and skirt edge creasing method
  • Vascular stent prosthesis for preventing peripheral leakage from creased skirt edge, processing method and skirt edge creasing method

Examples

Experimental program
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Effect test

Embodiment 1

[0369] see Figure 1b , Figure 1c , the vascular stent prosthesis of the present embodiment includes a stent 1, the periphery of the stent 1 is provided with a flexible skirt 2, and the traction cable (omitted in the figure, the specific threading mode of the traction cable can be combined with other implementations) is threaded on the skirt 2. For example), the traction wire is linked with the radial deformation when the stent is released to drive the skirt into a stacked state. Before the stent 1 is released, that is, the stent is in a radially compressed state. Before the intervention, the stent is loaded into the delivery system and placed in the sheath Under the shackles of the skirt, it is generally in a so-called compressed state. At this time, the circumference of the skirt is discounted in a roundabout way ( Figure 1b visible within the dotted box).

[0370] The skirt 2 of the stent 1 is in a spread state before it is released. It stretches axially and surrounds t...

Embodiment 2

[0380] see Figure 2a ~ Figure 2d , in this example, see Figure 2a , a flexible skirt 2 is provided on the periphery of the bracket 1, and the top edge of the skirt 2 is fixed on the outer periphery of the bracket 1. After release, skirt 2 is stacked ( Figure 2d ), gather and stack along the axial direction of the released stent 1 and form a ring-shaped peripheral leakage sealing part. A traction cable 4 is threaded on the skirt 2, and the traction cable 4 is linked with the radial deformation of the support 1 when it is released.

[0381] The traction cable 4 includes a driving part 4a and a force applying part 4b, wherein the driving part 4a is movably threaded on the skirt 2 . The force application part 4b is connected to the skirt 2 and moves through the corresponding part of the skirt. The force application part 4b is pulled by the drive part 4a during the release process of the bracket 1 and has an axial displacement relative to the bracket 1 to lift the skirt 2 for...

Embodiment 3

[0392] see Figure 3a and Figure 3b , in this embodiment, the periphery of the bracket 1 is provided with a flexible skirt 2, the skirt 2 is in a spread state before the bracket 1 is released, stretches axially and surrounds the periphery of the bracket 1 before the release, after the bracket 1 is released, the skirt 2 is In the stacked state, the stent 1 is folded and stacked along the axial direction of the released stent 1 to form a ring-shaped peripheral leakage sealing part.

[0393] In this embodiment, the stent 1 adopts a vascular stent prosthesis, which can be used in large blood vessels such as the aorta. The shape and characteristics of the stent in the previous embodiment are different from the location of use, but the skirt setting and working principle are similar.

[0394] In this embodiment, the skirt 2 is made of elastic material, and is tightened around the periphery of the bracket when the bracket is released. In the release process, the skirt and the brac...

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Abstract

The invention discloses a vascular stent prosthesis for preventing peripheral leakage from a creased skirt edge, a processing method and a skirt edge creasing method. The vascular stent prosthesis comprises a stent and a flexible skirt edge, wherein the skirt edge has a spreading state and a stacking state; in the spreading state, the skirt edge axially extends and encircles the periphery of the stent before release; in the stacking state, the skirt edge is driven under the deformation effect during release of the stent and folded and stacked in the axial direction of the released stent to form an annular circumferential leakage blocking part; the vascular stent prosthesis is also provided with a traction rope which only penetrates through the skirt edge, and the traction rope is linked with the radial deformation when the stent is released so as to drive the skirt edge to switch into the stacking state. According to the vascular stent prosthesis, a peripheral leakage prevention technology is adopted for ensuring that the interventional stent is better matched with the inner wall of a blood vessel, the stent is unlikely to move and more stable, the range of the suitable crowds is enlarged, the additional risk of an operation is reduced, and complications such as peripheral leakage, thrombus and the like are prevented. Better hemodynamic performance is provided, the climbing function of host endothelial cells is improved, the occurrence probability of endocarditis is decreased, and the normal blood supply function of the heart and blood vessels recovers.

Description

technical field [0001] The invention relates to the technical field of medical devices, in particular to an artificial blood vessel stent prosthesis for blood vessels and a processing method thereof. Background technique [0002] In the heart, when artificial stents are implanted in other blood vessels or body cavities, there is generally a problem of peripheral leakage. [0003] Peripheral leakage is often accompanied by the following hazards: (1) Peripheral leakage leads to severe hemolysis, anemia, and progressive aggravation of hemoglobinuria; (2) Larger peripheral leakage causes abnormal changes in hemodynamics and decreases cardiac function Even heart failure occurred, and the symptoms and signs did not improve significantly after conservative medical treatment; (3) the weekly leakage was small, but it was complicated with infective endocarditis; (4) the peripheral leakage was complicated with the failure of the bioprosthesis. [0004] At present, there have been some...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61F2/24
CPCA61F2/2418A61F2/2427A61F2/2436A61F2/2409A61F2/2415A61F2/2439A61F2220/0008A61F2250/0051A61F2/2433A61F2220/0016A61F2220/0075A61F2210/0057A61F2250/0069
Inventor 訾振军林浩昇曾敏齐均邝大军余金城
Owner VENUS MEDTECH (HANGZHOU) INC
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