Recyclable vena cava filter
A vena cava and filter technology, applied in the direction of filters in blood vessels, etc., can solve the problems of long recovery period of open filter, low filtration efficiency of single-layer filter, easy damage to the end of open rod, etc., and prolong the safe recovery time window. , prolong the safe implantation time, improve the effect of thrombus filtering effect
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Embodiment 1
[0044] like Figure 1 to Figure 13 As shown, this example provides a recyclable vena cava filter, comprising: a recovery part 11 and at least three structural rods 1 emitted from the recycling part 11, the at least three structural rods 1 are formed by bending and shaping to form at least two A thrombus filter mesh, two support discs and an end configuration 16, wherein one thrombus filter mesh is arranged between the recovery part 11 and one support disc, and the other thrombus filter mesh is arranged between the two support discs At the waist, the end configuration 16 is arranged at one end of the other support disc away from the thrombus filter, the end configuration 16 includes a plurality of mutually free ends, and the plurality of mutually free ends are directed toward the vena cava filter. The central axis is obliquely curved and gathered. The radial width of the support disk is preferably larger than the radial width of the thrombus filter so that the thrombus filter ...
Embodiment 2
[0073] like Figure 15 and Figure 16 As shown in the figure, on the basis of Example 1, some components are structurally optimized in this example. In this example, each structural rod 1 of the vena cava filter can be bifurcated from the recovery part 11 to any position at the distal end. 2 or more thin branched structural rods to form a single or multiple small bifurcated structural rods, the structural rods emitted from the recovery part 11 before the first support plate 13 contacting the blood vessel wall 3 is formed for the first time 1 and the branched small structural rods formed by the bifurcation, cross or weave each other to form a grid structure such as a diamond or a circle, and form a first thrombus filter 12 that is more conducive to thrombus filtering, and the first thrombus filter 12 is far away from the blood vessel wall 3, A certain distance is maintained from the vessel wall 3 to prevent thrombus intimal cells from crawling and proliferating to the first th...
Embodiment 3
[0077] like Figure 17 and Figure 18 As shown in the figure, on the basis of Embodiment 1, this embodiment has carried out structural optimization design for some components. The difference from Embodiment 1 is that the structure rod 1 emitted from the recovery part 11 away from the central axis of this embodiment is positive or negative. "3" shape, respectively enclosing two first thrombus filter meshes 12, first support disc 13, second thrombus filter mesh 14, second support disc 15 and end configuration 16; end configuration 16 of all structural rods 1 They are free from each other, and converge toward the central axis of the vena cava filter.
[0078] In this example, the first thrombus filter screen 12 is formed by bending a plurality of structural rods 1 at the recovery part 11 and the first support plate 13 to form a conical surface filter screen, which includes a plurality of structural rods that gather together at one end and connect to the recovery part, and the ot...
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