CN205054506U - Blood vessel support with anti linear deformation - Google Patents

Abstract

The utility model provides a blood vessel support with anti linear deformation, the blood vessel support includes the cyclic annular supporter of a plurality of groups and connects every adjacent two sets of splice bar between the cyclic annular supporter, adopt the linear type splice bar to connect between the adjacent cyclic annular supporter of blood vessel support near -end, blood vessel support middle -end and distal end adopt S type splice bar to connect, have compromise ascending longitudinal strength and compliance are indulged to the blood vessel support, simultaneously, increased the quantity of blood vessel support near -end circumference straight line splice bar, further reinforcing the longitudinal strength of blood vessel support near -end can be guaranteed again the blood vessel holistic compliance of support and transport nature make it arrive vascular pathological change position smoothly, moreover, increased the width of blood vessel support near -end straight line splice bar, the further assurance blood vessel support near -end has sufficient longitudinal strength, has increased the area of contact of its and patch simultaneously, and is reducible the emergence of restenosis in the blood vessel support.

Description

A kind of intravascular stent with resisting longitudinal distortion

Technical field

This utility model relates to a kind of balloon-expandable intravascular stent adopting Percutenous transluminal coro-nary angioplasty to treat coronary stricture or obstruction of manufacture technology field of medical appliance, is specifically related to a kind of intravascular stent with resisting longitudinal distortion.

Background technology

Along with the development of society and improving constantly of human life quality's level, health becomes the problem paid close attention to the most in people's daily life.All kinds of acute and chronic angiemphraxis diseases caused by coronary atherosclerotic heart disease, seriously jeopardize human life's health and safety.According to American Heart Association's analysis of statistical data, cardiovascular disease has become the number one killer of human life's health.Treatment at present for the cardiovascular disease caused by angiostenosis has Drug therapy, surgical operation and interventional therapy three major types.The treatment of intravascular stent interventional procedure is with the fastest developing speed at present and the one obtaining clinical extensive utilization effectively treats angiemphraxis disease major way, has Wicresoft, the feature such as efficient.

Intravascular stent interventional procedure Therapeutic Method is pressed by support on the sacculus holding and be contained in and fold in advance, then along with sacculus arrives diseased region along the firm silk of guiding together, then inflation, expands support to strut narrow blood vessel, thus it is unimpeded to recover blood flow.In recent years, a kind of new stent failure pattern---support linear deformation never observed and reported in the past has been found clinically.When doctor attempts to allow other equipment, such as, sacculus after overexpansion, guide catheter, intravascular ultrasound catheter etc., by expansion after support time, if support will cause support longitudinally gross distortion to occur time snarly with any one equipment in them, namely mount proximal end is longitudinally seriously pressed short.If process this situation not in time, it will increase the risk of stent thrombosis or restenosis.

The structural design of intravascular stent is depended in the success or failure of support interventional procedure to a great extent.At present for the design that the design of intravascular stent structure adopts parameter value consistent more, i.e. same intravascular stent structure, no matter be annular support body and the dowel that the near-end of support or the middle part of support and far-end all adopt same shape, and the circumferential quantity of dowel between all supporters and their muscle is wide also all remains unchanged, this makes whole support all bear consistent longitudinal holding power from the near-end of support to far-end in use.In addition; in order to ensure that support can arrive diseased region by curved blood vessel smoothly in the process of conveying, usually can increase the design of support compliance, but this can weaken support longitudinal holding power usually further; reduce support longitudinal strength, causing support longitudinal compression to be out of shape incidence rate increases.In order to solve the problem, under ensureing that support has the prerequisite of certain compliance, improve the longitudinal strength of intravascular stent, reduce Thrombosis in sten and in-stent restenosis, a kind of structural design strengthening intravascular stent longitudinal strength of special proposition.

Utility model content

The purpose of this utility model is to solve deficiency of the prior art, and a kind of intravascular stent with resisting longitudinal distortion is provided, ensure when being applicable to withdraw balloon transport system after initial successful Stent Implantation that mount proximal end compression does not occur, by change support the circumference quantity of dowel, the muscle shape type that is wide and axial dowel of axial dowel take into account support longitudinally on compliance and the longitudinal strength of mount proximal end, can prevent the serious adverse events such as stent thrombosis and in-stent restenosis from occurring.

The technical solution of the utility model is: a kind of intravascular stent with resisting longitudinal distortion, the dowel comprising the some groups of annular support body bent and be connected to described in every two adjacent groups between annular support body;

Described annular support body is longitudinally arranged in order along described intravascular stent, in mirror symmetry distribution between the described annular support body of every two adjacent groups, each is organized described annular support body and comprises some sinusoidal unit ripples, and described unit ripple is arranged in order along the circumference of described intravascular stent;

Described dowel comprises linear type dowel and S type dowel; Adopt linear type dowel to connect between the adjacent annular supporter of described intravascular stent near-end, described intravascular stent middle-end and far-end adopt S type dowel to connect.

In such scheme, the quantity of described annular support body is eight groups, is respectively the first annular support body, the second annular support body, the 3rd annular support body, the 4th annular support body, the 5th annular support body, the 6th annular support body, the 7th annular support body and the 8th annular support body;

Often organize described annular support body and include six described unit ripples along support circumferential array, described first annular support body is connected by the first linear type dowel with adjacent described second annular support body, described second annular support body is connected by the second linear type dowel with adjacent described 3rd annular support body, described 3rd annular support body is connected by a S type dowel with adjacent described 4th annular support body, described 4th annular support body is connected by the 2nd S type dowel with adjacent described 5th annular support body, described 5th annular support body is connected by Three S's type dowel with adjacent described 6th annular support body, described 6th annular support body is connected by the 4th S type dowel with adjacent described 7th annular support body, described 7th annular support body is connected by the 5th S type dowel with adjacent described 8th annular support body.

Further, the muscle of described first linear type dowel and described second linear type dowel is wide is L, and the muscle of a described S type dowel, described 2nd S type dowel, described Three S's type dowel, described 4th S type dowel and described 5th S type dowel is wide is (0.5-0.8) L.

In such scheme, the circumferential quantity of described first linear type dowel is 6, the circumferential quantity of described second linear type dowel is also 6, a described S type dowel, described 2nd S type dowel, described Three S's type dowel, described 4th S type dowel and described 5th S type dowel circumferential number be 3.

In such scheme, the material of described intravascular stent is laser 316L rustless steel at molten quarter or L605 cochrome.

This utility model compared with prior art has following beneficial effect:

1, this utility model changes the dowel shape between described annular support body, namely between the adjacent annular supporter of described intravascular stent near-end, adopt linear type dowel to connect, S type dowel is adopted to connect in described intravascular stent middle-end and far-end, described linear type dowel resistance to deformation intensity is high, described S type dowel compliance is better, has taken into account the longitudinal strength in described intravascular stent longitudinal direction and compliance.

2, this utility model adds the quantity of described intravascular stent near-end circumference straight line dowel, namely the circumferential number of described straight line dowel is 2 times of the circumferential number of described S type dowel, the longitudinal strength of the described intravascular stent near-end of so further enhancing, compliance and the transporting of described intravascular stent entirety can be ensured again, make it arrive vascular lesion position smoothly.

3, this utility model adds the width of described intravascular stent near-end straight line dowel, further guarantee described intravascular stent near-end has enough longitudinal strengths, increase the contact area of itself and speckle simultaneously, the generation of described In-stent Restenosis can be decreased.

Accompanying drawing explanation

Fig. 1 is the structural representation after the intravascular stent of this utility model one embodiment longitudinally launches.

In figure, the 1, first annular support body; 2, the second annular support body; 3, the 3rd annular support body; 4, the 4th annular support body; 5, the 5th annular support body; 6, the 6th annular support body; 7, the 7th annular support body; 8, the 8th annular support body; 9, the first linear type dowel; 10, the second linear type dowel; 11, a S type dowel; 12, the 2nd S type dowel; 13, Three S's type dowel; 14, the 4th S type dowel; 15, the 5th S type dowel; 16, unit ripple.

Detailed description of the invention

Below in conjunction with accompanying drawing detailed description of the invention, this utility model is described in further detail, but protection domain of the present utility model is not limited to this.

Figure 1 shows that a kind of embodiment with the intravascular stent of resisting longitudinal distortion described in the utility model, described intravascular stent is melted the net tubular structure carved 316L rustless steel or L605 cochrome and make by laser, this structure maintains the integrity of described intravascular stent.

Structural representation after described intravascular stent longitudinally launches as shown in Figure 1, the dowel that described intravascular stent comprises the some groups of annular support body bent and is connected to described in every two adjacent groups between annular support body.

Described annular support body is longitudinally arranged in order along described intravascular stent, in mirror symmetry distribution between the described annular support body of every two adjacent groups, each is organized described annular support body and comprises some sinusoidal unit ripples 16, and described unit ripple 16 is arranged in order along the circumference of described intravascular stent.

Described intravascular stent changes the shape of the dowel between adjacent described annular support body, and namely described dowel comprises linear type dowel and S type dowel; Adopt linear type dowel to connect between the adjacent annular supporter of described intravascular stent near-end, described intravascular stent middle-end and far-end adopt S type dowel to connect.Described linear type dowel resistance to deformation intensity is high, and described S type dowel compliance is better, has taken into account the longitudinal strength in described intravascular stent longitudinal direction and compliance.

Preferably, described intravascular stent has annular support body described in eight groups, is respectively the first annular support body 1, second annular support body 2, the 3rd annular support body 3, the 4th annular support body 4, the 5th annular support body 5, the 6th annular support body 6, the 7th annular support body 7 and the 8th annular support body 8, preferably, often organize described annular support body and include six described unit ripples 16 along support circumferential array, described first annular support body 1 is connected by the first linear type dowel 9 with adjacent described second annular support body 2, described second annular support body 2 is connected by the second linear type dowel 10 with adjacent described 3rd annular support body 3, described 3rd annular support body 3 is connected by a S type dowel 11 with adjacent described 4th annular support body 4, described 4th annular support body 4 is connected by the 2nd S type dowel 12 with adjacent described 5th annular support body 5, described 5th annular support body 5 is connected by Three S's type dowel 13 with adjacent described 6th annular support body 6, described 6th annular support body 6 is connected by the 4th S type dowel 14 with adjacent described 7th annular support body 7, described 7th annular support body 7 is connected by the 5th S type dowel 15 with adjacent described 8th annular support body 8.

Add the quantity of described intravascular stent near-end circumference straight line dowel, the circumferential quantity of described first linear type dowel 9 is six, the circumferential quantity of described second linear type dowel 10 is also six, a described S type dowel 11, described 2nd S type dowel 12, described Three S's type dowel 13, described 4th S type dowel 14 and described 5th S type dowel 15 circumferential number be three.

The circumferential number of described straight line dowel is the twice of the circumferential number of described S type dowel, the longitudinal strength of the described intravascular stent near-end of so further enhancing, compliance and the transporting of described intravascular stent entirety can be ensured again, make it arrive vascular lesion position smoothly.

The muscle adding described intravascular stent near-end straight line dowel is wide, the muscle of described first linear type dowel 9 and described second linear type dowel 10 is wide is L, and the muscle of a described S type dowel 11, described 2nd S type dowel 12, described Three S's type dowel 13, described 4th S type dowel 14 and described 5th S type dowel 15 is wide is (0.5-0.8) L.The muscle increasing described intravascular stent near-end straight line dowel is wide, can ensure that described intravascular stent near-end has enough longitudinal strengths further, increases the contact area of itself and speckle simultaneously, can decrease the generation of described In-stent Restenosis.

The shape of this utility model by adopting linear type dowel and S shape dowel to change the dowel between adjacent described annular support body, the muscle simultaneously adding the quantity of described intravascular stent near-end circumference straight line dowel and described intravascular stent near-end straight line dowel is wide, the longitudinal strength of described intravascular stent near-end can be strengthened, compliance and the transporting of described intravascular stent entirety can be ensured again, make it arrive vascular lesion position smoothly, the generation of in-stent restenosis can be reduced.

Keep the shape of described intravascular stent proximal annular supporter and dowel and quantity constant, namely the shape of described first annular support body 1, described second annular support body 2, described 3rd annular support body 3, described first straight line dowel 9 and described second straight line dowel 10 and quantity remain unchanged in the present embodiment, reach the described intravascular stent length of increase and decrease to coordinate the length of blood vessel different lesions by the quantity of the annular support body and longitudinal dowel that increase and decrease described intravascular stent far-end.

Described embodiment is preferred embodiment of the present utility model; but this utility model is not limited to above-mentioned embodiment; when not deviating from flesh and blood of the present utility model, any apparent improvement that those skilled in the art can make, replacement or modification all belong to protection domain of the present utility model.

Claims (5)

1. there is an intravascular stent for resisting longitudinal distortion, it is characterized in that, the dowel comprising the some groups of annular support body bent and be connected to described in every two adjacent groups between annular support body;

Described annular support body is longitudinally arranged in order along described intravascular stent, in mirror symmetry distribution between the described annular support body of every two adjacent groups, each is organized described annular support body and comprises some sinusoidal unit ripples (16), and described unit ripple (16) is arranged in order along the circumference of described intravascular stent;

Described dowel comprises linear type dowel and S type dowel; Adopt linear type dowel to connect between the adjacent annular supporter of described intravascular stent near-end, described intravascular stent middle-end and far-end adopt S type dowel to connect.

2. the intravascular stent with resisting longitudinal distortion according to claim 1, it is characterized in that, the quantity of described annular support body is eight groups, is respectively the first annular support body (1), the second annular support body (2), the 3rd annular support body (3), the 4th annular support body (4), the 5th annular support body (5), the 6th annular support body (6), the 7th annular support body (7) and the 8th annular support body (8);

Often organize described annular support body and include six described unit ripples (16) along support circumferential array; described first annular support body (1) is connected by the first linear type dowel (9) with adjacent described second annular support body (2), described second annular support body (2) is connected by the second linear type dowel (10) with adjacent described 3rd annular support body (3), described 3rd annular support body (3) is connected by a S type dowel (11) with adjacent described 4th annular support body (4), described 4th annular support body (4) is connected by the 2nd S type dowel (12) with adjacent described 5th annular support body (5), described 5th annular support body (5) is connected by Three S's type dowel (13) with adjacent described 6th annular support body (6), described 6th annular support body (6) is connected by the 4th S type dowel (14) with adjacent described 7th annular support body (7), described 7th annular support body (7) is connected by the 5th S type dowel (15) with adjacent described 8th annular support body (8).

3. the intravascular stent with resisting longitudinal distortion according to claim 2, it is characterized in that, the muscle of described first linear type dowel (9) and described second linear type dowel (10) is wide is L, and the muscle of a described S type dowel (11), described 2nd S type dowel (12), described Three S's type dowel (13), described 4th S type dowel (14) and described 5th S type dowel (15) is wide is (0.5-0.8) L.

4. the intravascular stent with resisting longitudinal distortion according to claim 2, it is characterized in that, the circumferential quantity of described first linear type dowel (9) is 6, the circumferential quantity of described second linear type dowel (10) is also 6, a described S type dowel (11), described 2nd S type dowel (12), described Three S's type dowel (13), described 4th S type dowel (14) and described 5th S type dowel (15) circumferential number be 3.

5. the intravascular stent with resisting longitudinal distortion as claimed in any of claims 1 to 4, is characterized in that, the material of described intravascular stent is laser 316L rustless steel at molten quarter or L605 cochrome.